[INFO] fetching crate gdnative-bindings-lily 0.9.3... [INFO] testing gdnative-bindings-lily-0.9.3 against master#350d0ef0ec0493e6d21cfb265cb8211a0e74d766 for pr-145330-1 [INFO] extracting crate gdnative-bindings-lily 0.9.3 into /workspace/builds/worker-3-tc1/source [INFO] started tweaking crates.io crate gdnative-bindings-lily 0.9.3 [INFO] finished tweaking crates.io crate gdnative-bindings-lily 0.9.3 [INFO] tweaked toml for crates.io crate gdnative-bindings-lily 0.9.3 written to /workspace/builds/worker-3-tc1/source/Cargo.toml [INFO] validating manifest of crates.io crate gdnative-bindings-lily 0.9.3 on toolchain 350d0ef0ec0493e6d21cfb265cb8211a0e74d766 [INFO] running `Command { std: CARGO_HOME="/workspace/cargo-home" RUSTUP_HOME="/workspace/rustup-home" "/workspace/cargo-home/bin/cargo" "+350d0ef0ec0493e6d21cfb265cb8211a0e74d766" "metadata" "--manifest-path" "Cargo.toml" "--no-deps", kill_on_drop: false }` [INFO] running `Command { std: CARGO_HOME="/workspace/cargo-home" RUSTUP_HOME="/workspace/rustup-home" "/workspace/cargo-home/bin/cargo" "+350d0ef0ec0493e6d21cfb265cb8211a0e74d766" "generate-lockfile" "--manifest-path" "Cargo.toml", kill_on_drop: false }` [INFO] [stderr] Updating crates.io index [INFO] [stderr] Locking 58 packages to latest compatible versions [INFO] [stderr] Adding bitflags v1.3.2 (available: v2.9.4) [INFO] [stderr] Adding gdnative-core v0.9.3 (available: v0.11.3) [INFO] [stderr] Adding gdnative-sys v0.9.3 (available: v0.11.3) [INFO] [stderr] Adding gdnative_bindings_generator v0.9.3 (available: v0.11.3) [INFO] [stderr] Adding heck v0.3.3 (available: v0.5.0) [INFO] [stderr] Adding mini-internal v0.1.13 (available: v0.1.43) [INFO] [stderr] Adding miniserde v0.1.13 (available: v0.1.43) [INFO] running `Command { std: CARGO_HOME="/workspace/cargo-home" RUSTUP_HOME="/workspace/rustup-home" "/workspace/cargo-home/bin/cargo" "+350d0ef0ec0493e6d21cfb265cb8211a0e74d766" "fetch" "--manifest-path" "Cargo.toml", kill_on_drop: false }` [INFO] [stderr] Downloading crates ... [INFO] [stderr] Downloaded mini-internal v0.1.13 [INFO] [stderr] Downloaded unindent v0.1.11 [INFO] [stderr] Downloaded roxmltree v0.14.1 [INFO] [stderr] Downloaded gdnative-sys v0.9.3 [INFO] [stderr] Downloaded gdnative-impl-proc-macros v0.9.3 [INFO] [stderr] Downloaded gdnative_bindings_generator v0.9.3 [INFO] [stderr] Downloaded miniserde v0.1.13 [INFO] [stderr] Downloaded gdnative-core v0.9.3 [INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-3-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-3-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:e90291280db7d1fac5b66fc6dad9f9662629e7365a55743daf9bdf73ebc4ea79" "/opt/rustwide/cargo-home/bin/cargo" "+350d0ef0ec0493e6d21cfb265cb8211a0e74d766" "metadata" "--no-deps" "--format-version=1", kill_on_drop: false }` [INFO] [stdout] a19d00481fc35bd0034ddcda157d77373e7d33f69b79e9942fc7480645a22caa [INFO] running `Command { std: "docker" "start" "-a" "a19d00481fc35bd0034ddcda157d77373e7d33f69b79e9942fc7480645a22caa", kill_on_drop: false }` [INFO] running `Command { std: "docker" "inspect" "a19d00481fc35bd0034ddcda157d77373e7d33f69b79e9942fc7480645a22caa", kill_on_drop: false }` [INFO] running `Command { std: "docker" "rm" "-f" "a19d00481fc35bd0034ddcda157d77373e7d33f69b79e9942fc7480645a22caa", kill_on_drop: false }` [INFO] [stdout] a19d00481fc35bd0034ddcda157d77373e7d33f69b79e9942fc7480645a22caa [INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-3-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-3-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_INCREMENTAL=0" "-e" "RUST_BACKTRACE=full" "-e" "RUSTFLAGS=--cap-lints=forbid" "-e" "RUSTDOCFLAGS=--cap-lints=forbid" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:e90291280db7d1fac5b66fc6dad9f9662629e7365a55743daf9bdf73ebc4ea79" "/opt/rustwide/cargo-home/bin/cargo" "+350d0ef0ec0493e6d21cfb265cb8211a0e74d766" "build" "--frozen" "--message-format=json", kill_on_drop: false }` [INFO] [stdout] 89285c8ee17fb4c209aabb2a1395d98eba1e5fb1063689f56766ba439df83350 [INFO] running `Command { std: "docker" "start" "-a" "89285c8ee17fb4c209aabb2a1395d98eba1e5fb1063689f56766ba439df83350", kill_on_drop: false }` [INFO] [stderr] Compiling ryu v1.0.20 [INFO] [stderr] Compiling itoa v0.4.8 [INFO] [stderr] Compiling memchr v2.7.6 [INFO] [stderr] Compiling bindgen v0.56.0 [INFO] [stderr] Compiling nom v5.1.3 [INFO] [stderr] Compiling libloading v0.8.9 [INFO] [stderr] Compiling shlex v0.1.1 [INFO] [stderr] Compiling parking_lot_core v0.8.6 [INFO] [stderr] Compiling xmlparser v0.13.6 [INFO] [stderr] Compiling syn v1.0.109 [INFO] [stderr] Compiling instant v0.1.13 [INFO] [stderr] Compiling indexmap v1.9.3 [INFO] [stderr] Compiling ahash v0.7.8 [INFO] [stderr] Compiling heck v0.3.3 [INFO] [stderr] Compiling unindent v0.1.11 [INFO] [stderr] Compiling once_cell v1.21.3 [INFO] [stderr] Compiling approx v0.4.0 [INFO] [stderr] Compiling clang-sys v1.8.1 [INFO] [stderr] Compiling roxmltree v0.14.1 [INFO] [stderr] Compiling parking_lot v0.11.2 [INFO] [stderr] Compiling cexpr v0.4.0 [INFO] [stderr] Compiling mini-internal v0.1.13 [INFO] [stderr] Compiling gdnative-impl-proc-macros v0.9.3 [INFO] [stderr] Compiling miniserde v0.1.13 [INFO] [stderr] Compiling gdnative_bindings_generator v0.9.3 [INFO] [stderr] Compiling gdnative-bindings-lily v0.9.3 (/opt/rustwide/workdir) [INFO] [stderr] Compiling gdnative-sys v0.9.3 [INFO] [stderr] Compiling gdnative-core v0.9.3 [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:4:1846 [INFO] [stdout] | [INFO] [stdout] 4 | ...non_camel_case_types)] # [derive (Debug)] pub struct VSlider { this : RawObject < Self > , } impl VSlider { # [doc = "Creates a new in... [INFO] [stdout] | ------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VSlider` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] = note: `#[warn(dead_code)]` on by default [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:10:1365 [INFO] [stdout] | [INFO] [stdout] 10 | ...camel_case_types)] # [derive (Debug)] pub struct AudioBusLayout { this : RawObject < Self > , } impl AudioBusLayout { # [doc = "Create... [INFO] [stdout] | -------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioBusLayout` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:58:1926 [INFO] [stdout] | [INFO] [stdout] 58 | ...camel_case_types)] # [derive (Debug)] pub struct VSplitContainer { this : RawObject < Self > , } impl VSplitContainer { # [doc = "Crea... [INFO] [stdout] | --------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VSplitContainer` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:112:1842 [INFO] [stdout] | [INFO] [stdout] 112 | ...n_camel_case_types)] # [derive (Debug)] pub struct VSeparator { this : RawObject < Self > , } impl VSeparator { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VSeparator` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:178:1341 [INFO] [stdout] | [INFO] [stdout] 178 | ...on_camel_case_types)] # [derive (Debug)] pub struct TextFile { this : RawObject < Self > , } impl TextFile { # [doc = "Creates a new i... [INFO] [stdout] | -------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `TextFile` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:184:1246 [INFO] [stdout] | [INFO] [stdout] 184 | ...mel_case_types)] # [derive (Debug)] pub struct BulletPhysicsServer { this : RawObject < Self > , } impl BulletPhysicsServer { } impl g... [INFO] [stdout] | ------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `BulletPhysicsServer` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:220:1494 [INFO] [stdout] | [INFO] [stdout] 220 | ...se_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarMix { this : RawObject < Self > , } impl VisualShaderNodeVectorSc... [INFO] [stdout] | ------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorScalarMix` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:250:1490 [INFO] [stdout] | [INFO] [stdout] 250 | ...l_case_types)] # [derive (Debug)] pub struct MultiplayerPeerGDNative { this : RawObject < Self > , } impl MultiplayerPeerGDNative { # ... [INFO] [stdout] | ----------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `MultiplayerPeerGDNative` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:286:1458 [INFO] [stdout] | [INFO] [stdout] 286 | ...l_case_types)] # [derive (Debug)] pub struct VisualScriptCustomNode { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , ... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptCustomNode` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:310:1446 [INFO] [stdout] | [INFO] [stdout] 310 | ...mel_case_types)] # [derive (Debug)] pub struct VisualScriptSubCall { this : RawObject < Self > , } impl VisualScriptSubCall { # [doc =... [INFO] [stdout] | ------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptSubCall` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:382:1321 [INFO] [stdout] | [INFO] [stdout] 382 | ..._camel_case_types)] # [derive (Debug)] pub struct SpatialGizmo { this : RawObject < Self > , } impl SpatialGizmo { } impl gdnative_cor... [INFO] [stdout] | ------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `SpatialGizmo` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:388:1398 [INFO] [stdout] | [INFO] [stdout] 388 | ..._camel_case_types)] # [derive (Debug)] pub struct StyleBoxEmpty { this : RawObject < Self > , } impl StyleBoxEmpty { # [doc = "Creates... [INFO] [stdout] | ------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `StyleBoxEmpty` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:406:1498 [INFO] [stdout] | [INFO] [stdout] 406 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarStep { this : RawObject < Self > , } impl VisualShaderNodeVectorSc... [INFO] [stdout] | -------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorScalarStep` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:448:1482 [INFO] [stdout] | [INFO] [stdout] 448 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarInterp { this : RawObject < Self > , } impl VisualShaderNodeScalarInte... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeScalarInterp` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:604:1387 [INFO] [stdout] | [INFO] [stdout] 604 | ...mel_case_types)] # [derive (Debug)] pub struct PacketPeerGDNative { this : RawObject < Self > , } impl PacketPeerGDNative { # [doc = "... [INFO] [stdout] | ------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `PacketPeerGDNative` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:658:1652 [INFO] [stdout] | [INFO] [stdout] 658 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeGlobalExpression { this : RawObject < Self > , } impl VisualShaderNodeGlobalEx... [INFO] [stdout] | -------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeGlobalExpression` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:754:1458 [INFO] [stdout] | [INFO] [stdout] 754 | ...l_case_types)] # [derive (Debug)] pub struct VisualShaderNodeCustom { this : RawObject < Self > , } impl VisualShaderNodeCustom { # [d... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeCustom` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:760:1458 [INFO] [stdout] | [INFO] [stdout] 760 | ...l_case_types)] # [derive (Debug)] pub struct VisualShaderNodeOutput { this : RawObject < Self > , } impl VisualShaderNodeOutput { } im... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeOutput` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:766:1504 [INFO] [stdout] | [INFO] [stdout] 766 | ...l_case_types)] # [derive (Debug)] pub struct AudioEffectNotchFilter { this : RawObject < Self > , } impl AudioEffectNotchFilter { # [d... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectNotchFilter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:790:1450 [INFO] [stdout] | [INFO] [stdout] 790 | ...el_case_types)] # [derive (Debug)] pub struct VisualScriptIndexGet { this : RawObject < Self > , } impl VisualScriptIndexGet { # [doc ... [INFO] [stdout] | -------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptIndexGet` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:820:1454 [INFO] [stdout] | [INFO] [stdout] 820 | ...el_case_types)] # [derive (Debug)] pub struct VisualScriptCondition { this : RawObject < Self > , } impl VisualScriptCondition { # [do... [INFO] [stdout] | --------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptCondition` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:826:1498 [INFO] [stdout] | [INFO] [stdout] 826 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeTransformCompose { this : RawObject < Self > , } impl VisualShaderNodeTransfor... [INFO] [stdout] | -------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeTransformCompose` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:832:1307 [INFO] [stdout] | [INFO] [stdout] 832 | ...case_types)] # [derive (Debug)] pub struct Physics2DDirectBodyStateSW { this : RawObject < Self > , } impl Physics2DDirectBodyStateSW ... [INFO] [stdout] | -------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `Physics2DDirectBodyStateSW` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:862:1450 [INFO] [stdout] | [INFO] [stdout] 862 | ...el_case_types)] # [derive (Debug)] pub struct VisualScriptFunction { this : RawObject < Self > , } impl VisualScriptFunction { # [doc ... [INFO] [stdout] | -------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptFunction` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:898:1474 [INFO] [stdout] | [INFO] [stdout] 898 | ...case_types)] # [derive (Debug)] pub struct VisualShaderNodeDotProduct { this : RawObject < Self > , } impl VisualShaderNodeDotProduct ... [INFO] [stdout] | -------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeDotProduct` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:910:1293 [INFO] [stdout] | [INFO] [stdout] 910 | ...camel_case_types)] # [derive (Debug)] pub struct RootMotionView { this : RawObject < Self > , } impl RootMotionView { } impl gdnative_... [INFO] [stdout] | -------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `RootMotionView` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:922:1880 [INFO] [stdout] | [INFO] [stdout] 922 | ...n_camel_case_types)] # [derive (Debug)] pub struct CheckButton { this : RawObject < Self > , } impl CheckButton { # [doc = "Creates a ... [INFO] [stdout] | ----------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `CheckButton` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:934:1926 [INFO] [stdout] | [INFO] [stdout] 934 | ...camel_case_types)] # [derive (Debug)] pub struct HSplitContainer { this : RawObject < Self > , } impl HSplitContainer { # [doc = "Crea... [INFO] [stdout] | --------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `HSplitContainer` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:976:1478 [INFO] [stdout] | [INFO] [stdout] 976 | ...case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorClamp { this : RawObject < Self > , } impl VisualShaderNodeVectorClam... [INFO] [stdout] | --------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorClamp` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:994:1490 [INFO] [stdout] | [INFO] [stdout] 994 | ...se_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorDistance { this : RawObject < Self > , } impl VisualShaderNodeVectorDis... [INFO] [stdout] | ------------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorDistance` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1006:1462 [INFO] [stdout] | [INFO] [stdout] 1006 | ...l_case_types)] # [derive (Debug)] pub struct VisualShaderNodeFresnel { this : RawObject < Self > , } impl VisualShaderNodeFresnel { # ... [INFO] [stdout] | ----------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeFresnel` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1048:1516 [INFO] [stdout] | [INFO] [stdout] 1048 | ..._case_types)] # [derive (Debug)] pub struct AudioEffectBandPassFilter { this : RawObject < Self > , } impl AudioEffectBandPassFilter {... [INFO] [stdout] | ------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectBandPassFilter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1066:1832 [INFO] [stdout] | [INFO] [stdout] 1066 | ...on_camel_case_types)] # [derive (Debug)] pub struct SpotLight { this : RawObject < Self > , } impl SpotLight { # [doc = "Creates a new... [INFO] [stdout] | --------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `SpotLight` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1072:1522 [INFO] [stdout] | [INFO] [stdout] 1072 | ..._case_types)] # [derive (Debug)] pub struct VisualScriptComposeArray { this : RawObject < Self > , } impl VisualScriptComposeArray { #... [INFO] [stdout] | ------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptComposeArray` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1078:1478 [INFO] [stdout] | [INFO] [stdout] 1078 | ...case_types)] # [derive (Debug)] pub struct VisualShaderNodeFaceForward { this : RawObject < Self > , } impl VisualShaderNodeFaceForwar... [INFO] [stdout] | --------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeFaceForward` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1084:1458 [INFO] [stdout] | [INFO] [stdout] 1084 | ...se_types)] # [derive (Debug)] pub struct EditorResourceConversionPlugin { this : RawObject < Self > , } impl EditorResourceConversionP... [INFO] [stdout] | ------------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `EditorResourceConversionPlugin` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1102:1442 [INFO] [stdout] | [INFO] [stdout] 1102 | ...mel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeIf { this : RawObject < Self > , } impl VisualShaderNodeIf { # [doc = "... [INFO] [stdout] | ------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeIf` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1108:1522 [INFO] [stdout] | [INFO] [stdout] 1108 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarSmoothStep { this : RawObject < Self > , } impl VisualShaderNodeVecto... [INFO] [stdout] | -------------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorScalarSmoothStep` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1126:1439 [INFO] [stdout] | [INFO] [stdout] 1126 | ...el_case_types)] # [derive (Debug)] pub struct AudioStreamMicrophone { this : RawObject < Self > , } impl AudioStreamMicrophone { # [do... [INFO] [stdout] | --------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioStreamMicrophone` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1144:1707 [INFO] [stdout] | [INFO] [stdout] 1144 | ..._camel_case_types)] # [derive (Debug)] pub struct JNISingleton { this : RawObject < Self > , } impl JNISingleton { # [doc = "Creates a... [INFO] [stdout] | ------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `JNISingleton` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1168:1771 [INFO] [stdout] | [INFO] [stdout] 1168 | ...(non_camel_case_types)] # [derive (Debug)] pub struct Panel { this : RawObject < Self > , } impl Panel { # [doc = "Creates a new insta... [INFO] [stdout] | ----- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `Panel` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1186:1349 [INFO] [stdout] | [INFO] [stdout] 1186 | ...mel_case_types)] # [derive (Debug)] pub struct ResourceFormatSaver { this : RawObject < Self > , } impl ResourceFormatSaver { # [doc =... [INFO] [stdout] | ------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `ResourceFormatSaver` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1240:1908 [INFO] [stdout] | [INFO] [stdout] 1240 | ..._camel_case_types)] # [derive (Debug)] pub struct VBoxContainer { this : RawObject < Self > , } impl VBoxContainer { # [doc = "Creates... [INFO] [stdout] | ------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VBoxContainer` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1294:1349 [INFO] [stdout] | [INFO] [stdout] 1294 | ...mel_case_types)] # [derive (Debug)] pub struct AudioStreamPlayback { this : RawObject < Self > , } impl AudioStreamPlayback { } impl g... [INFO] [stdout] | ------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioStreamPlayback` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1306:1866 [INFO] [stdout] | [INFO] [stdout] 1306 | ...camel_case_types)] # [derive (Debug)] pub struct PanelContainer { this : RawObject < Self > , } impl PanelContainer { # [doc = "Create... [INFO] [stdout] | -------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `PanelContainer` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1372:1309 [INFO] [stdout] | [INFO] [stdout] 1372 | ...ase_types)] # [derive (Debug)] pub struct BulletPhysicsDirectBodyState { this : RawObject < Self > , } impl BulletPhysicsDirectBodySta... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `BulletPhysicsDirectBodyState` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1414:1688 [INFO] [stdout] | [INFO] [stdout] 1414 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeTextureUniformTriplanar { this : RawObject < Self > , } impl VisualShaderNodeText... [INFO] [stdout] | --------------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeTextureUniformTriplanar` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1420:1470 [INFO] [stdout] | [INFO] [stdout] 1420 | ..._case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorLen { this : RawObject < Self > , } impl VisualShaderNodeVectorLen {... [INFO] [stdout] | ------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorLen` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1504:1495 [INFO] [stdout] | [INFO] [stdout] 1504 | ...l_case_types)] # [derive (Debug)] pub struct EditorSceneImporterFBX { this : RawObject < Self > , } impl EditorSceneImporterFBX { } im... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `EditorSceneImporterFBX` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1522:1572 [INFO] [stdout] | [INFO] [stdout] 1522 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeTransformUniform { this : RawObject < Self > , } impl VisualShaderNodeTransfor... [INFO] [stdout] | -------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeTransformUniform` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1540:1450 [INFO] [stdout] | [INFO] [stdout] 1540 | ...el_case_types)] # [derive (Debug)] pub struct VisualScriptIterator { this : RawObject < Self > , } impl VisualScriptIterator { # [doc ... [INFO] [stdout] | -------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptIterator` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1552:1516 [INFO] [stdout] | [INFO] [stdout] 1552 | ..._case_types)] # [derive (Debug)] pub struct AudioEffectLowShelfFilter { this : RawObject < Self > , } impl AudioEffectLowShelfFilter {... [INFO] [stdout] | ------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectLowShelfFilter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1570:1337 [INFO] [stdout] | [INFO] [stdout] 1570 | ...amel_case_types)] # [derive (Debug)] pub struct ResourceImporter { this : RawObject < Self > , } impl ResourceImporter { } impl gdnati... [INFO] [stdout] | ---------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `ResourceImporter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1582:1498 [INFO] [stdout] | [INFO] [stdout] 1582 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarSmoothStep { this : RawObject < Self > , } impl VisualShaderNodeScalarSm... [INFO] [stdout] | -------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeScalarSmoothStep` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1588:1426 [INFO] [stdout] | [INFO] [stdout] 1588 | ...on_camel_case_types)] # [derive (Debug)] pub struct PointMesh { this : RawObject < Self > , } impl PointMesh { # [doc = "Creates a new... [INFO] [stdout] | --------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `PointMesh` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1612:1458 [INFO] [stdout] | [INFO] [stdout] 1612 | ...l_case_types)] # [derive (Debug)] pub struct VisualScriptExpression { this : RawObject < Self > , } impl VisualScriptExpression { # [d... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptExpression` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1624:1552 [INFO] [stdout] | [INFO] [stdout] 1624 | ...case_types)] # [derive (Debug)] pub struct VisualShaderNodeVec3Uniform { this : RawObject < Self > , } impl VisualShaderNodeVec3Unifor... [INFO] [stdout] | --------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVec3Uniform` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1672:1353 [INFO] [stdout] | [INFO] [stdout] 1672 | ...n_camel_case_types)] # [derive (Debug)] pub struct VideoStream { this : RawObject < Self > , } impl VideoStream { } impl gdnative_core... [INFO] [stdout] | ----------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VideoStream` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1714:1560 [INFO] [stdout] | [INFO] [stdout] 1714 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarUniform { this : RawObject < Self > , } impl VisualShaderNodeScalarUni... [INFO] [stdout] | ----------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeScalarUniform` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1720:1321 [INFO] [stdout] | [INFO] [stdout] 1720 | ..._camel_case_types)] # [derive (Debug)] pub struct TriangleMesh { this : RawObject < Self > , } impl TriangleMesh { # [doc = "Creates a... [INFO] [stdout] | ------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `TriangleMesh` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1756:1516 [INFO] [stdout] | [INFO] [stdout] 1756 | ..._case_types)] # [derive (Debug)] pub struct AudioEffectHighPassFilter { this : RawObject < Self > , } impl AudioEffectHighPassFilter {... [INFO] [stdout] | ------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectHighPassFilter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1774:1906 [INFO] [stdout] | [INFO] [stdout] 1774 | ...n_camel_case_types)] # [derive (Debug)] pub struct CSGCombiner { this : RawObject < Self > , } impl CSGCombiner { # [doc = "Creates a ... [INFO] [stdout] | ----------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `CSGCombiner` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1780:1798 [INFO] [stdout] | [INFO] [stdout] 1780 | ...n_camel_case_types)] # [derive (Debug)] pub struct Position2D { this : RawObject < Self > , } impl Position2D { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `Position2D` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1876:1353 [INFO] [stdout] | [INFO] [stdout] 1876 | ...el_case_types)] # [derive (Debug)] pub struct ResourceFormatLoader { this : RawObject < Self > , } impl ResourceFormatLoader { # [doc ... [INFO] [stdout] | -------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `ResourceFormatLoader` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1888:1365 [INFO] [stdout] | [INFO] [stdout] 1888 | ...camel_case_types)] # [derive (Debug)] pub struct RichTextEffect { this : RawObject < Self > , } impl RichTextEffect { # [doc = "Create... [INFO] [stdout] | -------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `RichTextEffect` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1894:1464 [INFO] [stdout] | [INFO] [stdout] 1894 | ...camel_case_types)] # [derive (Debug)] pub struct AudioEffectEQ10 { this : RawObject < Self > , } impl AudioEffectEQ10 { # [doc = "Crea... [INFO] [stdout] | --------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectEQ10` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1924:1836 [INFO] [stdout] | [INFO] [stdout] 1924 | ...n_camel_case_types)] # [derive (Debug)] pub struct PopupDialog { this : RawObject < Self > , } impl PopupDialog { # [doc = "Creates a ... [INFO] [stdout] | ----------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `PopupDialog` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1972:1186 [INFO] [stdout] | [INFO] [stdout] 1972 | ...camel_case_types)] # [derive (Debug)] pub struct GlobalConstants { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_u... [INFO] [stdout] | --------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `GlobalConstants` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1984:1464 [INFO] [stdout] | [INFO] [stdout] 1984 | ...camel_case_types)] # [derive (Debug)] pub struct AudioEffectEQ21 { this : RawObject < Self > , } impl AudioEffectEQ21 { # [doc = "Crea... [INFO] [stdout] | --------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectEQ21` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2020:1387 [INFO] [stdout] | [INFO] [stdout] 2020 | ...mel_case_types)] # [derive (Debug)] pub struct StreamPeerGDNative { this : RawObject < Self > , } impl StreamPeerGDNative { # [doc = "... [INFO] [stdout] | ------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `StreamPeerGDNative` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2026:1564 [INFO] [stdout] | [INFO] [stdout] 2026 | ...se_types)] # [derive (Debug)] pub struct VisualShaderNodeBooleanUniform { this : RawObject < Self > , } impl VisualShaderNodeBooleanUn... [INFO] [stdout] | ------------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeBooleanUniform` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2050:1450 [INFO] [stdout] | [INFO] [stdout] 2050 | ...el_case_types)] # [derive (Debug)] pub struct VisualScriptIndexSet { this : RawObject < Self > , } impl VisualScriptIndexSet { # [doc ... [INFO] [stdout] | -------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptIndexSet` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2074:1520 [INFO] [stdout] | [INFO] [stdout] 2074 | ...case_types)] # [derive (Debug)] pub struct AudioEffectBandLimitFilter { this : RawObject < Self > , } impl AudioEffectBandLimitFilter ... [INFO] [stdout] | -------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectBandLimitFilter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2086:1830 [INFO] [stdout] | [INFO] [stdout] 2086 | ...n_camel_case_types)] # [derive (Debug)] pub struct PopupPanel { this : RawObject < Self > , } impl PopupPanel { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `PopupPanel` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2098:1908 [INFO] [stdout] | [INFO] [stdout] 2098 | ..._camel_case_types)] # [derive (Debug)] pub struct HBoxContainer { this : RawObject < Self > , } impl HBoxContainer { # [doc = "Creates... [INFO] [stdout] | ------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `HBoxContainer` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2152:1862 [INFO] [stdout] | [INFO] [stdout] 2152 | ...on_camel_case_types)] # [derive (Debug)] pub struct CheckBox { this : RawObject < Self > , } impl CheckBox { # [doc = "Creates a new i... [INFO] [stdout] | -------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `CheckBox` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2164:1408 [INFO] [stdout] | [INFO] [stdout] 2164 | ...el_case_types)] # [derive (Debug)] pub struct ARVRInterfaceGDNative { this : RawObject < Self > , } impl ARVRInterfaceGDNative { # [do... [INFO] [stdout] | --------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `ARVRInterfaceGDNative` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2248:1349 [INFO] [stdout] | [INFO] [stdout] 2248 | ...mel_case_types)] # [derive (Debug)] pub struct AudioEffectInstance { this : RawObject < Self > , } impl AudioEffectInstance { } impl g... [INFO] [stdout] | ------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectInstance` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2278:1400 [INFO] [stdout] | [INFO] [stdout] 2278 | ...on_camel_case_types)] # [derive (Debug)] pub struct Texture3D { this : RawObject < Self > , } impl Texture3D { # [doc = "Creates a new... [INFO] [stdout] | --------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `Texture3D` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2284:1506 [INFO] [stdout] | [INFO] [stdout] 2284 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeTransformDecompose { this : RawObject < Self > , } impl VisualShaderNodeTransfo... [INFO] [stdout] | ---------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeTransformDecompose` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2548:1553 [INFO] [stdout] | [INFO] [stdout] 2548 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarSwitch { this : RawObject < Self > , } impl VisualShaderNodeScalarSwit... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeScalarSwitch` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2554:1498 [INFO] [stdout] | [INFO] [stdout] 2554 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorSmoothStep { this : RawObject < Self > , } impl VisualShaderNodeVectorSm... [INFO] [stdout] | -------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorSmoothStep` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2584:1353 [INFO] [stdout] | [INFO] [stdout] 2584 | ...n_camel_case_types)] # [derive (Debug)] pub struct AudioEffect { this : RawObject < Self > , } impl AudioEffect { } impl gdnative_core... [INFO] [stdout] | ----------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffect` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2686:1556 [INFO] [stdout] | [INFO] [stdout] 2686 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeColorUniform { this : RawObject < Self > , } impl VisualShaderNodeColorUnifo... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeColorUniform` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2698:1244 [INFO] [stdout] | [INFO] [stdout] 2698 | ...amel_case_types)] # [derive (Debug)] pub struct Physics2DServerSW { this : RawObject < Self > , } impl Physics2DServerSW { } impl gdna... [INFO] [stdout] | ----------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `Physics2DServerSW` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2704:1846 [INFO] [stdout] | [INFO] [stdout] 2704 | ...non_camel_case_types)] # [derive (Debug)] pub struct HSlider { this : RawObject < Self > , } impl HSlider { # [doc = "Creates a new in... [INFO] [stdout] | ------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `HSlider` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2710:1460 [INFO] [stdout] | [INFO] [stdout] 2710 | ...camel_case_types)] # [derive (Debug)] pub struct AudioEffectEQ6 { this : RawObject < Self > , } impl AudioEffectEQ6 { # [doc = "Create... [INFO] [stdout] | -------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectEQ6` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2770:1792 [INFO] [stdout] | [INFO] [stdout] 2770 | ...n_camel_case_types)] # [derive (Debug)] pub struct ARVRCamera { this : RawObject < Self > , } impl ARVRCamera { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `ARVRCamera` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2776:1478 [INFO] [stdout] | [INFO] [stdout] 2776 | ...case_types)] # [derive (Debug)] pub struct VisualShaderNodeDeterminant { this : RawObject < Self > , } impl VisualShaderNodeDeterminan... [INFO] [stdout] | --------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeDeterminant` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2794:1412 [INFO] [stdout] | [INFO] [stdout] 2794 | ..._camel_case_types)] # [derive (Debug)] pub struct TextureArray { this : RawObject < Self > , } impl TextureArray { # [doc = "Creates a... [INFO] [stdout] | ------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `TextureArray` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2800:1652 [INFO] [stdout] | [INFO] [stdout] 2800 | ...se_types)] # [derive (Debug)] pub struct VisualShaderNodeCubeMapUniform { this : RawObject < Self > , } impl VisualShaderNodeCubeMapUn... [INFO] [stdout] | ------------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeCubeMapUniform` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2818:1454 [INFO] [stdout] | [INFO] [stdout] 2818 | ...ase_types)] # [derive (Debug)] pub struct AudioStreamPlaybackResampled { this : RawObject < Self > , } impl AudioStreamPlaybackResampl... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioStreamPlaybackResampled` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2830:1445 [INFO] [stdout] | [INFO] [stdout] 2830 | ...el_case_types)] # [derive (Debug)] pub struct AnimationNodeTimeSeek { this : RawObject < Self > , } impl AnimationNodeTimeSeek { # [do... [INFO] [stdout] | --------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AnimationNodeTimeSeek` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2854:1494 [INFO] [stdout] | [INFO] [stdout] 2854 | ...se_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorDecompose { this : RawObject < Self > , } impl VisualShaderNodeVectorDe... [INFO] [stdout] | ------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorDecompose` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2926:1486 [INFO] [stdout] | [INFO] [stdout] 2926 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorRefract { this : RawObject < Self > , } impl VisualShaderNodeVectorRef... [INFO] [stdout] | ----------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorRefract` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2950:1482 [INFO] [stdout] | [INFO] [stdout] 2950 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeOuterProduct { this : RawObject < Self > , } impl VisualShaderNodeOuterProdu... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeOuterProduct` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2962:1872 [INFO] [stdout] | [INFO] [stdout] 2962 | ...camel_case_types)] # [derive (Debug)] pub struct MarginContainer { this : RawObject < Self > , } impl MarginContainer { # [doc = "Crea... [INFO] [stdout] | --------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `MarginContainer` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:2974:1449 [INFO] [stdout] | [INFO] [stdout] 2974 | ...l_case_types)] # [derive (Debug)] pub struct AnimationNodeTimeScale { this : RawObject < Self > , } impl AnimationNodeTimeScale { # [d... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AnimationNodeTimeScale` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3022:1486 [INFO] [stdout] | [INFO] [stdout] 3022 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorCompose { this : RawObject < Self > , } impl VisualShaderNodeVectorCom... [INFO] [stdout] | ----------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorCompose` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3028:1165 [INFO] [stdout] | [INFO] [stdout] 3028 | ...non_camel_case_types)] # [derive (Debug)] pub struct IP_Unix { this : RawObject < Self > , } impl IP_Unix { } impl gdnative_core :: pr... [INFO] [stdout] | ------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `IP_Unix` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3034:1457 [INFO] [stdout] | [INFO] [stdout] 3034 | ...ase_types)] # [derive (Debug)] pub struct WebRTCPeerConnectionGDNative { this : RawObject < Self > , } impl WebRTCPeerConnectionGDNati... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `WebRTCPeerConnectionGDNative` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3100:1482 [INFO] [stdout] | [INFO] [stdout] 3100 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorInterp { this : RawObject < Self > , } impl VisualShaderNodeVectorInte... [INFO] [stdout] | ---------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeVectorInterp` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3154:1520 [INFO] [stdout] | [INFO] [stdout] 3154 | ...case_types)] # [derive (Debug)] pub struct AudioEffectHighShelfFilter { this : RawObject < Self > , } impl AudioEffectHighShelfFilter ... [INFO] [stdout] | -------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectHighShelfFilter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3184:1842 [INFO] [stdout] | [INFO] [stdout] 3184 | ...n_camel_case_types)] # [derive (Debug)] pub struct HSeparator { this : RawObject < Self > , } impl HSeparator { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `HSeparator` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3202:1442 [INFO] [stdout] | [INFO] [stdout] 3202 | ...mel_case_types)] # [derive (Debug)] pub struct VisualScriptSwitch { this : RawObject < Self > , } impl VisualScriptSwitch { # [doc = "... [INFO] [stdout] | ------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptSwitch` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3214:1429 [INFO] [stdout] | [INFO] [stdout] 3214 | ...amel_case_types)] # [derive (Debug)] pub struct AnimationRootNode { this : RawObject < Self > , } impl AnimationRootNode { # [doc = "C... [INFO] [stdout] | ----------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AnimationRootNode` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3238:1874 [INFO] [stdout] | [INFO] [stdout] 3238 | ...n_camel_case_types)] # [derive (Debug)] pub struct ToolButton { this : RawObject < Self > , } impl ToolButton { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `ToolButton` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3340:1760 [INFO] [stdout] | [INFO] [stdout] 3340 | ...n_camel_case_types)] # [derive (Debug)] pub struct Position3D { this : RawObject < Self > , } impl Position3D { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `Position3D` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3364:1194 [INFO] [stdout] | [INFO] [stdout] 3364 | ..._camel_case_types)] # [derive (Debug)] pub struct InputDefault { this : RawObject < Self > , } impl InputDefault { } impl gdnative_cor... [INFO] [stdout] | ------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `InputDefault` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3382:1873 [INFO] [stdout] | [INFO] [stdout] 3382 | ...n_camel_case_types)] # [derive (Debug)] pub struct VScrollBar { this : RawObject < Self > , } impl VScrollBar { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VScrollBar` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3400:1470 [INFO] [stdout] | [INFO] [stdout] 3400 | ...mel_case_types)] # [derive (Debug)] pub struct EditorImportPlugin { this : RawObject < Self > , } impl EditorImportPlugin { } impl gdn... [INFO] [stdout] | ------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `EditorImportPlugin` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3406:1437 [INFO] [stdout] | [INFO] [stdout] 3406 | ...mel_case_types)] # [derive (Debug)] pub struct AnimationNodeOutput { this : RawObject < Self > , } impl AnimationNodeOutput { # [doc =... [INFO] [stdout] | ------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AnimationNodeOutput` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3418:1873 [INFO] [stdout] | [INFO] [stdout] 3418 | ...n_camel_case_types)] # [derive (Debug)] pub struct HScrollBar { this : RawObject < Self > , } impl HScrollBar { # [doc = "Creates a ne... [INFO] [stdout] | ---------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `HScrollBar` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3454:1258 [INFO] [stdout] | [INFO] [stdout] 3454 | ...on_camel_case_types)] # [derive (Debug)] pub struct Separator { this : RawObject < Self > , } impl Separator { } impl gdnative_core ::... [INFO] [stdout] | --------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `Separator` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3466:1478 [INFO] [stdout] | [INFO] [stdout] 3466 | ...case_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarClamp { this : RawObject < Self > , } impl VisualShaderNodeScalarClam... [INFO] [stdout] | --------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeScalarClamp` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3532:1477 [INFO] [stdout] | [INFO] [stdout] 3532 | ..._case_types)] # [derive (Debug)] pub struct WebRTCDataChannelGDNative { this : RawObject < Self > , } impl WebRTCDataChannelGDNative {... [INFO] [stdout] | ------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `WebRTCDataChannelGDNative` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3538:1458 [INFO] [stdout] | [INFO] [stdout] 3538 | ...se_types)] # [derive (Debug)] pub struct EditorResourcePreviewGenerator { this : RawObject < Self > , } impl EditorResourcePreviewGene... [INFO] [stdout] | ------------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `EditorResourcePreviewGenerator` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3550:1309 [INFO] [stdout] | [INFO] [stdout] 3550 | ...on_camel_case_types)] # [derive (Debug)] pub struct JavaClass { this : RawObject < Self > , } impl JavaClass { # [doc = "Creates a new... [INFO] [stdout] | --------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `JavaClass` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3592:1458 [INFO] [stdout] | [INFO] [stdout] 3592 | ...l_case_types)] # [derive (Debug)] pub struct VisualShaderNodeSwitch { this : RawObject < Self > , } impl VisualShaderNodeSwitch { # [d... [INFO] [stdout] | ---------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeSwitch` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3634:1512 [INFO] [stdout] | [INFO] [stdout] 3634 | ..._case_types)] # [derive (Debug)] pub struct AudioEffectLowPassFilter { this : RawObject < Self > , } impl AudioEffectLowPassFilter { #... [INFO] [stdout] | ------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AudioEffectLowPassFilter` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3718:1454 [INFO] [stdout] | [INFO] [stdout] 3718 | ...el_case_types)] # [derive (Debug)] pub struct VisualScriptSceneTree { this : RawObject < Self > , } impl VisualScriptSceneTree { # [do... [INFO] [stdout] | --------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptSceneTree` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3730:1438 [INFO] [stdout] | [INFO] [stdout] 3730 | ...amel_case_types)] # [derive (Debug)] pub struct VisualScriptWhile { this : RawObject < Self > , } impl VisualScriptWhile { # [doc = "C... [INFO] [stdout] | ----------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptWhile` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3736:1434 [INFO] [stdout] | [INFO] [stdout] 3736 | ..._case_types)] # [derive (Debug)] pub struct AnimationTrackEditPlugin { this : RawObject < Self > , } impl AnimationTrackEditPlugin { }... [INFO] [stdout] | ------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `AnimationTrackEditPlugin` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:3766:1434 [INFO] [stdout] | [INFO] [stdout] 3766 | ...amel_case_types)] # [derive (Debug)] pub struct VisualScriptSelf { this : RawObject < Self > , } impl VisualScriptSelf { # [doc = "Cre... [INFO] [stdout] | ---------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptSelf` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:4:4465 [INFO] [stdout] | [INFO] [stdout] 4 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] = note: `#[warn(static_mut_refs)]` on by default [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 4 | # [doc = "`core class VSlider` inherits `Slider` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_vslider.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`VSlider` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nVSlider inherits methods from:\n - [Slider](struct.Slider.html)\n - [Range](struct.Range.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VSlider { this : RawObject < Self > , } impl VSlider { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VSliderMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VSlider { } unsafe impl GodotObject for VSlider { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "VSlider" } } impl QueueFree for VSlider { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for VSlider { type Target = crate :: generated :: slider :: Slider ; # [inline] fn deref (& self) -> & crate :: generated :: slider :: Slider { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VSlider { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: slider :: Slider { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: slider :: Slider > for VSlider { } unsafe impl SubClass < crate :: generated :: range :: Range > for VSlider { } unsafe impl SubClass < crate :: generated :: control :: Control > for VSlider { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for VSlider { } unsafe impl SubClass < crate :: generated :: node :: Node > for VSlider { } unsafe impl SubClass < crate :: generated :: object :: Object > for VSlider { } impl Instanciable for VSlider { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VSlider :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VSliderMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VSliderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VSliderMethodTable = VSliderMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VSliderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VSlider\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:10:3287 [INFO] [stdout] | [INFO] [stdout] 10 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 10 | # [doc = "`core class AudioBusLayout` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audiobuslayout.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioBusLayout inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioBusLayout { this : RawObject < Self > , } impl AudioBusLayout { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioBusLayoutMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioBusLayout { } unsafe impl GodotObject for AudioBusLayout { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioBusLayout" } } impl std :: ops :: Deref for AudioBusLayout { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioBusLayout { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioBusLayout { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioBusLayout { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioBusLayout { } impl Instanciable for AudioBusLayout { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioBusLayout :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioBusLayoutMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AudioBusLayoutMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioBusLayoutMethodTable = AudioBusLayoutMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioBusLayoutMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioBusLayout\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:16:4807 [INFO] [stdout] | [INFO] [stdout] 16 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 16 | # [doc = "`tools class EditorInspectorPlugin` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorinspectorplugin.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nEditorInspectorPlugin inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorInspectorPlugin { this : RawObject < Self > , } impl EditorInspectorPlugin { # [doc = "Adds a custom control, not necessarily a property editor."] # [doc = ""] # [inline] pub fn add_custom_control (& self , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInspectorPluginMethodTable :: get (get_api ()) . add_custom_control ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , control . as_arg_ptr ()) ; } } # [doc = "Adds a property editor, this must inherit [EditorProperty]."] # [doc = ""] # [inline] pub fn add_property_editor (& self , property : impl Into < GodotString > , editor : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInspectorPluginMethodTable :: get (get_api ()) . add_property_editor ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , property . into () , editor . as_arg_ptr ()) ; } } # [doc = "Adds an editor that allows modifying multiple properties, this must inherit [EditorProperty]."] # [doc = ""] # [inline] pub fn add_property_editor_for_multiple_properties (& self , label : impl Into < GodotString > , properties : StringArray , editor : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInspectorPluginMethodTable :: get (get_api ()) . add_property_editor_for_multiple_properties ; let ret = crate :: icalls :: icallptr_void_str_strarr_obj (method_bind , self . this . sys () . as_ptr () , label . into () , properties , editor . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorInspectorPlugin { } unsafe impl GodotObject for EditorInspectorPlugin { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "EditorInspectorPlugin" } } impl std :: ops :: Deref for EditorInspectorPlugin { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorInspectorPlugin { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for EditorInspectorPlugin { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorInspectorPlugin { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorInspectorPluginMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_custom_control : * mut sys :: godot_method_bind , pub add_property_editor : * mut sys :: godot_method_bind , pub add_property_editor_for_multiple_properties : * mut sys :: godot_method_bind } impl EditorInspectorPluginMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorInspectorPluginMethodTable = EditorInspectorPluginMethodTable { class_constructor : None , add_custom_control : 0 as * mut sys :: godot_method_bind , add_property_editor : 0 as * mut sys :: godot_method_bind , add_property_editor_for_multiple_properties : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorInspectorPluginMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorInspectorPlugin\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_custom_control = (gd_api . godot_method_bind_get_method) (class_name , "add_custom_control\0" . as_ptr () as * const c_char) ; table . add_property_editor = (gd_api . godot_method_bind_get_method) (class_name , "add_property_editor\0" . as_ptr () as * const c_char) ; table . add_property_editor_for_multiple_properties = (gd_api . godot_method_bind_get_method) (class_name , "add_property_editor_for_multiple_properties\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:22:5159 [INFO] [stdout] | [INFO] [stdout] 22 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 22 | # [doc = "`core class PCKPacker` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_pckpacker.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPCKPacker inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PCKPacker { this : RawObject < Self > , } impl PCKPacker { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PCKPackerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds the `source_path` file to the current PCK package at the `pck_path` internal path (should start with `res://`)."] # [doc = ""] # [inline] pub fn add_file (& self , pck_path : impl Into < GodotString > , source_path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PCKPackerMethodTable :: get (get_api ()) . add_file ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , pck_path . into () , source_path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Writes the files specified using all [method add_file] calls since the last flush. If `verbose` is `true`, a list of files added will be printed to the console for easier debugging.\n# Default Arguments\n* `verbose` - `false`"] # [doc = ""] # [inline] pub fn flush (& self , verbose : bool) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PCKPackerMethodTable :: get (get_api ()) . flush ; let ret = crate :: icalls :: icallptr_i64_bool (method_bind , self . this . sys () . as_ptr () , verbose) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Creates a new PCK file with the name `pck_name`. The `.pck` file extension isn't added automatically, so it should be part of `pck_name` (even though it's not required).\n# Default Arguments\n* `alignment` - `0`"] # [doc = ""] # [inline] pub fn pck_start (& self , pck_name : impl Into < GodotString > , alignment : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PCKPackerMethodTable :: get (get_api ()) . pck_start ; let ret = crate :: icalls :: icallptr_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , pck_name . into () , alignment) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for PCKPacker { } unsafe impl GodotObject for PCKPacker { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PCKPacker" } } impl std :: ops :: Deref for PCKPacker { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PCKPacker { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PCKPacker { } unsafe impl SubClass < crate :: generated :: object :: Object > for PCKPacker { } impl Instanciable for PCKPacker { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PCKPacker :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PCKPackerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_file : * mut sys :: godot_method_bind , pub flush : * mut sys :: godot_method_bind , pub pck_start : * mut sys :: godot_method_bind } impl PCKPackerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PCKPackerMethodTable = PCKPackerMethodTable { class_constructor : None , add_file : 0 as * mut sys :: godot_method_bind , flush : 0 as * mut sys :: godot_method_bind , pck_start : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PCKPackerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PCKPacker\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_file = (gd_api . godot_method_bind_get_method) (class_name , "add_file\0" . as_ptr () as * const c_char) ; table . flush = (gd_api . godot_method_bind_get_method) (class_name , "flush\0" . as_ptr () as * const c_char) ; table . pck_start = (gd_api . godot_method_bind_get_method) (class_name , "pck_start\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:28:13304 [INFO] [stdout] | [INFO] [stdout] 28 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 28 | # [doc = "`core class VisualShader` inherits `Shader` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshader.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShader inherits methods from:\n - [Shader](struct.Shader.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShader { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Type (pub i64) ; impl Type { pub const VERTEX : Type = Type (0i64) ; pub const FRAGMENT : Type = Type (1i64) ; pub const LIGHT : Type = Type (2i64) ; pub const MAX : Type = Type (3i64) ; } impl From < i64 > for Type { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Type > for i64 { # [inline] fn from (v : Type) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShader { pub const NODE_ID_INVALID : i64 = - 1i64 ; pub const NODE_ID_OUTPUT : i64 = 0i64 ; pub const TYPE_FRAGMENT : i64 = 1i64 ; pub const TYPE_LIGHT : i64 = 2i64 ; pub const TYPE_MAX : i64 = 3i64 ; pub const TYPE_VERTEX : i64 = 0i64 ; } impl VisualShader { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds the specified node to the shader."] # [doc = ""] # [inline] pub fn add_node (& self , _type : i64 , node : impl AsArg < crate :: generated :: visual_shader_node :: VisualShaderNode > , position : Vector2 , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . add_node ; let ret = crate :: icalls :: icallptr_void_i64_obj_vec2_i64 (method_bind , self . this . sys () . as_ptr () , _type , node . as_arg_ptr () , position , id) ; } } # [doc = "Returns `true` if the specified nodes and ports can be connected together."] # [doc = ""] # [inline] pub fn can_connect_nodes (& self , _type : i64 , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . can_connect_nodes ; let ret = crate :: icalls :: icallptr_bool_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , from_node , from_port , to_node , to_port) ; ret as _ } } # [doc = "Connects the specified nodes and ports."] # [doc = ""] # [inline] pub fn connect_nodes (& self , _type : i64 , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . connect_nodes ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , from_node , from_port , to_node , to_port) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Connects the specified nodes and ports, even if they can't be connected. Such connection is invalid and will not function properly."] # [doc = ""] # [inline] pub fn connect_nodes_forced (& self , _type : i64 , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . connect_nodes_forced ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , from_node , from_port , to_node , to_port) ; } } # [doc = "Connects the specified nodes and ports."] # [doc = ""] # [inline] pub fn disconnect_nodes (& self , _type : i64 , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . disconnect_nodes ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , from_node , from_port , to_node , to_port) ; } } # [doc = "The offset vector of the whole graph."] # [doc = ""] # [inline] pub fn graph_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . get_graph_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the shader node instance with specified `type` and `id`."] # [doc = ""] # [inline] pub fn get_node (& self , _type : i64 , id : i64) -> Option < Ref < crate :: generated :: visual_shader_node :: VisualShaderNode , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . get_node ; let ret = crate :: icalls :: icallptr_obj_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: visual_shader_node :: VisualShaderNode , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the list of connected nodes with the specified type."] # [doc = ""] # [inline] pub fn get_node_connections (& self , _type : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . get_node_connections ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , _type) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the list of all nodes in the shader with the specified type."] # [doc = ""] # [inline] pub fn get_node_list (& self , _type : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . get_node_list ; let ret = crate :: icalls :: icallptr_i32arr_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the position of the specified node within the shader graph."] # [doc = ""] # [inline] pub fn get_node_position (& self , _type : i64 , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . get_node_position ; let ret = crate :: icalls :: icallptr_vec2_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , id) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_valid_node_id (& self , _type : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . get_valid_node_id ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; ret as _ } } # [doc = "Returns `true` if the specified node and port connection exist."] # [doc = ""] # [inline] pub fn is_node_connection (& self , _type : i64 , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . is_node_connection ; let ret = crate :: icalls :: icallptr_bool_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , from_node , from_port , to_node , to_port) ; ret as _ } } # [doc = "Removes the specified node from the shader."] # [doc = ""] # [inline] pub fn remove_node (& self , _type : i64 , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . remove_node ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , id) ; } } # [doc = "The offset vector of the whole graph."] # [doc = ""] # [inline] pub fn set_graph_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . set_graph_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Sets the mode of this shader."] # [doc = ""] # [inline] pub fn set_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . set_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Sets the position of the specified node."] # [doc = ""] # [inline] pub fn set_node_position (& self , _type : i64 , id : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderMethodTable :: get (get_api ()) . set_node_position ; let ret = crate :: icalls :: icallptr_void_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , _type , id , position) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShader { } unsafe impl GodotObject for VisualShader { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShader" } } impl std :: ops :: Deref for VisualShader { type Target = crate :: generated :: shader :: Shader ; # [inline] fn deref (& self) -> & crate :: generated :: shader :: Shader { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShader { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shader :: Shader { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shader :: Shader > for VisualShader { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShader { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShader { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShader { } impl Instanciable for VisualShader { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShader :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_node : * mut sys :: godot_method_bind , pub can_connect_nodes : * mut sys :: godot_method_bind , pub connect_nodes : * mut sys :: godot_method_bind , pub connect_nodes_forced : * mut sys :: godot_method_bind , pub disconnect_nodes : * mut sys :: godot_method_bind , pub get_graph_offset : * mut sys :: godot_method_bind , pub get_node : * mut sys :: godot_method_bind , pub get_node_connections : * mut sys :: godot_method_bind , pub get_node_list : * mut sys :: godot_method_bind , pub get_node_position : * mut sys :: godot_method_bind , pub get_valid_node_id : * mut sys :: godot_method_bind , pub is_node_connection : * mut sys :: godot_method_bind , pub remove_node : * mut sys :: godot_method_bind , pub set_graph_offset : * mut sys :: godot_method_bind , pub set_mode : * mut sys :: godot_method_bind , pub set_node_position : * mut sys :: godot_method_bind } impl VisualShaderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderMethodTable = VisualShaderMethodTable { class_constructor : None , add_node : 0 as * mut sys :: godot_method_bind , can_connect_nodes : 0 as * mut sys :: godot_method_bind , connect_nodes : 0 as * mut sys :: godot_method_bind , connect_nodes_forced : 0 as * mut sys :: godot_method_bind , disconnect_nodes : 0 as * mut sys :: godot_method_bind , get_graph_offset : 0 as * mut sys :: godot_method_bind , get_node : 0 as * mut sys :: godot_method_bind , get_node_connections : 0 as * mut sys :: godot_method_bind , get_node_list : 0 as * mut sys :: godot_method_bind , get_node_position : 0 as * mut sys :: godot_method_bind , get_valid_node_id : 0 as * mut sys :: godot_method_bind , is_node_connection : 0 as * mut sys :: godot_method_bind , remove_node : 0 as * mut sys :: godot_method_bind , set_graph_offset : 0 as * mut sys :: godot_method_bind , set_mode : 0 as * mut sys :: godot_method_bind , set_node_position : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShader\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_node = (gd_api . godot_method_bind_get_method) (class_name , "add_node\0" . as_ptr () as * const c_char) ; table . can_connect_nodes = (gd_api . godot_method_bind_get_method) (class_name , "can_connect_nodes\0" . as_ptr () as * const c_char) ; table . connect_nodes = (gd_api . godot_method_bind_get_method) (class_name , "connect_nodes\0" . as_ptr () as * const c_char) ; table . connect_nodes_forced = (gd_api . godot_method_bind_get_method) (class_name , "connect_nodes_forced\0" . as_ptr () as * const c_char) ; table . disconnect_nodes = (gd_api . godot_method_bind_get_method) (class_name , "disconnect_nodes\0" . as_ptr () as * const c_char) ; table . get_graph_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_graph_offset\0" . as_ptr () as * const c_char) ; table . get_node = (gd_api . godot_method_bind_get_method) (class_name , "get_node\0" . as_ptr () as * const c_char) ; table . get_node_connections = (gd_api . godot_method_bind_get_method) (class_name , "get_node_connections\0" . as_ptr () as * const c_char) ; table . get_node_list = (gd_api . godot_method_bind_get_method) (class_name , "get_node_list\0" . as_ptr () as * const c_char) ; table . get_node_position = (gd_api . godot_method_bind_get_method) (class_name , "get_node_position\0" . as_ptr () as * const c_char) ; table . get_valid_node_id = (gd_api . godot_method_bind_get_method) (class_name , "get_valid_node_id\0" . as_ptr () as * const c_char) ; table . is_node_connection = (gd_api . godot_method_bind_get_method) (class_name , "is_node_connection\0" . as_ptr () as * const c_char) ; table . remove_node = (gd_api . godot_method_bind_get_method) (class_name , "remove_node\0" . as_ptr () as * const c_char) ; table . set_graph_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_graph_offset\0" . as_ptr () as * const c_char) ; table . set_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_mode\0" . as_ptr () as * const c_char) ; table . set_node_position = (gd_api . godot_method_bind_get_method) (class_name , "set_node_position\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:34:7787 [INFO] [stdout] | [INFO] [stdout] 34 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 34 | # [doc = "`core class StreamPeerTCP` inherits `StreamPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_streampeertcp.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nStreamPeerTCP inherits methods from:\n - [StreamPeer](struct.StreamPeer.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct StreamPeerTCP { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Status (pub i64) ; impl Status { pub const NONE : Status = Status (0i64) ; pub const CONNECTING : Status = Status (1i64) ; pub const CONNECTED : Status = Status (2i64) ; pub const ERROR : Status = Status (3i64) ; } impl From < i64 > for Status { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Status > for i64 { # [inline] fn from (v : Status) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl StreamPeerTCP { pub const STATUS_CONNECTED : i64 = 2i64 ; pub const STATUS_CONNECTING : i64 = 1i64 ; pub const STATUS_ERROR : i64 = 3i64 ; pub const STATUS_NONE : i64 = 0i64 ; } impl StreamPeerTCP { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = StreamPeerTCPMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Connects to the specified `host:port` pair. A hostname will be resolved if valid. Returns [constant OK] on success or [constant FAILED] on failure."] # [doc = ""] # [inline] pub fn connect_to_host (& self , host : impl Into < GodotString > , port : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerTCPMethodTable :: get (get_api ()) . connect_to_host ; let ret = crate :: icalls :: icallptr_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , host . into () , port) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Disconnects from host."] # [doc = ""] # [inline] pub fn disconnect_from_host (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerTCPMethodTable :: get (get_api ()) . disconnect_from_host ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the IP of this peer."] # [doc = ""] # [inline] pub fn get_connected_host (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerTCPMethodTable :: get (get_api ()) . get_connected_host ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the port of this peer."] # [doc = ""] # [inline] pub fn get_connected_port (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerTCPMethodTable :: get (get_api ()) . get_connected_port ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the status of the connection, see [enum Status]."] # [doc = ""] # [inline] pub fn get_status (& self) -> crate :: generated :: stream_peer_tcp :: Status { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerTCPMethodTable :: get (get_api ()) . get_status ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: stream_peer_tcp :: Status (ret) } } # [doc = "Returns `true` if this peer is currently connected to a host, `false` otherwise."] # [doc = ""] # [inline] pub fn is_connected_to_host (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerTCPMethodTable :: get (get_api ()) . is_connected_to_host ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Disables Nagle's algorithm to improve latency for small packets.\n**Note:** For applications that send large packets or need to transfer a lot of data, this can decrease the total available bandwidth."] # [doc = ""] # [inline] pub fn set_no_delay (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerTCPMethodTable :: get (get_api ()) . set_no_delay ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for StreamPeerTCP { } unsafe impl GodotObject for StreamPeerTCP { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StreamPeerTCP" } } impl std :: ops :: Deref for StreamPeerTCP { type Target = crate :: generated :: stream_peer :: StreamPeer ; # [inline] fn deref (& self) -> & crate :: generated :: stream_peer :: StreamPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for StreamPeerTCP { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: stream_peer :: StreamPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: stream_peer :: StreamPeer > for StreamPeerTCP { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StreamPeerTCP { } unsafe impl SubClass < crate :: generated :: object :: Object > for StreamPeerTCP { } impl Instanciable for StreamPeerTCP { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StreamPeerTCP :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StreamPeerTCPMethodTable { pub class_constructor : sys :: godot_class_constructor , pub connect_to_host : * mut sys :: godot_method_bind , pub disconnect_from_host : * mut sys :: godot_method_bind , pub get_connected_host : * mut sys :: godot_method_bind , pub get_connected_port : * mut sys :: godot_method_bind , pub get_status : * mut sys :: godot_method_bind , pub is_connected_to_host : * mut sys :: godot_method_bind , pub set_no_delay : * mut sys :: godot_method_bind } impl StreamPeerTCPMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StreamPeerTCPMethodTable = StreamPeerTCPMethodTable { class_constructor : None , connect_to_host : 0 as * mut sys :: godot_method_bind , disconnect_from_host : 0 as * mut sys :: godot_method_bind , get_connected_host : 0 as * mut sys :: godot_method_bind , get_connected_port : 0 as * mut sys :: godot_method_bind , get_status : 0 as * mut sys :: godot_method_bind , is_connected_to_host : 0 as * mut sys :: godot_method_bind , set_no_delay : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { StreamPeerTCPMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StreamPeerTCP\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . connect_to_host = (gd_api . godot_method_bind_get_method) (class_name , "connect_to_host\0" . as_ptr () as * const c_char) ; table . disconnect_from_host = (gd_api . godot_method_bind_get_method) (class_name , "disconnect_from_host\0" . as_ptr () as * const c_char) ; table . get_connected_host = (gd_api . godot_method_bind_get_method) (class_name , "get_connected_host\0" . as_ptr () as * const c_char) ; table . get_connected_port = (gd_api . godot_method_bind_get_method) (class_name , "get_connected_port\0" . as_ptr () as * const c_char) ; table . get_status = (gd_api . godot_method_bind_get_method) (class_name , "get_status\0" . as_ptr () as * const c_char) ; table . is_connected_to_host = (gd_api . godot_method_bind_get_method) (class_name , "is_connected_to_host\0" . as_ptr () as * const c_char) ; table . set_no_delay = (gd_api . godot_method_bind_get_method) (class_name , "set_no_delay\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:40:5720 [INFO] [stdout] | [INFO] [stdout] 40 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 40 | # [doc = "`core class VisualShaderNodeVectorDerivativeFunc` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorderivativefunc.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorDerivativeFunc inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorDerivativeFunc { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Function (pub i64) ; impl Function { pub const SUM : Function = Function (0i64) ; pub const X : Function = Function (1i64) ; pub const Y : Function = Function (2i64) ; } impl From < i64 > for Function { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Function > for i64 { # [inline] fn from (v : Function) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShaderNodeVectorDerivativeFunc { pub const FUNC_SUM : i64 = 0i64 ; pub const FUNC_X : i64 = 1i64 ; pub const FUNC_Y : i64 = 2i64 ; } impl VisualShaderNodeVectorDerivativeFunc { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeVectorDerivativeFuncMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "A derivative type. See [enum Function] for options."] # [doc = ""] # [inline] pub fn function (& self) -> crate :: generated :: visual_shader_node_vector_derivative_func :: Function { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeVectorDerivativeFuncMethodTable :: get (get_api ()) . get_function ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_vector_derivative_func :: Function (ret) } } # [doc = "A derivative type. See [enum Function] for options."] # [doc = ""] # [inline] pub fn set_function (& self , func : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeVectorDerivativeFuncMethodTable :: get (get_api ()) . set_function ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , func) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVectorDerivativeFunc { } unsafe impl GodotObject for VisualShaderNodeVectorDerivativeFunc { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorDerivativeFunc" } } impl std :: ops :: Deref for VisualShaderNodeVectorDerivativeFunc { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeVectorDerivativeFunc { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeVectorDerivativeFunc { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorDerivativeFunc { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorDerivativeFunc { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorDerivativeFunc { } impl Instanciable for VisualShaderNodeVectorDerivativeFunc { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorDerivativeFunc :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorDerivativeFuncMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_function : * mut sys :: godot_method_bind , pub set_function : * mut sys :: godot_method_bind } impl VisualShaderNodeVectorDerivativeFuncMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorDerivativeFuncMethodTable = VisualShaderNodeVectorDerivativeFuncMethodTable { class_constructor : None , get_function : 0 as * mut sys :: godot_method_bind , set_function : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeVectorDerivativeFuncMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorDerivativeFunc\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_function = (gd_api . godot_method_bind_get_method) (class_name , "get_function\0" . as_ptr () as * const c_char) ; table . set_function = (gd_api . godot_method_bind_get_method) (class_name , "set_function\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:46:5174 [INFO] [stdout] | [INFO] [stdout] 46 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 46 | # [doc = "`core class YSort` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_ysort.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`YSort` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nYSort inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct YSort { this : RawObject < Self > , } impl YSort { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = YSortMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "If `true`, child nodes are sorted, otherwise sorting is disabled."] # [doc = ""] # [inline] pub fn is_sort_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = YSortMethodTable :: get (get_api ()) . is_sort_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, child nodes are sorted, otherwise sorting is disabled."] # [doc = ""] # [inline] pub fn set_sort_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = YSortMethodTable :: get (get_api ()) . set_sort_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for YSort { } unsafe impl GodotObject for YSort { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "YSort" } } impl QueueFree for YSort { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for YSort { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for YSort { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for YSort { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for YSort { } unsafe impl SubClass < crate :: generated :: node :: Node > for YSort { } unsafe impl SubClass < crate :: generated :: object :: Object > for YSort { } impl Instanciable for YSort { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { YSort :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct YSortMethodTable { pub class_constructor : sys :: godot_class_constructor , pub is_sort_enabled : * mut sys :: godot_method_bind , pub set_sort_enabled : * mut sys :: godot_method_bind } impl YSortMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : YSortMethodTable = YSortMethodTable { class_constructor : None , is_sort_enabled : 0 as * mut sys :: godot_method_bind , set_sort_enabled : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { YSortMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "YSort\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . is_sort_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_sort_enabled\0" . as_ptr () as * const c_char) ; table . set_sort_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_sort_enabled\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:52:29548 [INFO] [stdout] | [INFO] [stdout] 52 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 52 | # [doc = "`core class BakedLightmap` inherits `VisualInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_bakedlightmap.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`BakedLightmap` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nBakedLightmap inherits methods from:\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct BakedLightmap { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BakeError (pub i64) ; impl BakeError { pub const OK : BakeError = BakeError (0i64) ; pub const NO_SAVE_PATH : BakeError = BakeError (1i64) ; pub const NO_MESHES : BakeError = BakeError (2i64) ; pub const CANT_CREATE_IMAGE : BakeError = BakeError (3i64) ; pub const LIGHTMAP_SIZE : BakeError = BakeError (4i64) ; pub const INVALID_MESH : BakeError = BakeError (5i64) ; pub const USER_ABORTED : BakeError = BakeError (6i64) ; pub const NO_LIGHTMAPPER : BakeError = BakeError (7i64) ; } impl From < i64 > for BakeError { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BakeError > for i64 { # [inline] fn from (v : BakeError) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BakeQuality (pub i64) ; impl BakeQuality { pub const LOW : BakeQuality = BakeQuality (0i64) ; pub const MEDIUM : BakeQuality = BakeQuality (1i64) ; pub const HIGH : BakeQuality = BakeQuality (2i64) ; pub const ULTRA : BakeQuality = BakeQuality (3i64) ; } impl From < i64 > for BakeQuality { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BakeQuality > for i64 { # [inline] fn from (v : BakeQuality) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentMode (pub i64) ; impl EnvironmentMode { pub const DISABLED : EnvironmentMode = EnvironmentMode (0i64) ; pub const SCENE : EnvironmentMode = EnvironmentMode (1i64) ; pub const CUSTOM_SKY : EnvironmentMode = EnvironmentMode (2i64) ; pub const CUSTOM_COLOR : EnvironmentMode = EnvironmentMode (3i64) ; } impl From < i64 > for EnvironmentMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentMode > for i64 { # [inline] fn from (v : EnvironmentMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl BakedLightmap { pub const BAKE_ERROR_CANT_CREATE_IMAGE : i64 = 3i64 ; pub const BAKE_ERROR_INVALID_MESH : i64 = 5i64 ; pub const BAKE_ERROR_LIGHTMAP_SIZE : i64 = 4i64 ; pub const BAKE_ERROR_NO_LIGHTMAPPER : i64 = 7i64 ; pub const BAKE_ERROR_NO_MESHES : i64 = 2i64 ; pub const BAKE_ERROR_NO_SAVE_PATH : i64 = 1i64 ; pub const BAKE_ERROR_OK : i64 = 0i64 ; pub const BAKE_ERROR_USER_ABORTED : i64 = 6i64 ; pub const BAKE_QUALITY_HIGH : i64 = 2i64 ; pub const BAKE_QUALITY_LOW : i64 = 0i64 ; pub const BAKE_QUALITY_MEDIUM : i64 = 1i64 ; pub const BAKE_QUALITY_ULTRA : i64 = 3i64 ; pub const ENVIRONMENT_MODE_CUSTOM_COLOR : i64 = 3i64 ; pub const ENVIRONMENT_MODE_CUSTOM_SKY : i64 = 2i64 ; pub const ENVIRONMENT_MODE_DISABLED : i64 = 0i64 ; pub const ENVIRONMENT_MODE_SCENE : i64 = 1i64 ; } impl BakedLightmap { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = BakedLightmapMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Bakes the lightmaps within the currently edited scene. Returns a [enum BakeError] to signify if the bake was successful, or if unsuccessful, how the bake failed.\n# Default Arguments\n* `from_node` - `null`\n* `create_visual_debug` - `false`"] # [doc = ""] # [inline] pub fn bake (& self , from_node : impl AsArg < crate :: generated :: node :: Node > , data_save_path : impl Into < GodotString >) -> crate :: generated :: baked_lightmap :: BakeError { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . bake ; let ret = crate :: icalls :: icallptr_i64_obj_str (method_bind , self . this . sys () . as_ptr () , from_node . as_arg_ptr () , data_save_path . into ()) ; crate :: generated :: baked_lightmap :: BakeError (ret) } } # [doc = "Three quality modes are available. Higher quality requires more rendering time. See [enum BakeQuality]."] # [doc = ""] # [inline] pub fn bake_quality (& self) -> crate :: generated :: baked_lightmap :: BakeQuality { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_bake_quality ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: baked_lightmap :: BakeQuality (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn bounces (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_bounces ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Grid size used for real-time capture information on dynamic objects. Cannot be larger than [member bake_cell_size]."] # [doc = ""] # [inline] pub fn capture_cell_size (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_capture_cell_size ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn capture_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_capture_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn capture_propagation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_capture_propagation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn capture_quality (& self) -> crate :: generated :: baked_lightmap :: BakeQuality { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_capture_quality ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: baked_lightmap :: BakeQuality (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn default_texels_per_unit (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_default_texels_per_unit ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn environment_custom_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_environment_custom_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn environment_custom_energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_environment_custom_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn environment_custom_sky (& self) -> Option < Ref < crate :: generated :: sky :: Sky , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_environment_custom_sky ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: sky :: Sky , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn environment_custom_sky_rotation_degrees (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_environment_custom_sky_rotation_degrees ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn environment_min_light (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_environment_min_light ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn environment_mode (& self) -> crate :: generated :: baked_lightmap :: EnvironmentMode { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_environment_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: baked_lightmap :: EnvironmentMode (ret) } } # [doc = "The size of the affected area."] # [doc = ""] # [inline] pub fn extents (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_extents ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The location where lightmaps will be saved."] # [doc = ""] # [inline] pub fn image_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_image_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The calculated light data."] # [doc = ""] # [inline] pub fn light_data (& self) -> Option < Ref < crate :: generated :: baked_lightmap_data :: BakedLightmapData , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_light_data ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: baked_lightmap_data :: BakedLightmapData , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn max_atlas_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . get_max_atlas_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_generate_atlas_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . is_generate_atlas_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_using_color (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . is_using_color ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_using_denoiser (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . is_using_denoiser ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_using_hdr (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . is_using_hdr ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Three quality modes are available. Higher quality requires more rendering time. See [enum BakeQuality]."] # [doc = ""] # [inline] pub fn set_bake_quality (& self , quality : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_bake_quality ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , quality) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_bias (& self , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bias) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_bounces (& self , bounces : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_bounces ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , bounces) ; } } # [doc = "Grid size used for real-time capture information on dynamic objects. Cannot be larger than [member bake_cell_size]."] # [doc = ""] # [inline] pub fn set_capture_cell_size (& self , capture_cell_size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_capture_cell_size ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , capture_cell_size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_capture_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_capture_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_capture_propagation (& self , propagation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_capture_propagation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , propagation) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_capture_quality (& self , capture_quality : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_capture_quality ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , capture_quality) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_default_texels_per_unit (& self , texels : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_default_texels_per_unit ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , texels) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_environment_custom_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_environment_custom_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_environment_custom_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_environment_custom_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_environment_custom_sky (& self , sky : impl AsArg < crate :: generated :: sky :: Sky >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_environment_custom_sky ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , sky . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_environment_custom_sky_rotation_degrees (& self , rotation : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_environment_custom_sky_rotation_degrees ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , rotation) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_environment_min_light (& self , min_light : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_environment_min_light ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , min_light) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_environment_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_environment_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The size of the affected area."] # [doc = ""] # [inline] pub fn set_extents (& self , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_extents ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , extents) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_generate_atlas (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_generate_atlas ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The location where lightmaps will be saved."] # [doc = ""] # [inline] pub fn set_image_path (& self , image_path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_image_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , image_path . into ()) ; } } # [doc = "The calculated light data."] # [doc = ""] # [inline] pub fn set_light_data (& self , data : impl AsArg < crate :: generated :: baked_lightmap_data :: BakedLightmapData >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_light_data ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , data . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_max_atlas_size (& self , max_atlas_size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_max_atlas_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , max_atlas_size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_use_color (& self , use_denoiser : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_use_color ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , use_denoiser) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_use_denoiser (& self , use_denoiser : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_use_denoiser ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , use_denoiser) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_use_hdr (& self , use_denoiser : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapMethodTable :: get (get_api ()) . set_use_hdr ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , use_denoiser) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for BakedLightmap { } unsafe impl GodotObject for BakedLightmap { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "BakedLightmap" } } impl QueueFree for BakedLightmap { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for BakedLightmap { type Target = crate :: generated :: visual_instance :: VisualInstance ; # [inline] fn deref (& self) -> & crate :: generated :: visual_instance :: VisualInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for BakedLightmap { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_instance :: VisualInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for BakedLightmap { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for BakedLightmap { } unsafe impl SubClass < crate :: generated :: node :: Node > for BakedLightmap { } unsafe impl SubClass < crate :: generated :: object :: Object > for BakedLightmap { } impl Instanciable for BakedLightmap { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { BakedLightmap :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct BakedLightmapMethodTable { pub class_constructor : sys :: godot_class_constructor , pub bake : * mut sys :: godot_method_bind , pub get_bake_quality : * mut sys :: godot_method_bind , pub get_bias : * mut sys :: godot_method_bind , pub get_bounces : * mut sys :: godot_method_bind , pub get_capture_cell_size : * mut sys :: godot_method_bind , pub get_capture_enabled : * mut sys :: godot_method_bind , pub get_capture_propagation : * mut sys :: godot_method_bind , pub get_capture_quality : * mut sys :: godot_method_bind , pub get_default_texels_per_unit : * mut sys :: godot_method_bind , pub get_environment_custom_color : * mut sys :: godot_method_bind , pub get_environment_custom_energy : * mut sys :: godot_method_bind , pub get_environment_custom_sky : * mut sys :: godot_method_bind , pub get_environment_custom_sky_rotation_degrees : * mut sys :: godot_method_bind , pub get_environment_min_light : * mut sys :: godot_method_bind , pub get_environment_mode : * mut sys :: godot_method_bind , pub get_extents : * mut sys :: godot_method_bind , pub get_image_path : * mut sys :: godot_method_bind , pub get_light_data : * mut sys :: godot_method_bind , pub get_max_atlas_size : * mut sys :: godot_method_bind , pub is_generate_atlas_enabled : * mut sys :: godot_method_bind , pub is_using_color : * mut sys :: godot_method_bind , pub is_using_denoiser : * mut sys :: godot_method_bind , pub is_using_hdr : * mut sys :: godot_method_bind , pub set_bake_quality : * mut sys :: godot_method_bind , pub set_bias : * mut sys :: godot_method_bind , pub set_bounces : * mut sys :: godot_method_bind , pub set_capture_cell_size : * mut sys :: godot_method_bind , pub set_capture_enabled : * mut sys :: godot_method_bind , pub set_capture_propagation : * mut sys :: godot_method_bind , pub set_capture_quality : * mut sys :: godot_method_bind , pub set_default_texels_per_unit : * mut sys :: godot_method_bind , pub set_environment_custom_color : * mut sys :: godot_method_bind , pub set_environment_custom_energy : * mut sys :: godot_method_bind , pub set_environment_custom_sky : * mut sys :: godot_method_bind , pub set_environment_custom_sky_rotation_degrees : * mut sys :: godot_method_bind , pub set_environment_min_light : * mut sys :: godot_method_bind , pub set_environment_mode : * mut sys :: godot_method_bind , pub set_extents : * mut sys :: godot_method_bind , pub set_generate_atlas : * mut sys :: godot_method_bind , pub set_image_path : * mut sys :: godot_method_bind , pub set_light_data : * mut sys :: godot_method_bind , pub set_max_atlas_size : * mut sys :: godot_method_bind , pub set_use_color : * mut sys :: godot_method_bind , pub set_use_denoiser : * mut sys :: godot_method_bind , pub set_use_hdr : * mut sys :: godot_method_bind } impl BakedLightmapMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : BakedLightmapMethodTable = BakedLightmapMethodTable { class_constructor : None , bake : 0 as * mut sys :: godot_method_bind , get_bake_quality : 0 as * mut sys :: godot_method_bind , get_bias : 0 as * mut sys :: godot_method_bind , get_bounces : 0 as * mut sys :: godot_method_bind , get_capture_cell_size : 0 as * mut sys :: godot_method_bind , get_capture_enabled : 0 as * mut sys :: godot_method_bind , get_capture_propagation : 0 as * mut sys :: godot_method_bind , get_capture_quality : 0 as * mut sys :: godot_method_bind , get_default_texels_per_unit : 0 as * mut sys :: godot_method_bind , get_environment_custom_color : 0 as * mut sys :: godot_method_bind , get_environment_custom_energy : 0 as * mut sys :: godot_method_bind , get_environment_custom_sky : 0 as * mut sys :: godot_method_bind , get_environment_custom_sky_rotation_degrees : 0 as * mut sys :: godot_method_bind , get_environment_min_light : 0 as * mut sys :: godot_method_bind , get_environment_mode : 0 as * mut sys :: godot_method_bind , get_extents : 0 as * mut sys :: godot_method_bind , get_image_path : 0 as * mut sys :: godot_method_bind , get_light_data : 0 as * mut sys :: godot_method_bind , get_max_atlas_size : 0 as * mut sys :: godot_method_bind , is_generate_atlas_enabled : 0 as * mut sys :: godot_method_bind , is_using_color : 0 as * mut sys :: godot_method_bind , is_using_denoiser : 0 as * mut sys :: godot_method_bind , is_using_hdr : 0 as * mut sys :: godot_method_bind , set_bake_quality : 0 as * mut sys :: godot_method_bind , set_bias : 0 as * mut sys :: godot_method_bind , set_bounces : 0 as * mut sys :: godot_method_bind , set_capture_cell_size : 0 as * mut sys :: godot_method_bind , set_capture_enabled : 0 as * mut sys :: godot_method_bind , set_capture_propagation : 0 as * mut sys :: godot_method_bind , set_capture_quality : 0 as * mut sys :: godot_method_bind , set_default_texels_per_unit : 0 as * mut sys :: godot_method_bind , set_environment_custom_color : 0 as * mut sys :: godot_method_bind , set_environment_custom_energy : 0 as * mut sys :: godot_method_bind , set_environment_custom_sky : 0 as * mut sys :: godot_method_bind , set_environment_custom_sky_rotation_degrees : 0 as * mut sys :: godot_method_bind , set_environment_min_light : 0 as * mut sys :: godot_method_bind , set_environment_mode : 0 as * mut sys :: godot_method_bind , set_extents : 0 as * mut sys :: godot_method_bind , set_generate_atlas : 0 as * mut sys :: godot_method_bind , set_image_path : 0 as * mut sys :: godot_method_bind , set_light_data : 0 as * mut sys :: godot_method_bind , set_max_atlas_size : 0 as * mut sys :: godot_method_bind , set_use_color : 0 as * mut sys :: godot_method_bind , set_use_denoiser : 0 as * mut sys :: godot_method_bind , set_use_hdr : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { BakedLightmapMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "BakedLightmap\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . bake = (gd_api . godot_method_bind_get_method) (class_name , "bake\0" . as_ptr () as * const c_char) ; table . get_bake_quality = (gd_api . godot_method_bind_get_method) (class_name , "get_bake_quality\0" . as_ptr () as * const c_char) ; table . get_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_bias\0" . as_ptr () as * const c_char) ; table . get_bounces = (gd_api . godot_method_bind_get_method) (class_name , "get_bounces\0" . as_ptr () as * const c_char) ; table . get_capture_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "get_capture_cell_size\0" . as_ptr () as * const c_char) ; table . get_capture_enabled = (gd_api . godot_method_bind_get_method) (class_name , "get_capture_enabled\0" . as_ptr () as * const c_char) ; table . get_capture_propagation = (gd_api . godot_method_bind_get_method) (class_name , "get_capture_propagation\0" . as_ptr () as * const c_char) ; table . get_capture_quality = (gd_api . godot_method_bind_get_method) (class_name , "get_capture_quality\0" . as_ptr () as * const c_char) ; table . get_default_texels_per_unit = (gd_api . godot_method_bind_get_method) (class_name , "get_default_texels_per_unit\0" . as_ptr () as * const c_char) ; table . get_environment_custom_color = (gd_api . godot_method_bind_get_method) (class_name , "get_environment_custom_color\0" . as_ptr () as * const c_char) ; table . get_environment_custom_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_environment_custom_energy\0" . as_ptr () as * const c_char) ; table . get_environment_custom_sky = (gd_api . godot_method_bind_get_method) (class_name , "get_environment_custom_sky\0" . as_ptr () as * const c_char) ; table . get_environment_custom_sky_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_environment_custom_sky_rotation_degrees\0" . as_ptr () as * const c_char) ; table . get_environment_min_light = (gd_api . godot_method_bind_get_method) (class_name , "get_environment_min_light\0" . as_ptr () as * const c_char) ; table . get_environment_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_environment_mode\0" . as_ptr () as * const c_char) ; table . get_extents = (gd_api . godot_method_bind_get_method) (class_name , "get_extents\0" . as_ptr () as * const c_char) ; table . get_image_path = (gd_api . godot_method_bind_get_method) (class_name , "get_image_path\0" . as_ptr () as * const c_char) ; table . get_light_data = (gd_api . godot_method_bind_get_method) (class_name , "get_light_data\0" . as_ptr () as * const c_char) ; table . get_max_atlas_size = (gd_api . godot_method_bind_get_method) (class_name , "get_max_atlas_size\0" . as_ptr () as * const c_char) ; table . is_generate_atlas_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_generate_atlas_enabled\0" . as_ptr () as * const c_char) ; table . is_using_color = (gd_api . godot_method_bind_get_method) (class_name , "is_using_color\0" . as_ptr () as * const c_char) ; table . is_using_denoiser = (gd_api . godot_method_bind_get_method) (class_name , "is_using_denoiser\0" . as_ptr () as * const c_char) ; table . is_using_hdr = (gd_api . godot_method_bind_get_method) (class_name , "is_using_hdr\0" . as_ptr () as * const c_char) ; table . set_bake_quality = (gd_api . godot_method_bind_get_method) (class_name , "set_bake_quality\0" . as_ptr () as * const c_char) ; table . set_bias = (gd_api . godot_method_bind_get_method) (class_name , "set_bias\0" . as_ptr () as * const c_char) ; table . set_bounces = (gd_api . godot_method_bind_get_method) (class_name , "set_bounces\0" . as_ptr () as * const c_char) ; table . set_capture_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "set_capture_cell_size\0" . as_ptr () as * const c_char) ; table . set_capture_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_capture_enabled\0" . as_ptr () as * const c_char) ; table . set_capture_propagation = (gd_api . godot_method_bind_get_method) (class_name , "set_capture_propagation\0" . as_ptr () as * const c_char) ; table . set_capture_quality = (gd_api . godot_method_bind_get_method) (class_name , "set_capture_quality\0" . as_ptr () as * const c_char) ; table . set_default_texels_per_unit = (gd_api . godot_method_bind_get_method) (class_name , "set_default_texels_per_unit\0" . as_ptr () as * const c_char) ; table . set_environment_custom_color = (gd_api . godot_method_bind_get_method) (class_name , "set_environment_custom_color\0" . as_ptr () as * const c_char) ; table . set_environment_custom_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_environment_custom_energy\0" . as_ptr () as * const c_char) ; table . set_environment_custom_sky = (gd_api . godot_method_bind_get_method) (class_name , "set_environment_custom_sky\0" . as_ptr () as * const c_char) ; table . set_environment_custom_sky_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_environment_custom_sky_rotation_degrees\0" . as_ptr () as * const c_char) ; table . set_environment_min_light = (gd_api . godot_method_bind_get_method) (class_name , "set_environment_min_light\0" . as_ptr () as * const c_char) ; table . set_environment_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_environment_mode\0" . as_ptr () as * const c_char) ; table . set_extents = (gd_api . godot_method_bind_get_method) (class_name , "set_extents\0" . as_ptr () as * const c_char) ; table . set_generate_atlas = (gd_api . godot_method_bind_get_method) (class_name , "set_generate_atlas\0" . as_ptr () as * const c_char) ; table . set_image_path = (gd_api . godot_method_bind_get_method) (class_name , "set_image_path\0" . as_ptr () as * const c_char) ; table . set_light_data = (gd_api . godot_method_bind_get_method) (class_name , "set_light_data\0" . as_ptr () as * const c_char) ; table . set_max_atlas_size = (gd_api . godot_method_bind_get_method) (class_name , "set_max_atlas_size\0" . as_ptr () as * const c_char) ; table . set_use_color = (gd_api . godot_method_bind_get_method) (class_name , "set_use_color\0" . as_ptr () as * const c_char) ; table . set_use_denoiser = (gd_api . godot_method_bind_get_method) (class_name , "set_use_denoiser\0" . as_ptr () as * const c_char) ; table . set_use_hdr = (gd_api . godot_method_bind_get_method) (class_name , "set_use_hdr\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:58:4781 [INFO] [stdout] | [INFO] [stdout] 58 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 58 | # [doc = "`core class VSplitContainer` inherits `SplitContainer` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_vsplitcontainer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`VSplitContainer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nVSplitContainer inherits methods from:\n - [SplitContainer](struct.SplitContainer.html)\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VSplitContainer { this : RawObject < Self > , } impl VSplitContainer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VSplitContainerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VSplitContainer { } unsafe impl GodotObject for VSplitContainer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "VSplitContainer" } } impl QueueFree for VSplitContainer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for VSplitContainer { type Target = crate :: generated :: split_container :: SplitContainer ; # [inline] fn deref (& self) -> & crate :: generated :: split_container :: SplitContainer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VSplitContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: split_container :: SplitContainer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: split_container :: SplitContainer > for VSplitContainer { } unsafe impl SubClass < crate :: generated :: container :: Container > for VSplitContainer { } unsafe impl SubClass < crate :: generated :: control :: Control > for VSplitContainer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for VSplitContainer { } unsafe impl SubClass < crate :: generated :: node :: Node > for VSplitContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for VSplitContainer { } impl Instanciable for VSplitContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VSplitContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VSplitContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VSplitContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VSplitContainerMethodTable = VSplitContainerMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VSplitContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VSplitContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:64:9215 [INFO] [stdout] | [INFO] [stdout] 64 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 64 | # [doc = "`core class JSONParseResult` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_jsonparseresult.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nJSONParseResult inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct JSONParseResult { this : RawObject < Self > , } impl JSONParseResult { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = JSONParseResultMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The error type if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn error (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_error ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "The line number where the error occurred if the JSON source was not successfully parsed."] # [doc = ""] # [inline] pub fn error_line (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_error_line ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The error message if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn error_string (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_error_string ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nA [Variant] containing the parsed JSON. Use [method @GDScript.typeof] or the `is` keyword to check if it is what you expect. For example, if the JSON source starts with curly braces (`{}`), a [Dictionary] will be returned. If the JSON source starts with brackets (`[]`), an [Array] will be returned.\n**Note:** The JSON specification does not define integer or float types, but only a [i]number[/i] type. Therefore, parsing a JSON text will convert all numerical values to [float] types.\n**Note:** JSON objects do not preserve key order like Godot dictionaries, thus, you should not rely on keys being in a certain order if a dictionary is constructed from JSON. In contrast, JSON arrays retain the order of their elements:\n```gdscript\nvar p = JSON.parse('[\"hello\", \"world\", \"!\"]')\nif typeof(p.result) == TYPE_ARRAY:\n print(p.result[0]) # Prints \"hello\"\nelse:\n push_error(\"Unexpected results.\")\n```"] # [doc = ""] # [inline] pub fn result (& self) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_result ; let ret = crate :: icalls :: icallptr_var (method_bind , self . this . sys () . as_ptr ()) ; Variant :: from_sys (ret) } } # [doc = "The error type if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn set_error (& self , error : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_error ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , error) ; } } # [doc = "The line number where the error occurred if the JSON source was not successfully parsed."] # [doc = ""] # [inline] pub fn set_error_line (& self , error_line : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_error_line ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , error_line) ; } } # [doc = "The error message if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn set_error_string (& self , error_string : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_error_string ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , error_string . into ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nA [Variant] containing the parsed JSON. Use [method @GDScript.typeof] or the `is` keyword to check if it is what you expect. For example, if the JSON source starts with curly braces (`{}`), a [Dictionary] will be returned. If the JSON source starts with brackets (`[]`), an [Array] will be returned.\n**Note:** The JSON specification does not define integer or float types, but only a [i]number[/i] type. Therefore, parsing a JSON text will convert all numerical values to [float] types.\n**Note:** JSON objects do not preserve key order like Godot dictionaries, thus, you should not rely on keys being in a certain order if a dictionary is constructed from JSON. In contrast, JSON arrays retain the order of their elements:\n```gdscript\nvar p = JSON.parse('[\"hello\", \"world\", \"!\"]')\nif typeof(p.result) == TYPE_ARRAY:\n print(p.result[0]) # Prints \"hello\"\nelse:\n push_error(\"Unexpected results.\")\n```"] # [doc = ""] # [inline] pub fn set_result (& self , result : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_result ; let ret = crate :: icalls :: icallptr_void_var (method_bind , self . this . sys () . as_ptr () , result . owned_to_variant ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for JSONParseResult { } unsafe impl GodotObject for JSONParseResult { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "JSONParseResult" } } impl std :: ops :: Deref for JSONParseResult { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for JSONParseResult { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for JSONParseResult { } unsafe impl SubClass < crate :: generated :: object :: Object > for JSONParseResult { } impl Instanciable for JSONParseResult { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { JSONParseResult :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JSONParseResultMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_error : * mut sys :: godot_method_bind , pub get_error_line : * mut sys :: godot_method_bind , pub get_error_string : * mut sys :: godot_method_bind , pub get_result : * mut sys :: godot_method_bind , pub set_error : * mut sys :: godot_method_bind , pub set_error_line : * mut sys :: godot_method_bind , pub set_error_string : * mut sys :: godot_method_bind , pub set_result : * mut sys :: godot_method_bind } impl JSONParseResultMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JSONParseResultMethodTable = JSONParseResultMethodTable { class_constructor : None , get_error : 0 as * mut sys :: godot_method_bind , get_error_line : 0 as * mut sys :: godot_method_bind , get_error_string : 0 as * mut sys :: godot_method_bind , get_result : 0 as * mut sys :: godot_method_bind , set_error : 0 as * mut sys :: godot_method_bind , set_error_line : 0 as * mut sys :: godot_method_bind , set_error_string : 0 as * mut sys :: godot_method_bind , set_result : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JSONParseResultMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "JSONParseResult\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_error = (gd_api . godot_method_bind_get_method) (class_name , "get_error\0" . as_ptr () as * const c_char) ; table . get_error_line = (gd_api . godot_method_bind_get_method) (class_name , "get_error_line\0" . as_ptr () as * const c_char) ; table . get_error_string = (gd_api . godot_method_bind_get_method) (class_name , "get_error_string\0" . as_ptr () as * const c_char) ; table . get_result = (gd_api . godot_method_bind_get_method) (class_name , "get_result\0" . as_ptr () as * const c_char) ; table . set_error = (gd_api . godot_method_bind_get_method) (class_name , "set_error\0" . as_ptr () as * const c_char) ; table . set_error_line = (gd_api . godot_method_bind_get_method) (class_name , "set_error_line\0" . as_ptr () as * const c_char) ; table . set_error_string = (gd_api . godot_method_bind_get_method) (class_name , "set_error_string\0" . as_ptr () as * const c_char) ; table . set_result = (gd_api . godot_method_bind_get_method) (class_name , "set_result\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:70:4452 [INFO] [stdout] | [INFO] [stdout] 70 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 70 | # [doc = "`core class AudioEffectPanner` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectpanner.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectPanner inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectPanner { this : RawObject < Self > , } impl AudioEffectPanner { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectPannerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Pan position. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn pan (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectPannerMethodTable :: get (get_api ()) . get_pan ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Pan position. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn set_pan (& self , cpanume : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectPannerMethodTable :: get (get_api ()) . set_pan ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , cpanume) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectPanner { } unsafe impl GodotObject for AudioEffectPanner { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectPanner" } } impl std :: ops :: Deref for AudioEffectPanner { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectPanner { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectPanner { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectPanner { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectPanner { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectPanner { } impl Instanciable for AudioEffectPanner { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectPanner :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectPannerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_pan : * mut sys :: godot_method_bind , pub set_pan : * mut sys :: godot_method_bind } impl AudioEffectPannerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectPannerMethodTable = AudioEffectPannerMethodTable { class_constructor : None , get_pan : 0 as * mut sys :: godot_method_bind , set_pan : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectPannerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectPanner\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_pan = (gd_api . godot_method_bind_get_method) (class_name , "get_pan\0" . as_ptr () as * const c_char) ; table . set_pan = (gd_api . godot_method_bind_get_method) (class_name , "set_pan\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:76:4604 [INFO] [stdout] | [INFO] [stdout] 76 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 76 | # [doc = "`core class VisualScriptVariableGet` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptvariableget.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptVariableGet inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptVariableGet { this : RawObject < Self > , } impl VisualScriptVariableGet { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptVariableGetMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn variable (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptVariableGetMethodTable :: get (get_api ()) . get_variable ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptVariableGetMethodTable :: get (get_api ()) . set_variable ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptVariableGet { } unsafe impl GodotObject for VisualScriptVariableGet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptVariableGet" } } impl std :: ops :: Deref for VisualScriptVariableGet { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptVariableGet { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptVariableGet { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptVariableGet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptVariableGet { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptVariableGet { } impl Instanciable for VisualScriptVariableGet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptVariableGet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptVariableGetMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_variable : * mut sys :: godot_method_bind , pub set_variable : * mut sys :: godot_method_bind } impl VisualScriptVariableGetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptVariableGetMethodTable = VisualScriptVariableGetMethodTable { class_constructor : None , get_variable : 0 as * mut sys :: godot_method_bind , set_variable : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptVariableGetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptVariableGet\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_variable = (gd_api . godot_method_bind_get_method) (class_name , "get_variable\0" . as_ptr () as * const c_char) ; table . set_variable = (gd_api . godot_method_bind_get_method) (class_name , "set_variable\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:82:4643 [INFO] [stdout] | [INFO] [stdout] 82 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 82 | # [doc = "`core class VisualScriptDeconstruct` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptdeconstruct.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptDeconstruct inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptDeconstruct { this : RawObject < Self > , } impl VisualScriptDeconstruct { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptDeconstructMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn deconstruct_type (& self) -> VariantType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptDeconstructMethodTable :: get (get_api ()) . get_deconstruct_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; VariantType :: from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_deconstruct_type (& self , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptDeconstructMethodTable :: get (get_api ()) . set_deconstruct_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptDeconstruct { } unsafe impl GodotObject for VisualScriptDeconstruct { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptDeconstruct" } } impl std :: ops :: Deref for VisualScriptDeconstruct { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptDeconstruct { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptDeconstruct { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptDeconstruct { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptDeconstruct { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptDeconstruct { } impl Instanciable for VisualScriptDeconstruct { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptDeconstruct :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptDeconstructMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_deconstruct_type : * mut sys :: godot_method_bind , pub set_deconstruct_type : * mut sys :: godot_method_bind } impl VisualScriptDeconstructMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptDeconstructMethodTable = VisualScriptDeconstructMethodTable { class_constructor : None , get_deconstruct_type : 0 as * mut sys :: godot_method_bind , set_deconstruct_type : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptDeconstructMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptDeconstruct\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_deconstruct_type = (gd_api . godot_method_bind_get_method) (class_name , "get_deconstruct_type\0" . as_ptr () as * const c_char) ; table . set_deconstruct_type = (gd_api . godot_method_bind_get_method) (class_name , "set_deconstruct_type\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:88:20087 [INFO] [stdout] | [INFO] [stdout] 88 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 88 | # [doc = "`core class ProceduralSky` inherits `Sky` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_proceduralsky.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nProceduralSky inherits methods from:\n - [Sky](struct.Sky.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ProceduralSky { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TextureSize (pub i64) ; impl TextureSize { pub const _256 : TextureSize = TextureSize (0i64) ; pub const _512 : TextureSize = TextureSize (1i64) ; pub const _1024 : TextureSize = TextureSize (2i64) ; pub const _2048 : TextureSize = TextureSize (3i64) ; pub const _4096 : TextureSize = TextureSize (4i64) ; pub const MAX : TextureSize = TextureSize (5i64) ; } impl From < i64 > for TextureSize { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TextureSize > for i64 { # [inline] fn from (v : TextureSize) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ProceduralSky { pub const TEXTURE_SIZE_1024 : i64 = 2i64 ; pub const TEXTURE_SIZE_2048 : i64 = 3i64 ; pub const TEXTURE_SIZE_256 : i64 = 0i64 ; pub const TEXTURE_SIZE_4096 : i64 = 4i64 ; pub const TEXTURE_SIZE_512 : i64 = 1i64 ; pub const TEXTURE_SIZE_MAX : i64 = 5i64 ; } impl ProceduralSky { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ProceduralSkyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Color of the ground at the bottom."] # [doc = ""] # [inline] pub fn ground_bottom_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_ground_bottom_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "How quickly the [member ground_horizon_color] fades into the [member ground_bottom_color]."] # [doc = ""] # [inline] pub fn ground_curve (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_ground_curve ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of energy contribution from the ground."] # [doc = ""] # [inline] pub fn ground_energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_ground_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Color of the ground at the horizon."] # [doc = ""] # [inline] pub fn ground_horizon_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_ground_horizon_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "How quickly the [member sky_horizon_color] fades into the [member sky_top_color]."] # [doc = ""] # [inline] pub fn sky_curve (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sky_curve ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of energy contribution from the sky."] # [doc = ""] # [inline] pub fn sky_energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sky_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Color of the sky at the horizon."] # [doc = ""] # [inline] pub fn sky_horizon_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sky_horizon_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Color of the sky at the top."] # [doc = ""] # [inline] pub fn sky_top_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sky_top_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Distance from center of sun where it fades out completely."] # [doc = ""] # [inline] pub fn sun_angle_max (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sun_angle_max ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Distance from sun where it goes from solid to starting to fade."] # [doc = ""] # [inline] pub fn sun_angle_min (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sun_angle_min ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The sun's color."] # [doc = ""] # [inline] pub fn sun_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sun_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "How quickly the sun fades away between [member sun_angle_min] and [member sun_angle_max]."] # [doc = ""] # [inline] pub fn sun_curve (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sun_curve ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of energy contribution from the sun."] # [doc = ""] # [inline] pub fn sun_energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sun_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The sun's height using polar coordinates."] # [doc = ""] # [inline] pub fn sun_latitude (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sun_latitude ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The direction of the sun using polar coordinates."] # [doc = ""] # [inline] pub fn sun_longitude (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_sun_longitude ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Size of [Texture] that the ProceduralSky will generate. The size is set using [enum TextureSize]."] # [doc = ""] # [inline] pub fn texture_size (& self) -> crate :: generated :: procedural_sky :: TextureSize { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . get_texture_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: procedural_sky :: TextureSize (ret) } } # [doc = "Color of the ground at the bottom."] # [doc = ""] # [inline] pub fn set_ground_bottom_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_ground_bottom_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "How quickly the [member ground_horizon_color] fades into the [member ground_bottom_color]."] # [doc = ""] # [inline] pub fn set_ground_curve (& self , curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_ground_curve ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , curve) ; } } # [doc = "Amount of energy contribution from the ground."] # [doc = ""] # [inline] pub fn set_ground_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_ground_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = "Color of the ground at the horizon."] # [doc = ""] # [inline] pub fn set_ground_horizon_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_ground_horizon_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "How quickly the [member sky_horizon_color] fades into the [member sky_top_color]."] # [doc = ""] # [inline] pub fn set_sky_curve (& self , curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sky_curve ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , curve) ; } } # [doc = "Amount of energy contribution from the sky."] # [doc = ""] # [inline] pub fn set_sky_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sky_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = "Color of the sky at the horizon."] # [doc = ""] # [inline] pub fn set_sky_horizon_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sky_horizon_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Color of the sky at the top."] # [doc = ""] # [inline] pub fn set_sky_top_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sky_top_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Distance from center of sun where it fades out completely."] # [doc = ""] # [inline] pub fn set_sun_angle_max (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sun_angle_max ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "Distance from sun where it goes from solid to starting to fade."] # [doc = ""] # [inline] pub fn set_sun_angle_min (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sun_angle_min ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "The sun's color."] # [doc = ""] # [inline] pub fn set_sun_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sun_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "How quickly the sun fades away between [member sun_angle_min] and [member sun_angle_max]."] # [doc = ""] # [inline] pub fn set_sun_curve (& self , curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sun_curve ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , curve) ; } } # [doc = "Amount of energy contribution from the sun."] # [doc = ""] # [inline] pub fn set_sun_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sun_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = "The sun's height using polar coordinates."] # [doc = ""] # [inline] pub fn set_sun_latitude (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sun_latitude ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "The direction of the sun using polar coordinates."] # [doc = ""] # [inline] pub fn set_sun_longitude (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_sun_longitude ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "Size of [Texture] that the ProceduralSky will generate. The size is set using [enum TextureSize]."] # [doc = ""] # [inline] pub fn set_texture_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProceduralSkyMethodTable :: get (get_api ()) . set_texture_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ProceduralSky { } unsafe impl GodotObject for ProceduralSky { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ProceduralSky" } } impl std :: ops :: Deref for ProceduralSky { type Target = crate :: generated :: sky :: Sky ; # [inline] fn deref (& self) -> & crate :: generated :: sky :: Sky { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ProceduralSky { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: sky :: Sky { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: sky :: Sky > for ProceduralSky { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ProceduralSky { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ProceduralSky { } unsafe impl SubClass < crate :: generated :: object :: Object > for ProceduralSky { } impl Instanciable for ProceduralSky { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ProceduralSky :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ProceduralSkyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_ground_bottom_color : * mut sys :: godot_method_bind , pub get_ground_curve : * mut sys :: godot_method_bind , pub get_ground_energy : * mut sys :: godot_method_bind , pub get_ground_horizon_color : * mut sys :: godot_method_bind , pub get_sky_curve : * mut sys :: godot_method_bind , pub get_sky_energy : * mut sys :: godot_method_bind , pub get_sky_horizon_color : * mut sys :: godot_method_bind , pub get_sky_top_color : * mut sys :: godot_method_bind , pub get_sun_angle_max : * mut sys :: godot_method_bind , pub get_sun_angle_min : * mut sys :: godot_method_bind , pub get_sun_color : * mut sys :: godot_method_bind , pub get_sun_curve : * mut sys :: godot_method_bind , pub get_sun_energy : * mut sys :: godot_method_bind , pub get_sun_latitude : * mut sys :: godot_method_bind , pub get_sun_longitude : * mut sys :: godot_method_bind , pub get_texture_size : * mut sys :: godot_method_bind , pub set_ground_bottom_color : * mut sys :: godot_method_bind , pub set_ground_curve : * mut sys :: godot_method_bind , pub set_ground_energy : * mut sys :: godot_method_bind , pub set_ground_horizon_color : * mut sys :: godot_method_bind , pub set_sky_curve : * mut sys :: godot_method_bind , pub set_sky_energy : * mut sys :: godot_method_bind , pub set_sky_horizon_color : * mut sys :: godot_method_bind , pub set_sky_top_color : * mut sys :: godot_method_bind , pub set_sun_angle_max : * mut sys :: godot_method_bind , pub set_sun_angle_min : * mut sys :: godot_method_bind , pub set_sun_color : * mut sys :: godot_method_bind , pub set_sun_curve : * mut sys :: godot_method_bind , pub set_sun_energy : * mut sys :: godot_method_bind , pub set_sun_latitude : * mut sys :: godot_method_bind , pub set_sun_longitude : * mut sys :: godot_method_bind , pub set_texture_size : * mut sys :: godot_method_bind } impl ProceduralSkyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ProceduralSkyMethodTable = ProceduralSkyMethodTable { class_constructor : None , get_ground_bottom_color : 0 as * mut sys :: godot_method_bind , get_ground_curve : 0 as * mut sys :: godot_method_bind , get_ground_energy : 0 as * mut sys :: godot_method_bind , get_ground_horizon_color : 0 as * mut sys :: godot_method_bind , get_sky_curve : 0 as * mut sys :: godot_method_bind , get_sky_energy : 0 as * mut sys :: godot_method_bind , get_sky_horizon_color : 0 as * mut sys :: godot_method_bind , get_sky_top_color : 0 as * mut sys :: godot_method_bind , get_sun_angle_max : 0 as * mut sys :: godot_method_bind , get_sun_angle_min : 0 as * mut sys :: godot_method_bind , get_sun_color : 0 as * mut sys :: godot_method_bind , get_sun_curve : 0 as * mut sys :: godot_method_bind , get_sun_energy : 0 as * mut sys :: godot_method_bind , get_sun_latitude : 0 as * mut sys :: godot_method_bind , get_sun_longitude : 0 as * mut sys :: godot_method_bind , get_texture_size : 0 as * mut sys :: godot_method_bind , set_ground_bottom_color : 0 as * mut sys :: godot_method_bind , set_ground_curve : 0 as * mut sys :: godot_method_bind , set_ground_energy : 0 as * mut sys :: godot_method_bind , set_ground_horizon_color : 0 as * mut sys :: godot_method_bind , set_sky_curve : 0 as * mut sys :: godot_method_bind , set_sky_energy : 0 as * mut sys :: godot_method_bind , set_sky_horizon_color : 0 as * mut sys :: godot_method_bind , set_sky_top_color : 0 as * mut sys :: godot_method_bind , set_sun_angle_max : 0 as * mut sys :: godot_method_bind , set_sun_angle_min : 0 as * mut sys :: godot_method_bind , set_sun_color : 0 as * mut sys :: godot_method_bind , set_sun_curve : 0 as * mut sys :: godot_method_bind , set_sun_energy : 0 as * mut sys :: godot_method_bind , set_sun_latitude : 0 as * mut sys :: godot_method_bind , set_sun_longitude : 0 as * mut sys :: godot_method_bind , set_texture_size : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ProceduralSkyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ProceduralSky\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_ground_bottom_color = (gd_api . godot_method_bind_get_method) (class_name , "get_ground_bottom_color\0" . as_ptr () as * const c_char) ; table . get_ground_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_ground_curve\0" . as_ptr () as * const c_char) ; table . get_ground_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_ground_energy\0" . as_ptr () as * const c_char) ; table . get_ground_horizon_color = (gd_api . godot_method_bind_get_method) (class_name , "get_ground_horizon_color\0" . as_ptr () as * const c_char) ; table . get_sky_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_curve\0" . as_ptr () as * const c_char) ; table . get_sky_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_energy\0" . as_ptr () as * const c_char) ; table . get_sky_horizon_color = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_horizon_color\0" . as_ptr () as * const c_char) ; table . get_sky_top_color = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_top_color\0" . as_ptr () as * const c_char) ; table . get_sun_angle_max = (gd_api . godot_method_bind_get_method) (class_name , "get_sun_angle_max\0" . as_ptr () as * const c_char) ; table . get_sun_angle_min = (gd_api . godot_method_bind_get_method) (class_name , "get_sun_angle_min\0" . as_ptr () as * const c_char) ; table . get_sun_color = (gd_api . godot_method_bind_get_method) (class_name , "get_sun_color\0" . as_ptr () as * const c_char) ; table . get_sun_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_sun_curve\0" . as_ptr () as * const c_char) ; table . get_sun_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_sun_energy\0" . as_ptr () as * const c_char) ; table . get_sun_latitude = (gd_api . godot_method_bind_get_method) (class_name , "get_sun_latitude\0" . as_ptr () as * const c_char) ; table . get_sun_longitude = (gd_api . godot_method_bind_get_method) (class_name , "get_sun_longitude\0" . as_ptr () as * const c_char) ; table . get_texture_size = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_size\0" . as_ptr () as * const c_char) ; table . set_ground_bottom_color = (gd_api . godot_method_bind_get_method) (class_name , "set_ground_bottom_color\0" . as_ptr () as * const c_char) ; table . set_ground_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_ground_curve\0" . as_ptr () as * const c_char) ; table . set_ground_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_ground_energy\0" . as_ptr () as * const c_char) ; table . set_ground_horizon_color = (gd_api . godot_method_bind_get_method) (class_name , "set_ground_horizon_color\0" . as_ptr () as * const c_char) ; table . set_sky_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_curve\0" . as_ptr () as * const c_char) ; table . set_sky_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_energy\0" . as_ptr () as * const c_char) ; table . set_sky_horizon_color = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_horizon_color\0" . as_ptr () as * const c_char) ; table . set_sky_top_color = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_top_color\0" . as_ptr () as * const c_char) ; table . set_sun_angle_max = (gd_api . godot_method_bind_get_method) (class_name , "set_sun_angle_max\0" . as_ptr () as * const c_char) ; table . set_sun_angle_min = (gd_api . godot_method_bind_get_method) (class_name , "set_sun_angle_min\0" . as_ptr () as * const c_char) ; table . set_sun_color = (gd_api . godot_method_bind_get_method) (class_name , "set_sun_color\0" . as_ptr () as * const c_char) ; table . set_sun_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_sun_curve\0" . as_ptr () as * const c_char) ; table . set_sun_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_sun_energy\0" . as_ptr () as * const c_char) ; table . set_sun_latitude = (gd_api . godot_method_bind_get_method) (class_name , "set_sun_latitude\0" . as_ptr () as * const c_char) ; table . set_sun_longitude = (gd_api . godot_method_bind_get_method) (class_name , "set_sun_longitude\0" . as_ptr () as * const c_char) ; table . set_texture_size = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_size\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:94:36435 [INFO] [stdout] | [INFO] [stdout] 94 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 94 | # [doc = "`core class RigidBody2D` inherits `PhysicsBody2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_rigidbody2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RigidBody2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRigidBody2D inherits methods from:\n - [PhysicsBody2D](struct.PhysicsBody2D.html)\n - [CollisionObject2D](struct.CollisionObject2D.html)\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RigidBody2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CcdMode (pub i64) ; impl CcdMode { pub const DISABLED : CcdMode = CcdMode (0i64) ; pub const CAST_RAY : CcdMode = CcdMode (1i64) ; pub const CAST_SHAPE : CcdMode = CcdMode (2i64) ; } impl From < i64 > for CcdMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CcdMode > for i64 { # [inline] fn from (v : CcdMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Mode (pub i64) ; impl Mode { pub const RIGID : Mode = Mode (0i64) ; pub const STATIC : Mode = Mode (1i64) ; pub const CHARACTER : Mode = Mode (2i64) ; pub const KINEMATIC : Mode = Mode (3i64) ; } impl From < i64 > for Mode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Mode > for i64 { # [inline] fn from (v : Mode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl RigidBody2D { pub const CCD_MODE_CAST_RAY : i64 = 1i64 ; pub const CCD_MODE_CAST_SHAPE : i64 = 2i64 ; pub const CCD_MODE_DISABLED : i64 = 0i64 ; pub const MODE_CHARACTER : i64 = 2i64 ; pub const MODE_KINEMATIC : i64 = 3i64 ; pub const MODE_RIGID : i64 = 0i64 ; pub const MODE_STATIC : i64 = 1i64 ; } impl RigidBody2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RigidBody2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a constant directional force without affecting rotation."] # [doc = ""] # [inline] pub fn add_central_force (& self , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . add_central_force ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , force) ; } } # [doc = "Adds a positioned force to the body. Both the force and the offset from the body origin are in global coordinates."] # [doc = ""] # [inline] pub fn add_force (& self , offset : Vector2 , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . add_force ; let ret = crate :: icalls :: icallptr_void_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , offset , force) ; } } # [doc = "Adds a constant rotational force."] # [doc = ""] # [inline] pub fn add_torque (& self , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . add_torque ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Applies a directional impulse without affecting rotation."] # [doc = ""] # [inline] pub fn apply_central_impulse (& self , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . apply_central_impulse ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , impulse) ; } } # [doc = "Applies a positioned impulse to the body. An impulse is time-independent! Applying an impulse every frame would result in a framerate-dependent force. For this reason it should only be used when simulating one-time impacts (use the \"_force\" functions otherwise). The position uses the rotation of the global coordinate system, but is centered at the object's origin."] # [doc = ""] # [inline] pub fn apply_impulse (& self , offset : Vector2 , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . apply_impulse ; let ret = crate :: icalls :: icallptr_void_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , offset , impulse) ; } } # [doc = "Applies a rotational impulse to the body."] # [doc = ""] # [inline] pub fn apply_torque_impulse (& self , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . apply_torque_impulse ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Damps the body's [member angular_velocity]. If `-1`, the body will use the **Default Angular Damp** defined in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn angular_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_angular_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn angular_velocity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_angular_velocity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's total applied force."] # [doc = ""] # [inline] pub fn applied_force (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_applied_force ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's total applied torque."] # [doc = ""] # [inline] pub fn applied_torque (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_applied_torque ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn bounce (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_bounce ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a list of the bodies colliding with this one. Requires [member contact_monitor] to be set to `true` and [member contacts_reported] to be set high enough to detect all the collisions.\n**Note:** The result of this test is not immediate after moving objects. For performance, list of collisions is updated once per frame and before the physics step. Consider using signals instead."] # [doc = ""] # [inline] pub fn get_colliding_bodies (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_colliding_bodies ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Continuous collision detection mode.\nContinuous collision detection tries to predict where a moving body will collide instead of moving it and correcting its movement after collision. Continuous collision detection is slower, but more precise and misses fewer collisions with small, fast-moving objects. Raycasting and shapecasting methods are available. See [enum CCDMode] for details."] # [doc = ""] # [inline] pub fn continuous_collision_detection_mode (& self) -> crate :: generated :: rigid_body_2d :: CcdMode { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_continuous_collision_detection_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: rigid_body_2d :: CcdMode (ret) } } # [doc = "The body's friction. Values range from `0` (frictionless) to `1` (maximum friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn friction (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_friction ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Multiplies the gravity applied to the body. The body's gravity is calculated from the **Default Gravity** value in **Project > Project Settings > Physics > 2d** and/or any additional gravity vector applied by [Area2D]s."] # [doc = ""] # [inline] pub fn gravity_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_gravity_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's moment of inertia. This is like mass, but for rotation: it determines how much torque it takes to rotate the body. The moment of inertia is usually computed automatically from the mass and the shapes, but this function allows you to set a custom value. Set 0 inertia to return to automatically computing it."] # [doc = ""] # [inline] pub fn inertia (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_inertia ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Damps the body's [member linear_velocity]. If `-1`, the body will use the **Default Linear Damp** in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn linear_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_linear_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn linear_velocity (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_linear_velocity ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's mass."] # [doc = ""] # [inline] pub fn mass (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_mass ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum number of contacts that will be recorded. Requires [member contact_monitor] to be set to `true`.\n**Note:** The number of contacts is different from the number of collisions. Collisions between parallel edges will result in two contacts (one at each end), and collisions between parallel faces will result in four contacts (one at each corner)."] # [doc = ""] # [inline] pub fn max_contacts_reported (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_max_contacts_reported ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's mode. See [enum Mode] for possible values."] # [doc = ""] # [inline] pub fn mode (& self) -> crate :: generated :: rigid_body_2d :: Mode { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: rigid_body_2d :: Mode (ret) } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn physics_material_override (& self) -> Option < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_physics_material_override ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The body's weight based on its mass and the **Default Gravity** value in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn weight (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_weight ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the body can enter sleep mode when there is no movement. See [member sleeping].\n**Note:** A RigidBody2D will never enter sleep mode automatically if its [member mode] is [constant MODE_CHARACTER]. It can still be put to sleep manually by setting its [member sleeping] property to `true`."] # [doc = ""] # [inline] pub fn is_able_to_sleep (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_able_to_sleep ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the body will emit signals when it collides with another RigidBody2D. See also [member contacts_reported]."] # [doc = ""] # [inline] pub fn is_contact_monitor_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_contact_monitor_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the body will not move and will not calculate forces until woken up by another body through, for example, a collision, or by using the [method apply_impulse] or [method add_force] methods."] # [doc = ""] # [inline] pub fn is_sleeping (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_sleeping ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, internal force integration is disabled for this body. Aside from collision response, the body will only move as determined by the [method _integrate_forces] function."] # [doc = ""] # [inline] pub fn is_using_custom_integrator (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_using_custom_integrator ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Damps the body's [member angular_velocity]. If `-1`, the body will use the **Default Angular Damp** defined in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn set_angular_damp (& self , angular_damp : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_angular_damp ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angular_damp) ; } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn set_angular_velocity (& self , angular_velocity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_angular_velocity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angular_velocity) ; } } # [doc = "The body's total applied force."] # [doc = ""] # [inline] pub fn set_applied_force (& self , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_applied_force ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , force) ; } } # [doc = "The body's total applied torque."] # [doc = ""] # [inline] pub fn set_applied_torque (& self , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_applied_torque ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Sets the body's velocity on the given axis. The velocity in the given vector axis will be set as the given vector length. This is useful for jumping behavior."] # [doc = ""] # [inline] pub fn set_axis_velocity (& self , axis_velocity : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_axis_velocity ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , axis_velocity) ; } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_bounce (& self , bounce : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_bounce ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bounce) ; } } # [doc = "If `true`, the body can enter sleep mode when there is no movement. See [member sleeping].\n**Note:** A RigidBody2D will never enter sleep mode automatically if its [member mode] is [constant MODE_CHARACTER]. It can still be put to sleep manually by setting its [member sleeping] property to `true`."] # [doc = ""] # [inline] pub fn set_can_sleep (& self , able_to_sleep : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_can_sleep ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , able_to_sleep) ; } } # [doc = "If `true`, the body will emit signals when it collides with another RigidBody2D. See also [member contacts_reported]."] # [doc = ""] # [inline] pub fn set_contact_monitor (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_contact_monitor ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Continuous collision detection mode.\nContinuous collision detection tries to predict where a moving body will collide instead of moving it and correcting its movement after collision. Continuous collision detection is slower, but more precise and misses fewer collisions with small, fast-moving objects. Raycasting and shapecasting methods are available. See [enum CCDMode] for details."] # [doc = ""] # [inline] pub fn set_continuous_collision_detection_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_continuous_collision_detection_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The body's friction. Values range from `0` (frictionless) to `1` (maximum friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_friction (& self , friction : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_friction ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , friction) ; } } # [doc = "Multiplies the gravity applied to the body. The body's gravity is calculated from the **Default Gravity** value in **Project > Project Settings > Physics > 2d** and/or any additional gravity vector applied by [Area2D]s."] # [doc = ""] # [inline] pub fn set_gravity_scale (& self , gravity_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_gravity_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , gravity_scale) ; } } # [doc = "The body's moment of inertia. This is like mass, but for rotation: it determines how much torque it takes to rotate the body. The moment of inertia is usually computed automatically from the mass and the shapes, but this function allows you to set a custom value. Set 0 inertia to return to automatically computing it."] # [doc = ""] # [inline] pub fn set_inertia (& self , inertia : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_inertia ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , inertia) ; } } # [doc = "Damps the body's [member linear_velocity]. If `-1`, the body will use the **Default Linear Damp** in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn set_linear_damp (& self , linear_damp : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_linear_damp ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , linear_damp) ; } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn set_linear_velocity (& self , linear_velocity : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_linear_velocity ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , linear_velocity) ; } } # [doc = "The body's mass."] # [doc = ""] # [inline] pub fn set_mass (& self , mass : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_mass ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mass) ; } } # [doc = "The maximum number of contacts that will be recorded. Requires [member contact_monitor] to be set to `true`.\n**Note:** The number of contacts is different from the number of collisions. Collisions between parallel edges will result in two contacts (one at each end), and collisions between parallel faces will result in four contacts (one at each corner)."] # [doc = ""] # [inline] pub fn set_max_contacts_reported (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_max_contacts_reported ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The body's mode. See [enum Mode] for possible values."] # [doc = ""] # [inline] pub fn set_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn set_physics_material_override (& self , physics_material_override : impl AsArg < crate :: generated :: physics_material :: PhysicsMaterial >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_physics_material_override ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , physics_material_override . as_arg_ptr ()) ; } } # [doc = "If `true`, the body will not move and will not calculate forces until woken up by another body through, for example, a collision, or by using the [method apply_impulse] or [method add_force] methods."] # [doc = ""] # [inline] pub fn set_sleeping (& self , sleeping : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_sleeping ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , sleeping) ; } } # [doc = "If `true`, internal force integration is disabled for this body. Aside from collision response, the body will only move as determined by the [method _integrate_forces] function."] # [doc = ""] # [inline] pub fn set_use_custom_integrator (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_use_custom_integrator ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The body's weight based on its mass and the **Default Gravity** value in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn set_weight (& self , weight : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_weight ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , weight) ; } } # [doc = "Returns `true` if a collision would result from moving in the given vector. `margin` increases the size of the shapes involved in the collision detection, and `result` is an object of type [Physics2DTestMotionResult], which contains additional information about the collision (should there be one).\n# Default Arguments\n* `infinite_inertia` - `true`\n* `margin` - `0.08`\n* `result` - `null`"] # [doc = ""] # [inline] pub fn test_motion (& self , motion : Vector2 , infinite_inertia : bool , margin : f64 , result : impl AsArg < crate :: generated :: physics_2d_test_motion_result :: Physics2DTestMotionResult >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . test_motion ; let ret = crate :: icalls :: icallptr_bool_vec2_bool_f64_obj (method_bind , self . this . sys () . as_ptr () , motion , infinite_inertia , margin , result . as_arg_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for RigidBody2D { } unsafe impl GodotObject for RigidBody2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RigidBody2D" } } impl QueueFree for RigidBody2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RigidBody2D { type Target = crate :: generated :: physics_body_2d :: PhysicsBody2D ; # [inline] fn deref (& self) -> & crate :: generated :: physics_body_2d :: PhysicsBody2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RigidBody2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: physics_body_2d :: PhysicsBody2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: physics_body_2d :: PhysicsBody2D > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: collision_object_2d :: CollisionObject2D > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for RigidBody2D { } impl Instanciable for RigidBody2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RigidBody2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RigidBody2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_central_force : * mut sys :: godot_method_bind , pub add_force : * mut sys :: godot_method_bind , pub add_torque : * mut sys :: godot_method_bind , pub apply_central_impulse : * mut sys :: godot_method_bind , pub apply_impulse : * mut sys :: godot_method_bind , pub apply_torque_impulse : * mut sys :: godot_method_bind , pub get_angular_damp : * mut sys :: godot_method_bind , pub get_angular_velocity : * mut sys :: godot_method_bind , pub get_applied_force : * mut sys :: godot_method_bind , pub get_applied_torque : * mut sys :: godot_method_bind , pub get_bounce : * mut sys :: godot_method_bind , pub get_colliding_bodies : * mut sys :: godot_method_bind , pub get_continuous_collision_detection_mode : * mut sys :: godot_method_bind , pub get_friction : * mut sys :: godot_method_bind , pub get_gravity_scale : * mut sys :: godot_method_bind , pub get_inertia : * mut sys :: godot_method_bind , pub get_linear_damp : * mut sys :: godot_method_bind , pub get_linear_velocity : * mut sys :: godot_method_bind , pub get_mass : * mut sys :: godot_method_bind , pub get_max_contacts_reported : * mut sys :: godot_method_bind , pub get_mode : * mut sys :: godot_method_bind , pub get_physics_material_override : * mut sys :: godot_method_bind , pub get_weight : * mut sys :: godot_method_bind , pub is_able_to_sleep : * mut sys :: godot_method_bind , pub is_contact_monitor_enabled : * mut sys :: godot_method_bind , pub is_sleeping : * mut sys :: godot_method_bind , pub is_using_custom_integrator : * mut sys :: godot_method_bind , pub set_angular_damp : * mut sys :: godot_method_bind , pub set_angular_velocity : * mut sys :: godot_method_bind , pub set_applied_force : * mut sys :: godot_method_bind , pub set_applied_torque : * mut sys :: godot_method_bind , pub set_axis_velocity : * mut sys :: godot_method_bind , pub set_bounce : * mut sys :: godot_method_bind , pub set_can_sleep : * mut sys :: godot_method_bind , pub set_contact_monitor : * mut sys :: godot_method_bind , pub set_continuous_collision_detection_mode : * mut sys :: godot_method_bind , pub set_friction : * mut sys :: godot_method_bind , pub set_gravity_scale : * mut sys :: godot_method_bind , pub set_inertia : * mut sys :: godot_method_bind , pub set_linear_damp : * mut sys :: godot_method_bind , pub set_linear_velocity : * mut sys :: godot_method_bind , pub set_mass : * mut sys :: godot_method_bind , pub set_max_contacts_reported : * mut sys :: godot_method_bind , pub set_mode : * mut sys :: godot_method_bind , pub set_physics_material_override : * mut sys :: godot_method_bind , pub set_sleeping : * mut sys :: godot_method_bind , pub set_use_custom_integrator : * mut sys :: godot_method_bind , pub set_weight : * mut sys :: godot_method_bind , pub test_motion : * mut sys :: godot_method_bind } impl RigidBody2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RigidBody2DMethodTable = RigidBody2DMethodTable { class_constructor : None , add_central_force : 0 as * mut sys :: godot_method_bind , add_force : 0 as * mut sys :: godot_method_bind , add_torque : 0 as * mut sys :: godot_method_bind , apply_central_impulse : 0 as * mut sys :: godot_method_bind , apply_impulse : 0 as * mut sys :: godot_method_bind , apply_torque_impulse : 0 as * mut sys :: godot_method_bind , get_angular_damp : 0 as * mut sys :: godot_method_bind , get_angular_velocity : 0 as * mut sys :: godot_method_bind , get_applied_force : 0 as * mut sys :: godot_method_bind , get_applied_torque : 0 as * mut sys :: godot_method_bind , get_bounce : 0 as * mut sys :: godot_method_bind , get_colliding_bodies : 0 as * mut sys :: godot_method_bind , get_continuous_collision_detection_mode : 0 as * mut sys :: godot_method_bind , get_friction : 0 as * mut sys :: godot_method_bind , get_gravity_scale : 0 as * mut sys :: godot_method_bind , get_inertia : 0 as * mut sys :: godot_method_bind , get_linear_damp : 0 as * mut sys :: godot_method_bind , get_linear_velocity : 0 as * mut sys :: godot_method_bind , get_mass : 0 as * mut sys :: godot_method_bind , get_max_contacts_reported : 0 as * mut sys :: godot_method_bind , get_mode : 0 as * mut sys :: godot_method_bind , get_physics_material_override : 0 as * mut sys :: godot_method_bind , get_weight : 0 as * mut sys :: godot_method_bind , is_able_to_sleep : 0 as * mut sys :: godot_method_bind , is_contact_monitor_enabled : 0 as * mut sys :: godot_method_bind , is_sleeping : 0 as * mut sys :: godot_method_bind , is_using_custom_integrator : 0 as * mut sys :: godot_method_bind , set_angular_damp : 0 as * mut sys :: godot_method_bind , set_angular_velocity : 0 as * mut sys :: godot_method_bind , set_applied_force : 0 as * mut sys :: godot_method_bind , set_applied_torque : 0 as * mut sys :: godot_method_bind , set_axis_velocity : 0 as * mut sys :: godot_method_bind , set_bounce : 0 as * mut sys :: godot_method_bind , set_can_sleep : 0 as * mut sys :: godot_method_bind , set_contact_monitor : 0 as * mut sys :: godot_method_bind , set_continuous_collision_detection_mode : 0 as * mut sys :: godot_method_bind , set_friction : 0 as * mut sys :: godot_method_bind , set_gravity_scale : 0 as * mut sys :: godot_method_bind , set_inertia : 0 as * mut sys :: godot_method_bind , set_linear_damp : 0 as * mut sys :: godot_method_bind , set_linear_velocity : 0 as * mut sys :: godot_method_bind , set_mass : 0 as * mut sys :: godot_method_bind , set_max_contacts_reported : 0 as * mut sys :: godot_method_bind , set_mode : 0 as * mut sys :: godot_method_bind , set_physics_material_override : 0 as * mut sys :: godot_method_bind , set_sleeping : 0 as * mut sys :: godot_method_bind , set_use_custom_integrator : 0 as * mut sys :: godot_method_bind , set_weight : 0 as * mut sys :: godot_method_bind , test_motion : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RigidBody2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RigidBody2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_central_force = (gd_api . godot_method_bind_get_method) (class_name , "add_central_force\0" . as_ptr () as * const c_char) ; table . add_force = (gd_api . godot_method_bind_get_method) (class_name , "add_force\0" . as_ptr () as * const c_char) ; table . add_torque = (gd_api . godot_method_bind_get_method) (class_name , "add_torque\0" . as_ptr () as * const c_char) ; table . apply_central_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_central_impulse\0" . as_ptr () as * const c_char) ; table . apply_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_impulse\0" . as_ptr () as * const c_char) ; table . apply_torque_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_torque_impulse\0" . as_ptr () as * const c_char) ; table . get_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_angular_damp\0" . as_ptr () as * const c_char) ; table . get_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_angular_velocity\0" . as_ptr () as * const c_char) ; table . get_applied_force = (gd_api . godot_method_bind_get_method) (class_name , "get_applied_force\0" . as_ptr () as * const c_char) ; table . get_applied_torque = (gd_api . godot_method_bind_get_method) (class_name , "get_applied_torque\0" . as_ptr () as * const c_char) ; table . get_bounce = (gd_api . godot_method_bind_get_method) (class_name , "get_bounce\0" . as_ptr () as * const c_char) ; table . get_colliding_bodies = (gd_api . godot_method_bind_get_method) (class_name , "get_colliding_bodies\0" . as_ptr () as * const c_char) ; table . get_continuous_collision_detection_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_continuous_collision_detection_mode\0" . as_ptr () as * const c_char) ; table . get_friction = (gd_api . godot_method_bind_get_method) (class_name , "get_friction\0" . as_ptr () as * const c_char) ; table . get_gravity_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity_scale\0" . as_ptr () as * const c_char) ; table . get_inertia = (gd_api . godot_method_bind_get_method) (class_name , "get_inertia\0" . as_ptr () as * const c_char) ; table . get_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_linear_damp\0" . as_ptr () as * const c_char) ; table . get_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_linear_velocity\0" . as_ptr () as * const c_char) ; table . get_mass = (gd_api . godot_method_bind_get_method) (class_name , "get_mass\0" . as_ptr () as * const c_char) ; table . get_max_contacts_reported = (gd_api . godot_method_bind_get_method) (class_name , "get_max_contacts_reported\0" . as_ptr () as * const c_char) ; table . get_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_mode\0" . as_ptr () as * const c_char) ; table . get_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "get_physics_material_override\0" . as_ptr () as * const c_char) ; table . get_weight = (gd_api . godot_method_bind_get_method) (class_name , "get_weight\0" . as_ptr () as * const c_char) ; table . is_able_to_sleep = (gd_api . godot_method_bind_get_method) (class_name , "is_able_to_sleep\0" . as_ptr () as * const c_char) ; table . is_contact_monitor_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_contact_monitor_enabled\0" . as_ptr () as * const c_char) ; table . is_sleeping = (gd_api . godot_method_bind_get_method) (class_name , "is_sleeping\0" . as_ptr () as * const c_char) ; table . is_using_custom_integrator = (gd_api . godot_method_bind_get_method) (class_name , "is_using_custom_integrator\0" . as_ptr () as * const c_char) ; table . set_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "set_angular_damp\0" . as_ptr () as * const c_char) ; table . set_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_angular_velocity\0" . as_ptr () as * const c_char) ; table . set_applied_force = (gd_api . godot_method_bind_get_method) (class_name , "set_applied_force\0" . as_ptr () as * const c_char) ; table . set_applied_torque = (gd_api . godot_method_bind_get_method) (class_name , "set_applied_torque\0" . as_ptr () as * const c_char) ; table . set_axis_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_axis_velocity\0" . as_ptr () as * const c_char) ; table . set_bounce = (gd_api . godot_method_bind_get_method) (class_name , "set_bounce\0" . as_ptr () as * const c_char) ; table . set_can_sleep = (gd_api . godot_method_bind_get_method) (class_name , "set_can_sleep\0" . as_ptr () as * const c_char) ; table . set_contact_monitor = (gd_api . godot_method_bind_get_method) (class_name , "set_contact_monitor\0" . as_ptr () as * const c_char) ; table . set_continuous_collision_detection_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_continuous_collision_detection_mode\0" . as_ptr () as * const c_char) ; table . set_friction = (gd_api . godot_method_bind_get_method) (class_name , "set_friction\0" . as_ptr () as * const c_char) ; table . set_gravity_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity_scale\0" . as_ptr () as * const c_char) ; table . set_inertia = (gd_api . godot_method_bind_get_method) (class_name , "set_inertia\0" . as_ptr () as * const c_char) ; table . set_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "set_linear_damp\0" . as_ptr () as * const c_char) ; table . set_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_linear_velocity\0" . as_ptr () as * const c_char) ; table . set_mass = (gd_api . godot_method_bind_get_method) (class_name , "set_mass\0" . as_ptr () as * const c_char) ; table . set_max_contacts_reported = (gd_api . godot_method_bind_get_method) (class_name , "set_max_contacts_reported\0" . as_ptr () as * const c_char) ; table . set_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_mode\0" . as_ptr () as * const c_char) ; table . set_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "set_physics_material_override\0" . as_ptr () as * const c_char) ; table . set_sleeping = (gd_api . godot_method_bind_get_method) (class_name , "set_sleeping\0" . as_ptr () as * const c_char) ; table . set_use_custom_integrator = (gd_api . godot_method_bind_get_method) (class_name , "set_use_custom_integrator\0" . as_ptr () as * const c_char) ; table . set_weight = (gd_api . godot_method_bind_get_method) (class_name , "set_weight\0" . as_ptr () as * const c_char) ; table . test_motion = (gd_api . godot_method_bind_get_method) (class_name , "test_motion\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:100:4054 [INFO] [stdout] | [INFO] [stdout] 100 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 100 | # [doc = "`core class PHashTranslation` inherits `Translation` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_phashtranslation.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPHashTranslation inherits methods from:\n - [Translation](struct.Translation.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PHashTranslation { this : RawObject < Self > , } impl PHashTranslation { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PHashTranslationMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Generates and sets an optimized translation from the given [Translation] resource."] # [doc = ""] # [inline] pub fn generate (& self , from : impl AsArg < crate :: generated :: translation :: Translation >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PHashTranslationMethodTable :: get (get_api ()) . generate ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , from . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PHashTranslation { } unsafe impl GodotObject for PHashTranslation { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PHashTranslation" } } impl std :: ops :: Deref for PHashTranslation { type Target = crate :: generated :: translation :: Translation ; # [inline] fn deref (& self) -> & crate :: generated :: translation :: Translation { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PHashTranslation { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: translation :: Translation { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: translation :: Translation > for PHashTranslation { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PHashTranslation { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PHashTranslation { } unsafe impl SubClass < crate :: generated :: object :: Object > for PHashTranslation { } impl Instanciable for PHashTranslation { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PHashTranslation :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PHashTranslationMethodTable { pub class_constructor : sys :: godot_class_constructor , pub generate : * mut sys :: godot_method_bind } impl PHashTranslationMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PHashTranslationMethodTable = PHashTranslationMethodTable { class_constructor : None , generate : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PHashTranslationMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PHashTranslation\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . generate = (gd_api . godot_method_bind_get_method) (class_name , "generate\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:106:6315 [INFO] [stdout] | [INFO] [stdout] 106 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 106 | # [doc = "`core class VisualScriptInputAction` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptinputaction.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptInputAction inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptInputAction { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Mode (pub i64) ; impl Mode { pub const PRESSED : Mode = Mode (0i64) ; pub const RELEASED : Mode = Mode (1i64) ; pub const JUST_PRESSED : Mode = Mode (2i64) ; pub const JUST_RELEASED : Mode = Mode (3i64) ; } impl From < i64 > for Mode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Mode > for i64 { # [inline] fn from (v : Mode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualScriptInputAction { pub const MODE_JUST_PRESSED : i64 = 2i64 ; pub const MODE_JUST_RELEASED : i64 = 3i64 ; pub const MODE_PRESSED : i64 = 0i64 ; pub const MODE_RELEASED : i64 = 1i64 ; } impl VisualScriptInputAction { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptInputActionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn action_mode (& self) -> crate :: generated :: visual_script_input_action :: Mode { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptInputActionMethodTable :: get (get_api ()) . get_action_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_script_input_action :: Mode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn action_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptInputActionMethodTable :: get (get_api ()) . get_action_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_action_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptInputActionMethodTable :: get (get_api ()) . set_action_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_action_name (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptInputActionMethodTable :: get (get_api ()) . set_action_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptInputAction { } unsafe impl GodotObject for VisualScriptInputAction { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptInputAction" } } impl std :: ops :: Deref for VisualScriptInputAction { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptInputAction { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptInputAction { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptInputAction { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptInputAction { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptInputAction { } impl Instanciable for VisualScriptInputAction { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptInputAction :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptInputActionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_action_mode : * mut sys :: godot_method_bind , pub get_action_name : * mut sys :: godot_method_bind , pub set_action_mode : * mut sys :: godot_method_bind , pub set_action_name : * mut sys :: godot_method_bind } impl VisualScriptInputActionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptInputActionMethodTable = VisualScriptInputActionMethodTable { class_constructor : None , get_action_mode : 0 as * mut sys :: godot_method_bind , get_action_name : 0 as * mut sys :: godot_method_bind , set_action_mode : 0 as * mut sys :: godot_method_bind , set_action_name : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptInputActionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptInputAction\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_action_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_action_mode\0" . as_ptr () as * const c_char) ; table . get_action_name = (gd_api . godot_method_bind_get_method) (class_name , "get_action_name\0" . as_ptr () as * const c_char) ; table . set_action_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_action_mode\0" . as_ptr () as * const c_char) ; table . set_action_name = (gd_api . godot_method_bind_get_method) (class_name , "set_action_name\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:112:4464 [INFO] [stdout] | [INFO] [stdout] 112 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 112 | # [doc = "`core class VSeparator` inherits `Separator` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_vseparator.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`VSeparator` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nVSeparator inherits methods from:\n - [Separator](struct.Separator.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VSeparator { this : RawObject < Self > , } impl VSeparator { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VSeparatorMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VSeparator { } unsafe impl GodotObject for VSeparator { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "VSeparator" } } impl QueueFree for VSeparator { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for VSeparator { type Target = crate :: generated :: separator :: Separator ; # [inline] fn deref (& self) -> & crate :: generated :: separator :: Separator { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VSeparator { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: separator :: Separator { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: separator :: Separator > for VSeparator { } unsafe impl SubClass < crate :: generated :: control :: Control > for VSeparator { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for VSeparator { } unsafe impl SubClass < crate :: generated :: node :: Node > for VSeparator { } unsafe impl SubClass < crate :: generated :: object :: Object > for VSeparator { } impl Instanciable for VSeparator { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VSeparator :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VSeparatorMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VSeparatorMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VSeparatorMethodTable = VSeparatorMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VSeparatorMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VSeparator\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:118:5213 [INFO] [stdout] | [INFO] [stdout] 118 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 118 | # [doc = "`core class DTLSServer` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_dtlsserver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nDTLSServer inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct DTLSServer { this : RawObject < Self > , } impl DTLSServer { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = DTLSServerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Setup the DTLS server to use the given `private_key` and provide the given `certificate` to clients. You can pass the optional `chain` parameter to provide additional CA chain information along with the certificate.\n# Default Arguments\n* `chain` - `null`"] # [doc = ""] # [inline] pub fn setup (& self , key : impl AsArg < crate :: generated :: crypto_key :: CryptoKey > , certificate : impl AsArg < crate :: generated :: x509_certificate :: X509Certificate > , chain : impl AsArg < crate :: generated :: x509_certificate :: X509Certificate >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DTLSServerMethodTable :: get (get_api ()) . setup ; let ret = crate :: icalls :: icallptr_i64_obj_obj_obj (method_bind , self . this . sys () . as_ptr () , key . as_arg_ptr () , certificate . as_arg_ptr () , chain . as_arg_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Try to initiate the DTLS handshake with the given `udp_peer` which must be already connected (see [method PacketPeerUDP.connect_to_host]).\n**Note**: You must check that the state of the return PacketPeerUDP is [constant PacketPeerDTLS.STATUS_HANDSHAKING], as it is normal that 50% of the new connections will be invalid due to cookie exchange."] # [doc = ""] # [inline] pub fn take_connection (& self , udp_peer : impl AsArg < crate :: generated :: packet_peer_udp :: PacketPeerUDP >) -> Option < Ref < crate :: generated :: packet_peer_dtls :: PacketPeerDTLS , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = DTLSServerMethodTable :: get (get_api ()) . take_connection ; let ret = crate :: icalls :: icallptr_obj_obj (method_bind , self . this . sys () . as_ptr () , udp_peer . as_arg_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: packet_peer_dtls :: PacketPeerDTLS , thread_access :: Shared >> :: move_from_sys (sys)) } } } impl gdnative_core :: private :: godot_object :: Sealed for DTLSServer { } unsafe impl GodotObject for DTLSServer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "DTLSServer" } } impl std :: ops :: Deref for DTLSServer { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for DTLSServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for DTLSServer { } unsafe impl SubClass < crate :: generated :: object :: Object > for DTLSServer { } impl Instanciable for DTLSServer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { DTLSServer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct DTLSServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub setup : * mut sys :: godot_method_bind , pub take_connection : * mut sys :: godot_method_bind } impl DTLSServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : DTLSServerMethodTable = DTLSServerMethodTable { class_constructor : None , setup : 0 as * mut sys :: godot_method_bind , take_connection : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { DTLSServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "DTLSServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . setup = (gd_api . godot_method_bind_get_method) (class_name , "setup\0" . as_ptr () as * const c_char) ; table . take_connection = (gd_api . godot_method_bind_get_method) (class_name , "take_connection\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:124:4190 [INFO] [stdout] | [INFO] [stdout] 124 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 124 | # [doc = "`core class VisualShaderNodeUniform` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodeuniform.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeUniform inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeUniform { this : RawObject < Self > , } impl VisualShaderNodeUniform { # [doc = "Name of the uniform, by which it can be accessed through the [ShaderMaterial] properties."] # [doc = ""] # [inline] pub fn uniform_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeUniformMethodTable :: get (get_api ()) . get_uniform_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Name of the uniform, by which it can be accessed through the [ShaderMaterial] properties."] # [doc = ""] # [inline] pub fn set_uniform_name (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeUniformMethodTable :: get (get_api ()) . set_uniform_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeUniform { } unsafe impl GodotObject for VisualShaderNodeUniform { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeUniform" } } impl std :: ops :: Deref for VisualShaderNodeUniform { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeUniform { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeUniform { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeUniform { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeUniform { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeUniform { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeUniformMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_uniform_name : * mut sys :: godot_method_bind , pub set_uniform_name : * mut sys :: godot_method_bind } impl VisualShaderNodeUniformMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeUniformMethodTable = VisualShaderNodeUniformMethodTable { class_constructor : None , get_uniform_name : 0 as * mut sys :: godot_method_bind , set_uniform_name : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeUniformMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeUniform\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_uniform_name = (gd_api . godot_method_bind_get_method) (class_name , "get_uniform_name\0" . as_ptr () as * const c_char) ; table . set_uniform_name = (gd_api . godot_method_bind_get_method) (class_name , "set_uniform_name\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:130:32169 [INFO] [stdout] | [INFO] [stdout] 130 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 130 | # [doc = "`core class File` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_file.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nFile inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct File { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CompressionMode (pub i64) ; impl CompressionMode { pub const FASTLZ : CompressionMode = CompressionMode (0i64) ; pub const DEFLATE : CompressionMode = CompressionMode (1i64) ; pub const ZSTD : CompressionMode = CompressionMode (2i64) ; pub const GZIP : CompressionMode = CompressionMode (3i64) ; } impl From < i64 > for CompressionMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CompressionMode > for i64 { # [inline] fn from (v : CompressionMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ModeFlags (pub i64) ; impl ModeFlags { pub const READ : ModeFlags = ModeFlags (1i64) ; pub const WRITE : ModeFlags = ModeFlags (2i64) ; pub const READ_WRITE : ModeFlags = ModeFlags (3i64) ; pub const WRITE_READ : ModeFlags = ModeFlags (7i64) ; } impl From < i64 > for ModeFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ModeFlags > for i64 { # [inline] fn from (v : ModeFlags) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl File { pub const COMPRESSION_DEFLATE : i64 = 1i64 ; pub const COMPRESSION_FASTLZ : i64 = 0i64 ; pub const COMPRESSION_GZIP : i64 = 3i64 ; pub const COMPRESSION_ZSTD : i64 = 2i64 ; pub const READ : i64 = 1i64 ; pub const READ_WRITE : i64 = 3i64 ; pub const WRITE : i64 = 2i64 ; pub const WRITE_READ : i64 = 7i64 ; } impl File { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = FileMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Closes the currently opened file."] # [doc = ""] # [inline] pub fn close (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . close ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns `true` if the file cursor has read past the end of the file.\n**Note:** This function will still return `false` while at the end of the file and only activates when reading past it. This can be confusing but it conforms to how low-level file access works in all operating systems. There is always [method get_len] and [method get_position] to implement a custom logic."] # [doc = ""] # [inline] pub fn eof_reached (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . eof_reached ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the file exists in the given path.\n**Note:** Many resources types are imported (e.g. textures or sound files), and that their source asset will not be included in the exported game, as only the imported version is used (in the `res://.import` folder). To check for the existence of such resources while taking into account the remapping to their imported location, use [method ResourceLoader.exists]. Typically, using `File.file_exists` on an imported resource would work while you are developing in the editor (the source asset is present in `res://`, but fail when exported)."] # [doc = ""] # [inline] pub fn file_exists (& self , path : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . file_exists ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn flush (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . flush ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the next 16 bits from the file as an integer. See [method store_16] for details on what values can be stored and retrieved this way."] # [doc = ""] # [inline] pub fn get_16 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_16 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the next 32 bits from the file as an integer. See [method store_32] for details on what values can be stored and retrieved this way."] # [doc = ""] # [inline] pub fn get_32 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_32 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the next 64 bits from the file as an integer. See [method store_64] for details on what values can be stored and retrieved this way."] # [doc = ""] # [inline] pub fn get_64 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_64 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the next 8 bits from the file as an integer. See [method store_8] for details on what values can be stored and retrieved this way."] # [doc = ""] # [inline] pub fn get_8 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_8 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the whole file as a [String].\nText is interpreted as being UTF-8 encoded."] # [doc = ""] # [inline] pub fn get_as_text (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_as_text ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns next `len` bytes of the file as a [PoolByteArray]."] # [doc = ""] # [inline] pub fn get_buffer (& self , len : i64) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_buffer ; let ret = crate :: icalls :: icallptr_bytearr_i64 (method_bind , self . this . sys () . as_ptr () , len) ; ByteArray :: from_sys (ret) } } # [doc = "Returns the next value of the file in CSV (Comma-Separated Values) format. You can pass a different delimiter `delim` to use other than the default `\",\"` (comma). This delimiter must be one-character long.\nText is interpreted as being UTF-8 encoded.\n# Default Arguments\n* `delim` - `\",\"`"] # [doc = ""] # [inline] pub fn get_csv_line (& self , delim : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_csv_line ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , delim . into ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the next 64 bits from the file as a floating-point number."] # [doc = ""] # [inline] pub fn get_double (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_double ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the file's endianness is swapped. Use this if you're dealing with files written on big-endian machines.\n**Note:** This is about the file format, not CPU type. This is always reset to `false` whenever you open the file."] # [doc = ""] # [inline] pub fn endian_swap (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_endian_swap ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the last error that happened when trying to perform operations. Compare with the `ERR_FILE_*` constants from [enum Error]."] # [doc = ""] # [inline] pub fn get_error (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_error ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Returns the next 32 bits from the file as a floating-point number."] # [doc = ""] # [inline] pub fn get_float (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_float ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the size of the file in bytes."] # [doc = ""] # [inline] pub fn get_len (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_len ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the next line of the file as a [String].\nText is interpreted as being UTF-8 encoded."] # [doc = ""] # [inline] pub fn get_line (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_line ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns an MD5 String representing the file at the given path or an empty [String] on failure."] # [doc = ""] # [inline] pub fn get_md5 (& self , path : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_md5 ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the last time the `file` was modified in unix timestamp format or returns a [String] \"ERROR IN `file`\". This unix timestamp can be converted to datetime by using [method OS.get_datetime_from_unix_time]."] # [doc = ""] # [inline] pub fn get_modified_time (& self , file : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_modified_time ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , file . into ()) ; ret as _ } } # [doc = "Returns a [String] saved in Pascal format from the file.\nText is interpreted as being UTF-8 encoded."] # [doc = ""] # [inline] pub fn get_pascal_string (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_pascal_string ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the path as a [String] for the current open file."] # [doc = ""] # [inline] pub fn get_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the absolute path as a [String] for the current open file."] # [doc = ""] # [inline] pub fn get_path_absolute (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_path_absolute ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the file cursor's position."] # [doc = ""] # [inline] pub fn get_position (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the next bits from the file as a floating-point number."] # [doc = ""] # [inline] pub fn get_real (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_real ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a SHA-256 [String] representing the file at the given path or an empty [String] on failure."] # [doc = ""] # [inline] pub fn get_sha256 (& self , path : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_sha256 ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the next [Variant] value from the file. If `allow_objects` is `true`, decoding objects is allowed.\n**Warning:** Deserialized objects can contain code which gets executed. Do not use this option if the serialized object comes from untrusted sources to avoid potential security threats such as remote code execution.\n# Default Arguments\n* `allow_objects` - `false`"] # [doc = ""] # [inline] pub fn get_var (& self , allow_objects : bool) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . get_var ; let ret = crate :: icalls :: icallptr_var_bool (method_bind , self . this . sys () . as_ptr () , allow_objects) ; Variant :: from_sys (ret) } } # [doc = "Returns `true` if the file is currently opened."] # [doc = ""] # [inline] pub fn is_open (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . is_open ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Opens the file for writing or reading, depending on the flags."] # [doc = ""] # [inline] pub fn open (& self , path : impl Into < GodotString > , flags : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . open ; let ret = crate :: icalls :: icallptr_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , path . into () , flags) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Opens a compressed file for reading or writing.\n# Default Arguments\n* `compression_mode` - `0`"] # [doc = ""] # [inline] pub fn open_compressed (& self , path : impl Into < GodotString > , mode_flags : i64 , compression_mode : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . open_compressed ; let ret = crate :: icalls :: icallptr_i64_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , path . into () , mode_flags , compression_mode) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Opens an encrypted file in write or read mode. You need to pass a binary key to encrypt/decrypt it.\n**Note:** The provided key must be 32 bytes long."] # [doc = ""] # [inline] pub fn open_encrypted (& self , path : impl Into < GodotString > , mode_flags : i64 , key : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . open_encrypted ; let ret = crate :: icalls :: icallptr_i64_str_i64_bytearr (method_bind , self . this . sys () . as_ptr () , path . into () , mode_flags , key) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Opens an encrypted file in write or read mode. You need to pass a password to encrypt/decrypt it."] # [doc = ""] # [inline] pub fn open_encrypted_with_pass (& self , path : impl Into < GodotString > , mode_flags : i64 , pass : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . open_encrypted_with_pass ; let ret = crate :: icalls :: icallptr_i64_str_i64_str (method_bind , self . this . sys () . as_ptr () , path . into () , mode_flags , pass . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Changes the file reading/writing cursor to the specified position (in bytes from the beginning of the file)."] # [doc = ""] # [inline] pub fn seek (& self , position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . seek ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "Changes the file reading/writing cursor to the specified position (in bytes from the end of the file).\n**Note:** This is an offset, so you should use negative numbers or the cursor will be at the end of the file.\n# Default Arguments\n* `position` - `0`"] # [doc = ""] # [inline] pub fn seek_end (& self , position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . seek_end ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "If `true`, the file's endianness is swapped. Use this if you're dealing with files written on big-endian machines.\n**Note:** This is about the file format, not CPU type. This is always reset to `false` whenever you open the file."] # [doc = ""] # [inline] pub fn set_endian_swap (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . set_endian_swap ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nStores an integer as 16 bits in the file.\n**Note:** The `value` should lie in the interval `[0, 2^16 - 1]`. Any other value will overflow and wrap around.\nTo store a signed integer, use [method store_64] or store a signed integer from the interval `[-2^15, 2^15 - 1]` (i.e. keeping one bit for the signedness) and compute its sign manually when reading. For example:\n```gdscript\nconst MAX_15B = 1 << 15\nconst MAX_16B = 1 << 16\n\nfunc unsigned16_to_signed(unsigned):\n return (unsigned + MAX_15B) % MAX_16B - MAX_15B\n\nfunc _ready():\n var f = File.new()\n f.open(\"user://file.dat\", File.WRITE_READ)\n f.store_16(-42) # This wraps around and stores 65494 (2^16 - 42).\n f.store_16(121) # In bounds, will store 121.\n f.seek(0) # Go back to start to read the stored value.\n var read1 = f.get_16() # 65494\n var read2 = f.get_16() # 121\n var converted1 = unsigned16_to_signed(read1) # -42\n var converted2 = unsigned16_to_signed(read2) # 121\n```"] # [doc = ""] # [inline] pub fn store_16 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_16 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Stores an integer as 32 bits in the file.\n**Note:** The `value` should lie in the interval `[0, 2^32 - 1]`. Any other value will overflow and wrap around.\nTo store a signed integer, use [method store_64], or convert it manually (see [method store_16] for an example)."] # [doc = ""] # [inline] pub fn store_32 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_32 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Stores an integer as 64 bits in the file.\n**Note:** The `value` must lie in the interval `[-2^63, 2^63 - 1]` (i.e. be a valid [int] value)."] # [doc = ""] # [inline] pub fn store_64 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_64 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Stores an integer as 8 bits in the file.\n**Note:** The `value` should lie in the interval `[0, 255]`. Any other value will overflow and wrap around.\nTo store a signed integer, use [method store_64], or convert it manually (see [method store_16] for an example)."] # [doc = ""] # [inline] pub fn store_8 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_8 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Stores the given array of bytes in the file."] # [doc = ""] # [inline] pub fn store_buffer (& self , buffer : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_buffer ; let ret = crate :: icalls :: icallptr_void_bytearr (method_bind , self . this . sys () . as_ptr () , buffer) ; } } # [doc = "Store the given [PoolStringArray] in the file as a line formatted in the CSV (Comma-Separated Values) format. You can pass a different delimiter `delim` to use other than the default `\",\"` (comma). This delimiter must be one-character long.\nText will be encoded as UTF-8.\n# Default Arguments\n* `delim` - `\",\"`"] # [doc = ""] # [inline] pub fn store_csv_line (& self , values : StringArray , delim : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_csv_line ; let ret = crate :: icalls :: icallptr_void_strarr_str (method_bind , self . this . sys () . as_ptr () , values , delim . into ()) ; } } # [doc = "Stores a floating-point number as 64 bits in the file."] # [doc = ""] # [inline] pub fn store_double (& self , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_double ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Stores a floating-point number as 32 bits in the file."] # [doc = ""] # [inline] pub fn store_float (& self , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_float ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Stores the given [String] as a line in the file.\nText will be encoded as UTF-8."] # [doc = ""] # [inline] pub fn store_line (& self , line : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_line ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , line . into ()) ; } } # [doc = "Stores the given [String] as a line in the file in Pascal format (i.e. also store the length of the string).\nText will be encoded as UTF-8."] # [doc = ""] # [inline] pub fn store_pascal_string (& self , string : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_pascal_string ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , string . into ()) ; } } # [doc = "Stores a floating-point number in the file."] # [doc = ""] # [inline] pub fn store_real (& self , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_real ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Stores the given [String] in the file.\nText will be encoded as UTF-8."] # [doc = ""] # [inline] pub fn store_string (& self , string : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_string ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , string . into ()) ; } } # [doc = "Stores any Variant value in the file. If `full_objects` is `true`, encoding objects is allowed (and can potentially include code).\n# Default Arguments\n* `full_objects` - `false`"] # [doc = ""] # [inline] pub fn store_var (& self , value : impl OwnedToVariant , full_objects : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileMethodTable :: get (get_api ()) . store_var ; let ret = crate :: icalls :: icallptr_void_var_bool (method_bind , self . this . sys () . as_ptr () , value . owned_to_variant () , full_objects) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for File { } unsafe impl GodotObject for File { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "File" } } impl std :: ops :: Deref for File { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for File { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for File { } unsafe impl SubClass < crate :: generated :: object :: Object > for File { } impl Instanciable for File { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { File :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct FileMethodTable { pub class_constructor : sys :: godot_class_constructor , pub close : * mut sys :: godot_method_bind , pub eof_reached : * mut sys :: godot_method_bind , pub file_exists : * mut sys :: godot_method_bind , pub flush : * mut sys :: godot_method_bind , pub get_16 : * mut sys :: godot_method_bind , pub get_32 : * mut sys :: godot_method_bind , pub get_64 : * mut sys :: godot_method_bind , pub get_8 : * mut sys :: godot_method_bind , pub get_as_text : * mut sys :: godot_method_bind , pub get_buffer : * mut sys :: godot_method_bind , pub get_csv_line : * mut sys :: godot_method_bind , pub get_double : * mut sys :: godot_method_bind , pub get_endian_swap : * mut sys :: godot_method_bind , pub get_error : * mut sys :: godot_method_bind , pub get_float : * mut sys :: godot_method_bind , pub get_len : * mut sys :: godot_method_bind , pub get_line : * mut sys :: godot_method_bind , pub get_md5 : * mut sys :: godot_method_bind , pub get_modified_time : * mut sys :: godot_method_bind , pub get_pascal_string : * mut sys :: godot_method_bind , pub get_path : * mut sys :: godot_method_bind , pub get_path_absolute : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub get_real : * mut sys :: godot_method_bind , pub get_sha256 : * mut sys :: godot_method_bind , pub get_var : * mut sys :: godot_method_bind , pub is_open : * mut sys :: godot_method_bind , pub open : * mut sys :: godot_method_bind , pub open_compressed : * mut sys :: godot_method_bind , pub open_encrypted : * mut sys :: godot_method_bind , pub open_encrypted_with_pass : * mut sys :: godot_method_bind , pub seek : * mut sys :: godot_method_bind , pub seek_end : * mut sys :: godot_method_bind , pub set_endian_swap : * mut sys :: godot_method_bind , pub store_16 : * mut sys :: godot_method_bind , pub store_32 : * mut sys :: godot_method_bind , pub store_64 : * mut sys :: godot_method_bind , pub store_8 : * mut sys :: godot_method_bind , pub store_buffer : * mut sys :: godot_method_bind , pub store_csv_line : * mut sys :: godot_method_bind , pub store_double : * mut sys :: godot_method_bind , pub store_float : * mut sys :: godot_method_bind , pub store_line : * mut sys :: godot_method_bind , pub store_pascal_string : * mut sys :: godot_method_bind , pub store_real : * mut sys :: godot_method_bind , pub store_string : * mut sys :: godot_method_bind , pub store_var : * mut sys :: godot_method_bind } impl FileMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : FileMethodTable = FileMethodTable { class_constructor : None , close : 0 as * mut sys :: godot_method_bind , eof_reached : 0 as * mut sys :: godot_method_bind , file_exists : 0 as * mut sys :: godot_method_bind , flush : 0 as * mut sys :: godot_method_bind , get_16 : 0 as * mut sys :: godot_method_bind , get_32 : 0 as * mut sys :: godot_method_bind , get_64 : 0 as * mut sys :: godot_method_bind , get_8 : 0 as * mut sys :: godot_method_bind , get_as_text : 0 as * mut sys :: godot_method_bind , get_buffer : 0 as * mut sys :: godot_method_bind , get_csv_line : 0 as * mut sys :: godot_method_bind , get_double : 0 as * mut sys :: godot_method_bind , get_endian_swap : 0 as * mut sys :: godot_method_bind , get_error : 0 as * mut sys :: godot_method_bind , get_float : 0 as * mut sys :: godot_method_bind , get_len : 0 as * mut sys :: godot_method_bind , get_line : 0 as * mut sys :: godot_method_bind , get_md5 : 0 as * mut sys :: godot_method_bind , get_modified_time : 0 as * mut sys :: godot_method_bind , get_pascal_string : 0 as * mut sys :: godot_method_bind , get_path : 0 as * mut sys :: godot_method_bind , get_path_absolute : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , get_real : 0 as * mut sys :: godot_method_bind , get_sha256 : 0 as * mut sys :: godot_method_bind , get_var : 0 as * mut sys :: godot_method_bind , is_open : 0 as * mut sys :: godot_method_bind , open : 0 as * mut sys :: godot_method_bind , open_compressed : 0 as * mut sys :: godot_method_bind , open_encrypted : 0 as * mut sys :: godot_method_bind , open_encrypted_with_pass : 0 as * mut sys :: godot_method_bind , seek : 0 as * mut sys :: godot_method_bind , seek_end : 0 as * mut sys :: godot_method_bind , set_endian_swap : 0 as * mut sys :: godot_method_bind , store_16 : 0 as * mut sys :: godot_method_bind , store_32 : 0 as * mut sys :: godot_method_bind , store_64 : 0 as * mut sys :: godot_method_bind , store_8 : 0 as * mut sys :: godot_method_bind , store_buffer : 0 as * mut sys :: godot_method_bind , store_csv_line : 0 as * mut sys :: godot_method_bind , store_double : 0 as * mut sys :: godot_method_bind , store_float : 0 as * mut sys :: godot_method_bind , store_line : 0 as * mut sys :: godot_method_bind , store_pascal_string : 0 as * mut sys :: godot_method_bind , store_real : 0 as * mut sys :: godot_method_bind , store_string : 0 as * mut sys :: godot_method_bind , store_var : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { FileMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "_File\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . close = (gd_api . godot_method_bind_get_method) (class_name , "close\0" . as_ptr () as * const c_char) ; table . eof_reached = (gd_api . godot_method_bind_get_method) (class_name , "eof_reached\0" . as_ptr () as * const c_char) ; table . file_exists = (gd_api . godot_method_bind_get_method) (class_name , "file_exists\0" . as_ptr () as * const c_char) ; table . flush = (gd_api . godot_method_bind_get_method) (class_name , "flush\0" . as_ptr () as * const c_char) ; table . get_16 = (gd_api . godot_method_bind_get_method) (class_name , "get_16\0" . as_ptr () as * const c_char) ; table . get_32 = (gd_api . godot_method_bind_get_method) (class_name , "get_32\0" . as_ptr () as * const c_char) ; table . get_64 = (gd_api . godot_method_bind_get_method) (class_name , "get_64\0" . as_ptr () as * const c_char) ; table . get_8 = (gd_api . godot_method_bind_get_method) (class_name , "get_8\0" . as_ptr () as * const c_char) ; table . get_as_text = (gd_api . godot_method_bind_get_method) (class_name , "get_as_text\0" . as_ptr () as * const c_char) ; table . get_buffer = (gd_api . godot_method_bind_get_method) (class_name , "get_buffer\0" . as_ptr () as * const c_char) ; table . get_csv_line = (gd_api . godot_method_bind_get_method) (class_name , "get_csv_line\0" . as_ptr () as * const c_char) ; table . get_double = (gd_api . godot_method_bind_get_method) (class_name , "get_double\0" . as_ptr () as * const c_char) ; table . get_endian_swap = (gd_api . godot_method_bind_get_method) (class_name , "get_endian_swap\0" . as_ptr () as * const c_char) ; table . get_error = (gd_api . godot_method_bind_get_method) (class_name , "get_error\0" . as_ptr () as * const c_char) ; table . get_float = (gd_api . godot_method_bind_get_method) (class_name , "get_float\0" . as_ptr () as * const c_char) ; table . get_len = (gd_api . godot_method_bind_get_method) (class_name , "get_len\0" . as_ptr () as * const c_char) ; table . get_line = (gd_api . godot_method_bind_get_method) (class_name , "get_line\0" . as_ptr () as * const c_char) ; table . get_md5 = (gd_api . godot_method_bind_get_method) (class_name , "get_md5\0" . as_ptr () as * const c_char) ; table . get_modified_time = (gd_api . godot_method_bind_get_method) (class_name , "get_modified_time\0" . as_ptr () as * const c_char) ; table . get_pascal_string = (gd_api . godot_method_bind_get_method) (class_name , "get_pascal_string\0" . as_ptr () as * const c_char) ; table . get_path = (gd_api . godot_method_bind_get_method) (class_name , "get_path\0" . as_ptr () as * const c_char) ; table . get_path_absolute = (gd_api . godot_method_bind_get_method) (class_name , "get_path_absolute\0" . as_ptr () as * const c_char) ; table . get_position = (gd_api . godot_method_bind_get_method) (class_name , "get_position\0" . as_ptr () as * const c_char) ; table . get_real = (gd_api . godot_method_bind_get_method) (class_name , "get_real\0" . as_ptr () as * const c_char) ; table . get_sha256 = (gd_api . godot_method_bind_get_method) (class_name , "get_sha256\0" . as_ptr () as * const c_char) ; table . get_var = (gd_api . godot_method_bind_get_method) (class_name , "get_var\0" . as_ptr () as * const c_char) ; table . is_open = (gd_api . godot_method_bind_get_method) (class_name , "is_open\0" . as_ptr () as * const c_char) ; table . open = (gd_api . godot_method_bind_get_method) (class_name , "open\0" . as_ptr () as * const c_char) ; table . open_compressed = (gd_api . godot_method_bind_get_method) (class_name , "open_compressed\0" . as_ptr () as * const c_char) ; table . open_encrypted = (gd_api . godot_method_bind_get_method) (class_name , "open_encrypted\0" . as_ptr () as * const c_char) ; table . open_encrypted_with_pass = (gd_api . godot_method_bind_get_method) (class_name , "open_encrypted_with_pass\0" . as_ptr () as * const c_char) ; table . seek = (gd_api . godot_method_bind_get_method) (class_name , "seek\0" . as_ptr () as * const c_char) ; table . seek_end = (gd_api . godot_method_bind_get_method) (class_name , "seek_end\0" . as_ptr () as * const c_char) ; table . set_endian_swap = (gd_api . godot_method_bind_get_method) (class_name , "set_endian_swap\0" . as_ptr () as * const c_char) ; table . store_16 = (gd_api . godot_method_bind_get_method) (class_name , "store_16\0" . as_ptr () as * const c_char) ; table . store_32 = (gd_api . godot_method_bind_get_method) (class_name , "store_32\0" . as_ptr () as * const c_char) ; table . store_64 = (gd_api . godot_method_bind_get_method) (class_name , "store_64\0" . as_ptr () as * const c_char) ; table . store_8 = (gd_api . godot_method_bind_get_method) (class_name , "store_8\0" . as_ptr () as * const c_char) ; table . store_buffer = (gd_api . godot_method_bind_get_method) (class_name , "store_buffer\0" . as_ptr () as * const c_char) ; table . store_csv_line = (gd_api . godot_method_bind_get_method) (class_name , "store_csv_line\0" . as_ptr () as * const c_char) ; table . store_double = (gd_api . godot_method_bind_get_method) (class_name , "store_double\0" . as_ptr () as * const c_char) ; table . store_float = (gd_api . godot_method_bind_get_method) (class_name , "store_float\0" . as_ptr () as * const c_char) ; table . store_line = (gd_api . godot_method_bind_get_method) (class_name , "store_line\0" . as_ptr () as * const c_char) ; table . store_pascal_string = (gd_api . godot_method_bind_get_method) (class_name , "store_pascal_string\0" . as_ptr () as * const c_char) ; table . store_real = (gd_api . godot_method_bind_get_method) (class_name , "store_real\0" . as_ptr () as * const c_char) ; table . store_string = (gd_api . godot_method_bind_get_method) (class_name , "store_string\0" . as_ptr () as * const c_char) ; table . store_var = (gd_api . godot_method_bind_get_method) (class_name , "store_var\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:136:4116 [INFO] [stdout] | [INFO] [stdout] 136 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 136 | # [doc = "`core class GDScript` inherits `Script` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_gdscript.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nGDScript inherits methods from:\n - [Script](struct.Script.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct GDScript { this : RawObject < Self > , } impl GDScript { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = GDScriptMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_as_byte_code (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GDScriptMethodTable :: get (get_api ()) . get_as_byte_code ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn _new (& self , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = GDScriptMethodTable :: get (get_api ()) . _new ; let ret = crate :: icalls :: icallvarargs_ (method_bind , self . this . sys () . as_ptr () , varargs) ; ret } } } impl gdnative_core :: private :: godot_object :: Sealed for GDScript { } unsafe impl GodotObject for GDScript { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "GDScript" } } impl std :: ops :: Deref for GDScript { type Target = crate :: generated :: script :: Script ; # [inline] fn deref (& self) -> & crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GDScript { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: script :: Script > for GDScript { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for GDScript { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for GDScript { } unsafe impl SubClass < crate :: generated :: object :: Object > for GDScript { } impl Instanciable for GDScript { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GDScript :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GDScriptMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_as_byte_code : * mut sys :: godot_method_bind , pub _new : * mut sys :: godot_method_bind } impl GDScriptMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GDScriptMethodTable = GDScriptMethodTable { class_constructor : None , get_as_byte_code : 0 as * mut sys :: godot_method_bind , _new : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { GDScriptMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GDScript\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_as_byte_code = (gd_api . godot_method_bind_get_method) (class_name , "get_as_byte_code\0" . as_ptr () as * const c_char) ; table . _new = (gd_api . godot_method_bind_get_method) (class_name , "new\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:142:26994 [INFO] [stdout] | [INFO] [stdout] 142 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 142 | # [doc = "`core class HTTPClient` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_httpclient.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nHTTPClient inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct HTTPClient { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Method (pub i64) ; impl Method { pub const GET : Method = Method (0i64) ; pub const HEAD : Method = Method (1i64) ; pub const POST : Method = Method (2i64) ; pub const PUT : Method = Method (3i64) ; pub const DELETE : Method = Method (4i64) ; pub const OPTIONS : Method = Method (5i64) ; pub const TRACE : Method = Method (6i64) ; pub const CONNECT : Method = Method (7i64) ; pub const PATCH : Method = Method (8i64) ; pub const MAX : Method = Method (9i64) ; } impl From < i64 > for Method { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Method > for i64 { # [inline] fn from (v : Method) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ResponseCode (pub i64) ; impl ResponseCode { pub const CONTINUE : ResponseCode = ResponseCode (100i64) ; pub const SWITCHING_PROTOCOLS : ResponseCode = ResponseCode (101i64) ; pub const PROCESSING : ResponseCode = ResponseCode (102i64) ; pub const OK : ResponseCode = ResponseCode (200i64) ; pub const CREATED : ResponseCode = ResponseCode (201i64) ; pub const ACCEPTED : ResponseCode = ResponseCode (202i64) ; pub const NON_AUTHORITATIVE_INFORMATION : ResponseCode = ResponseCode (203i64) ; pub const NO_CONTENT : ResponseCode = ResponseCode (204i64) ; pub const RESET_CONTENT : ResponseCode = ResponseCode (205i64) ; pub const PARTIAL_CONTENT : ResponseCode = ResponseCode (206i64) ; pub const MULTI_STATUS : ResponseCode = ResponseCode (207i64) ; pub const ALREADY_REPORTED : ResponseCode = ResponseCode (208i64) ; pub const IM_USED : ResponseCode = ResponseCode (226i64) ; pub const MULTIPLE_CHOICES : ResponseCode = ResponseCode (300i64) ; pub const MOVED_PERMANENTLY : ResponseCode = ResponseCode (301i64) ; pub const FOUND : ResponseCode = ResponseCode (302i64) ; pub const SEE_OTHER : ResponseCode = ResponseCode (303i64) ; pub const NOT_MODIFIED : ResponseCode = ResponseCode (304i64) ; pub const USE_PROXY : ResponseCode = ResponseCode (305i64) ; pub const SWITCH_PROXY : ResponseCode = ResponseCode (306i64) ; pub const TEMPORARY_REDIRECT : ResponseCode = ResponseCode (307i64) ; pub const PERMANENT_REDIRECT : ResponseCode = ResponseCode (308i64) ; pub const BAD_REQUEST : ResponseCode = ResponseCode (400i64) ; pub const UNAUTHORIZED : ResponseCode = ResponseCode (401i64) ; pub const PAYMENT_REQUIRED : ResponseCode = ResponseCode (402i64) ; pub const FORBIDDEN : ResponseCode = ResponseCode (403i64) ; pub const NOT_FOUND : ResponseCode = ResponseCode (404i64) ; pub const METHOD_NOT_ALLOWED : ResponseCode = ResponseCode (405i64) ; pub const NOT_ACCEPTABLE : ResponseCode = ResponseCode (406i64) ; pub const PROXY_AUTHENTICATION_REQUIRED : ResponseCode = ResponseCode (407i64) ; pub const REQUEST_TIMEOUT : ResponseCode = ResponseCode (408i64) ; pub const CONFLICT : ResponseCode = ResponseCode (409i64) ; pub const GONE : ResponseCode = ResponseCode (410i64) ; pub const LENGTH_REQUIRED : ResponseCode = ResponseCode (411i64) ; pub const PRECONDITION_FAILED : ResponseCode = ResponseCode (412i64) ; pub const REQUEST_ENTITY_TOO_LARGE : ResponseCode = ResponseCode (413i64) ; pub const REQUEST_URI_TOO_LONG : ResponseCode = ResponseCode (414i64) ; pub const UNSUPPORTED_MEDIA_TYPE : ResponseCode = ResponseCode (415i64) ; pub const REQUESTED_RANGE_NOT_SATISFIABLE : ResponseCode = ResponseCode (416i64) ; pub const EXPECTATION_FAILED : ResponseCode = ResponseCode (417i64) ; pub const IM_A_TEAPOT : ResponseCode = ResponseCode (418i64) ; pub const MISDIRECTED_REQUEST : ResponseCode = ResponseCode (421i64) ; pub const UNPROCESSABLE_ENTITY : ResponseCode = ResponseCode (422i64) ; pub const LOCKED : ResponseCode = ResponseCode (423i64) ; pub const FAILED_DEPENDENCY : ResponseCode = ResponseCode (424i64) ; pub const UPGRADE_REQUIRED : ResponseCode = ResponseCode (426i64) ; pub const PRECONDITION_REQUIRED : ResponseCode = ResponseCode (428i64) ; pub const TOO_MANY_REQUESTS : ResponseCode = ResponseCode (429i64) ; pub const REQUEST_HEADER_FIELDS_TOO_LARGE : ResponseCode = ResponseCode (431i64) ; pub const UNAVAILABLE_FOR_LEGAL_REASONS : ResponseCode = ResponseCode (451i64) ; pub const INTERNAL_SERVER_ERROR : ResponseCode = ResponseCode (500i64) ; pub const NOT_IMPLEMENTED : ResponseCode = ResponseCode (501i64) ; pub const BAD_GATEWAY : ResponseCode = ResponseCode (502i64) ; pub const SERVICE_UNAVAILABLE : ResponseCode = ResponseCode (503i64) ; pub const GATEWAY_TIMEOUT : ResponseCode = ResponseCode (504i64) ; pub const HTTP_VERSION_NOT_SUPPORTED : ResponseCode = ResponseCode (505i64) ; pub const VARIANT_ALSO_NEGOTIATES : ResponseCode = ResponseCode (506i64) ; pub const INSUFFICIENT_STORAGE : ResponseCode = ResponseCode (507i64) ; pub const LOOP_DETECTED : ResponseCode = ResponseCode (508i64) ; pub const NOT_EXTENDED : ResponseCode = ResponseCode (510i64) ; pub const NETWORK_AUTH_REQUIRED : ResponseCode = ResponseCode (511i64) ; } impl From < i64 > for ResponseCode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ResponseCode > for i64 { # [inline] fn from (v : ResponseCode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Status (pub i64) ; impl Status { pub const DISCONNECTED : Status = Status (0i64) ; pub const RESOLVING : Status = Status (1i64) ; pub const CANT_RESOLVE : Status = Status (2i64) ; pub const CONNECTING : Status = Status (3i64) ; pub const CANT_CONNECT : Status = Status (4i64) ; pub const CONNECTED : Status = Status (5i64) ; pub const REQUESTING : Status = Status (6i64) ; pub const BODY : Status = Status (7i64) ; pub const CONNECTION_ERROR : Status = Status (8i64) ; pub const SSL_HANDSHAKE_ERROR : Status = Status (9i64) ; } impl From < i64 > for Status { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Status > for i64 { # [inline] fn from (v : Status) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl HTTPClient { pub const METHOD_CONNECT : i64 = 7i64 ; pub const METHOD_DELETE : i64 = 4i64 ; pub const METHOD_GET : i64 = 0i64 ; pub const METHOD_HEAD : i64 = 1i64 ; pub const METHOD_MAX : i64 = 9i64 ; pub const METHOD_OPTIONS : i64 = 5i64 ; pub const METHOD_PATCH : i64 = 8i64 ; pub const METHOD_POST : i64 = 2i64 ; pub const METHOD_PUT : i64 = 3i64 ; pub const METHOD_TRACE : i64 = 6i64 ; pub const RESPONSE_ACCEPTED : i64 = 202i64 ; pub const RESPONSE_ALREADY_REPORTED : i64 = 208i64 ; pub const RESPONSE_BAD_GATEWAY : i64 = 502i64 ; pub const RESPONSE_BAD_REQUEST : i64 = 400i64 ; pub const RESPONSE_CONFLICT : i64 = 409i64 ; pub const RESPONSE_CONTINUE : i64 = 100i64 ; pub const RESPONSE_CREATED : i64 = 201i64 ; pub const RESPONSE_EXPECTATION_FAILED : i64 = 417i64 ; pub const RESPONSE_FAILED_DEPENDENCY : i64 = 424i64 ; pub const RESPONSE_FORBIDDEN : i64 = 403i64 ; pub const RESPONSE_FOUND : i64 = 302i64 ; pub const RESPONSE_GATEWAY_TIMEOUT : i64 = 504i64 ; pub const RESPONSE_GONE : i64 = 410i64 ; pub const RESPONSE_HTTP_VERSION_NOT_SUPPORTED : i64 = 505i64 ; pub const RESPONSE_IM_A_TEAPOT : i64 = 418i64 ; pub const RESPONSE_IM_USED : i64 = 226i64 ; pub const RESPONSE_INSUFFICIENT_STORAGE : i64 = 507i64 ; pub const RESPONSE_INTERNAL_SERVER_ERROR : i64 = 500i64 ; pub const RESPONSE_LENGTH_REQUIRED : i64 = 411i64 ; pub const RESPONSE_LOCKED : i64 = 423i64 ; pub const RESPONSE_LOOP_DETECTED : i64 = 508i64 ; pub const RESPONSE_METHOD_NOT_ALLOWED : i64 = 405i64 ; pub const RESPONSE_MISDIRECTED_REQUEST : i64 = 421i64 ; pub const RESPONSE_MOVED_PERMANENTLY : i64 = 301i64 ; pub const RESPONSE_MULTIPLE_CHOICES : i64 = 300i64 ; pub const RESPONSE_MULTI_STATUS : i64 = 207i64 ; pub const RESPONSE_NETWORK_AUTH_REQUIRED : i64 = 511i64 ; pub const RESPONSE_NON_AUTHORITATIVE_INFORMATION : i64 = 203i64 ; pub const RESPONSE_NOT_ACCEPTABLE : i64 = 406i64 ; pub const RESPONSE_NOT_EXTENDED : i64 = 510i64 ; pub const RESPONSE_NOT_FOUND : i64 = 404i64 ; pub const RESPONSE_NOT_IMPLEMENTED : i64 = 501i64 ; pub const RESPONSE_NOT_MODIFIED : i64 = 304i64 ; pub const RESPONSE_NO_CONTENT : i64 = 204i64 ; pub const RESPONSE_OK : i64 = 200i64 ; pub const RESPONSE_PARTIAL_CONTENT : i64 = 206i64 ; pub const RESPONSE_PAYMENT_REQUIRED : i64 = 402i64 ; pub const RESPONSE_PERMANENT_REDIRECT : i64 = 308i64 ; pub const RESPONSE_PRECONDITION_FAILED : i64 = 412i64 ; pub const RESPONSE_PRECONDITION_REQUIRED : i64 = 428i64 ; pub const RESPONSE_PROCESSING : i64 = 102i64 ; pub const RESPONSE_PROXY_AUTHENTICATION_REQUIRED : i64 = 407i64 ; pub const RESPONSE_REQUESTED_RANGE_NOT_SATISFIABLE : i64 = 416i64 ; pub const RESPONSE_REQUEST_ENTITY_TOO_LARGE : i64 = 413i64 ; pub const RESPONSE_REQUEST_HEADER_FIELDS_TOO_LARGE : i64 = 431i64 ; pub const RESPONSE_REQUEST_TIMEOUT : i64 = 408i64 ; pub const RESPONSE_REQUEST_URI_TOO_LONG : i64 = 414i64 ; pub const RESPONSE_RESET_CONTENT : i64 = 205i64 ; pub const RESPONSE_SEE_OTHER : i64 = 303i64 ; pub const RESPONSE_SERVICE_UNAVAILABLE : i64 = 503i64 ; pub const RESPONSE_SWITCHING_PROTOCOLS : i64 = 101i64 ; pub const RESPONSE_SWITCH_PROXY : i64 = 306i64 ; pub const RESPONSE_TEMPORARY_REDIRECT : i64 = 307i64 ; pub const RESPONSE_TOO_MANY_REQUESTS : i64 = 429i64 ; pub const RESPONSE_UNAUTHORIZED : i64 = 401i64 ; pub const RESPONSE_UNAVAILABLE_FOR_LEGAL_REASONS : i64 = 451i64 ; pub const RESPONSE_UNPROCESSABLE_ENTITY : i64 = 422i64 ; pub const RESPONSE_UNSUPPORTED_MEDIA_TYPE : i64 = 415i64 ; pub const RESPONSE_UPGRADE_REQUIRED : i64 = 426i64 ; pub const RESPONSE_USE_PROXY : i64 = 305i64 ; pub const RESPONSE_VARIANT_ALSO_NEGOTIATES : i64 = 506i64 ; pub const STATUS_BODY : i64 = 7i64 ; pub const STATUS_CANT_CONNECT : i64 = 4i64 ; pub const STATUS_CANT_RESOLVE : i64 = 2i64 ; pub const STATUS_CONNECTED : i64 = 5i64 ; pub const STATUS_CONNECTING : i64 = 3i64 ; pub const STATUS_CONNECTION_ERROR : i64 = 8i64 ; pub const STATUS_DISCONNECTED : i64 = 0i64 ; pub const STATUS_REQUESTING : i64 = 6i64 ; pub const STATUS_RESOLVING : i64 = 1i64 ; pub const STATUS_SSL_HANDSHAKE_ERROR : i64 = 9i64 ; } impl HTTPClient { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = HTTPClientMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Closes the current connection, allowing reuse of this [HTTPClient]."] # [doc = ""] # [inline] pub fn close (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . close ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Connects to a host. This needs to be done before any requests are sent.\nThe host should not have http:// prepended but will strip the protocol identifier if provided.\nIf no `port` is specified (or `-1` is used), it is automatically set to 80 for HTTP and 443 for HTTPS (if `use_ssl` is enabled).\n`verify_host` will check the SSL identity of the host if set to `true`.\n# Default Arguments\n* `port` - `-1`\n* `use_ssl` - `false`\n* `verify_host` - `true`"] # [doc = ""] # [inline] pub fn connect_to_host (& self , host : impl Into < GodotString > , port : i64 , use_ssl : bool , verify_host : bool) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . connect_to_host ; let ret = crate :: icalls :: icallptr_i64_str_i64_bool_bool (method_bind , self . this . sys () . as_ptr () , host . into () , port , use_ssl , verify_host) ; GodotError :: result_from_sys (ret as _) } } # [doc = "The connection to use for this client."] # [doc = ""] # [inline] pub fn connection (& self) -> Option < Ref < crate :: generated :: stream_peer :: StreamPeer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . get_connection ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: stream_peer :: StreamPeer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The size of the buffer used and maximum bytes to read per iteration. See [method read_response_body_chunk]."] # [doc = ""] # [inline] pub fn read_chunk_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . get_read_chunk_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the response's body length.\n**Note:** Some Web servers may not send a body length. In this case, the value returned will be `-1`. If using chunked transfer encoding, the body length will also be `-1`."] # [doc = ""] # [inline] pub fn get_response_body_length (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . get_response_body_length ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the response's HTTP status code."] # [doc = ""] # [inline] pub fn get_response_code (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . get_response_code ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the response headers."] # [doc = ""] # [inline] pub fn get_response_headers (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . get_response_headers ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns all response headers as a Dictionary of structure `{ \"key\": \"value1; value2\" }` where the case-sensitivity of the keys and values is kept like the server delivers it. A value is a simple String, this string can have more than one value where \"; \" is used as separator.\n**Example:**\n```gdscript\n{\n \"content-length\": 12,\n \"Content-Type\": \"application/json; charset=UTF-8\",\n}\n```"] # [doc = ""] # [inline] pub fn get_response_headers_as_dictionary (& self) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . get_response_headers_as_dictionary ; let ret = crate :: icalls :: icallptr_dict (method_bind , self . this . sys () . as_ptr ()) ; Dictionary :: from_sys (ret) } } # [doc = "Returns a [enum Status] constant. Need to call [method poll] in order to get status updates."] # [doc = ""] # [inline] pub fn get_status (& self) -> crate :: generated :: http_client :: Status { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . get_status ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: http_client :: Status (ret) } } # [doc = "If `true`, this [HTTPClient] has a response available."] # [doc = ""] # [inline] pub fn has_response (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . has_response ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, execution will block until all data is read from the response."] # [doc = ""] # [inline] pub fn is_blocking_mode_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . is_blocking_mode_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this [HTTPClient] has a response that is chunked."] # [doc = ""] # [inline] pub fn is_response_chunked (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . is_response_chunked ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This needs to be called in order to have any request processed. Check results with [method get_status]."] # [doc = ""] # [inline] pub fn poll (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . poll ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nGenerates a GET/POST application/x-www-form-urlencoded style query string from a provided dictionary, e.g.:\n```gdscript\nvar fields = {\"username\": \"user\", \"password\": \"pass\"}\nvar query_string = http_client.query_string_from_dict(fields)\n# Returns \"username=user&password=pass\"\n```\nFurthermore, if a key has a `null` value, only the key itself is added, without equal sign and value. If the value is an array, for each value in it a pair with the same key is added.\n```gdscript\nvar fields = {\"single\": 123, \"not_valued\": null, \"multiple\": [22, 33, 44]}\nvar query_string = http_client.query_string_from_dict(fields)\n# Returns \"single=123¬_valued&multiple=22&multiple=33&multiple=44\"\n```"] # [doc = ""] # [inline] pub fn query_string_from_dict (& self , fields : Dictionary) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . query_string_from_dict ; let ret = crate :: icalls :: icallptr_str_dict (method_bind , self . this . sys () . as_ptr () , fields) ; GodotString :: from_sys (ret) } } # [doc = "Reads one chunk from the response."] # [doc = ""] # [inline] pub fn read_response_body_chunk (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . read_response_body_chunk ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nSends a request to the connected host. The URL parameter is just the part after the host, so for `http://somehost.com/index.php`, it is `index.php`.\nHeaders are HTTP request headers. For available HTTP methods, see [enum Method].\nTo create a POST request with query strings to push to the server, do:\n```gdscript\nvar fields = {\"username\" : \"user\", \"password\" : \"pass\"}\nvar query_string = http_client.query_string_from_dict(fields)\nvar headers = [\"Content-Type: application/x-www-form-urlencoded\", \"Content-Length: \" + str(query_string.length())]\nvar result = http_client.request(http_client.METHOD_POST, \"index.php\", headers, query_string)\n```\n**Note:** The `request_data` parameter is ignored if `method` is [constant HTTPClient.METHOD_GET]. This is because GET methods can't contain request data. As a workaround, you can pass request data as a query string in the URL. See [method String.http_escape] for an example.\n# Default Arguments\n* `body` - `\"\"`"] # [doc = ""] # [inline] pub fn request (& self , method : i64 , url : impl Into < GodotString > , headers : StringArray , body : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . request ; let ret = crate :: icalls :: icallptr_i64_i64_str_strarr_str (method_bind , self . this . sys () . as_ptr () , method , url . into () , headers , body . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Sends a raw request to the connected host. The URL parameter is just the part after the host, so for `http://somehost.com/index.php`, it is `index.php`.\nHeaders are HTTP request headers. For available HTTP methods, see [enum Method].\nSends the body data raw, as a byte array and does not encode it in any way."] # [doc = ""] # [inline] pub fn request_raw (& self , method : i64 , url : impl Into < GodotString > , headers : StringArray , body : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . request_raw ; let ret = crate :: icalls :: icallptr_i64_i64_str_strarr_bytearr (method_bind , self . this . sys () . as_ptr () , method , url . into () , headers , body) ; GodotError :: result_from_sys (ret as _) } } # [doc = "If `true`, execution will block until all data is read from the response."] # [doc = ""] # [inline] pub fn set_blocking_mode (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . set_blocking_mode ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The connection to use for this client."] # [doc = ""] # [inline] pub fn set_connection (& self , connection : impl AsArg < crate :: generated :: stream_peer :: StreamPeer >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . set_connection ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , connection . as_arg_ptr ()) ; } } # [doc = "The size of the buffer used and maximum bytes to read per iteration. See [method read_response_body_chunk]."] # [doc = ""] # [inline] pub fn set_read_chunk_size (& self , bytes : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPClientMethodTable :: get (get_api ()) . set_read_chunk_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , bytes) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for HTTPClient { } unsafe impl GodotObject for HTTPClient { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "HTTPClient" } } impl std :: ops :: Deref for HTTPClient { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HTTPClient { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for HTTPClient { } unsafe impl SubClass < crate :: generated :: object :: Object > for HTTPClient { } impl Instanciable for HTTPClient { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HTTPClient :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HTTPClientMethodTable { pub class_constructor : sys :: godot_class_constructor , pub close : * mut sys :: godot_method_bind , pub connect_to_host : * mut sys :: godot_method_bind , pub get_connection : * mut sys :: godot_method_bind , pub get_read_chunk_size : * mut sys :: godot_method_bind , pub get_response_body_length : * mut sys :: godot_method_bind , pub get_response_code : * mut sys :: godot_method_bind , pub get_response_headers : * mut sys :: godot_method_bind , pub get_response_headers_as_dictionary : * mut sys :: godot_method_bind , pub get_status : * mut sys :: godot_method_bind , pub has_response : * mut sys :: godot_method_bind , pub is_blocking_mode_enabled : * mut sys :: godot_method_bind , pub is_response_chunked : * mut sys :: godot_method_bind , pub poll : * mut sys :: godot_method_bind , pub query_string_from_dict : * mut sys :: godot_method_bind , pub read_response_body_chunk : * mut sys :: godot_method_bind , pub request : * mut sys :: godot_method_bind , pub request_raw : * mut sys :: godot_method_bind , pub set_blocking_mode : * mut sys :: godot_method_bind , pub set_connection : * mut sys :: godot_method_bind , pub set_read_chunk_size : * mut sys :: godot_method_bind } impl HTTPClientMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HTTPClientMethodTable = HTTPClientMethodTable { class_constructor : None , close : 0 as * mut sys :: godot_method_bind , connect_to_host : 0 as * mut sys :: godot_method_bind , get_connection : 0 as * mut sys :: godot_method_bind , get_read_chunk_size : 0 as * mut sys :: godot_method_bind , get_response_body_length : 0 as * mut sys :: godot_method_bind , get_response_code : 0 as * mut sys :: godot_method_bind , get_response_headers : 0 as * mut sys :: godot_method_bind , get_response_headers_as_dictionary : 0 as * mut sys :: godot_method_bind , get_status : 0 as * mut sys :: godot_method_bind , has_response : 0 as * mut sys :: godot_method_bind , is_blocking_mode_enabled : 0 as * mut sys :: godot_method_bind , is_response_chunked : 0 as * mut sys :: godot_method_bind , poll : 0 as * mut sys :: godot_method_bind , query_string_from_dict : 0 as * mut sys :: godot_method_bind , read_response_body_chunk : 0 as * mut sys :: godot_method_bind , request : 0 as * mut sys :: godot_method_bind , request_raw : 0 as * mut sys :: godot_method_bind , set_blocking_mode : 0 as * mut sys :: godot_method_bind , set_connection : 0 as * mut sys :: godot_method_bind , set_read_chunk_size : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { HTTPClientMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HTTPClient\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . close = (gd_api . godot_method_bind_get_method) (class_name , "close\0" . as_ptr () as * const c_char) ; table . connect_to_host = (gd_api . godot_method_bind_get_method) (class_name , "connect_to_host\0" . as_ptr () as * const c_char) ; table . get_connection = (gd_api . godot_method_bind_get_method) (class_name , "get_connection\0" . as_ptr () as * const c_char) ; table . get_read_chunk_size = (gd_api . godot_method_bind_get_method) (class_name , "get_read_chunk_size\0" . as_ptr () as * const c_char) ; table . get_response_body_length = (gd_api . godot_method_bind_get_method) (class_name , "get_response_body_length\0" . as_ptr () as * const c_char) ; table . get_response_code = (gd_api . godot_method_bind_get_method) (class_name , "get_response_code\0" . as_ptr () as * const c_char) ; table . get_response_headers = (gd_api . godot_method_bind_get_method) (class_name , "get_response_headers\0" . as_ptr () as * const c_char) ; table . get_response_headers_as_dictionary = (gd_api . godot_method_bind_get_method) (class_name , "get_response_headers_as_dictionary\0" . as_ptr () as * const c_char) ; table . get_status = (gd_api . godot_method_bind_get_method) (class_name , "get_status\0" . as_ptr () as * const c_char) ; table . has_response = (gd_api . godot_method_bind_get_method) (class_name , "has_response\0" . as_ptr () as * const c_char) ; table . is_blocking_mode_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_blocking_mode_enabled\0" . as_ptr () as * const c_char) ; table . is_response_chunked = (gd_api . godot_method_bind_get_method) (class_name , "is_response_chunked\0" . as_ptr () as * const c_char) ; table . poll = (gd_api . godot_method_bind_get_method) (class_name , "poll\0" . as_ptr () as * const c_char) ; table . query_string_from_dict = (gd_api . godot_method_bind_get_method) (class_name , "query_string_from_dict\0" . as_ptr () as * const c_char) ; table . read_response_body_chunk = (gd_api . godot_method_bind_get_method) (class_name , "read_response_body_chunk\0" . as_ptr () as * const c_char) ; table . request = (gd_api . godot_method_bind_get_method) (class_name , "request\0" . as_ptr () as * const c_char) ; table . request_raw = (gd_api . godot_method_bind_get_method) (class_name , "request_raw\0" . as_ptr () as * const c_char) ; table . set_blocking_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_blocking_mode\0" . as_ptr () as * const c_char) ; table . set_connection = (gd_api . godot_method_bind_get_method) (class_name , "set_connection\0" . as_ptr () as * const c_char) ; table . set_read_chunk_size = (gd_api . godot_method_bind_get_method) (class_name , "set_read_chunk_size\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:148:4841 [INFO] [stdout] | [INFO] [stdout] 148 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 148 | # [doc = "`core class VisualScriptFunctionState` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptfunctionstate.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptFunctionState inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptFunctionState { this : RawObject < Self > , } impl VisualScriptFunctionState { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptFunctionStateMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn connect_to_signal (& self , obj : impl AsArg < crate :: generated :: object :: Object > , signals : impl Into < GodotString > , args : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptFunctionStateMethodTable :: get (get_api ()) . connect_to_signal ; let ret = crate :: icalls :: icallptr_void_obj_str_arr (method_bind , self . this . sys () . as_ptr () , obj . as_arg_ptr () , signals . into () , args) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn is_valid (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptFunctionStateMethodTable :: get (get_api ()) . is_valid ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn resume (& self , args : VariantArray) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptFunctionStateMethodTable :: get (get_api ()) . resume ; let ret = crate :: icalls :: icallptr_var_arr (method_bind , self . this . sys () . as_ptr () , args) ; Variant :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptFunctionState { } unsafe impl GodotObject for VisualScriptFunctionState { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptFunctionState" } } impl std :: ops :: Deref for VisualScriptFunctionState { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptFunctionState { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptFunctionState { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptFunctionState { } impl Instanciable for VisualScriptFunctionState { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptFunctionState :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptFunctionStateMethodTable { pub class_constructor : sys :: godot_class_constructor , pub connect_to_signal : * mut sys :: godot_method_bind , pub is_valid : * mut sys :: godot_method_bind , pub resume : * mut sys :: godot_method_bind } impl VisualScriptFunctionStateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptFunctionStateMethodTable = VisualScriptFunctionStateMethodTable { class_constructor : None , connect_to_signal : 0 as * mut sys :: godot_method_bind , is_valid : 0 as * mut sys :: godot_method_bind , resume : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptFunctionStateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptFunctionState\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . connect_to_signal = (gd_api . godot_method_bind_get_method) (class_name , "connect_to_signal\0" . as_ptr () as * const c_char) ; table . is_valid = (gd_api . godot_method_bind_get_method) (class_name , "is_valid\0" . as_ptr () as * const c_char) ; table . resume = (gd_api . godot_method_bind_get_method) (class_name , "resume\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:154:13081 [INFO] [stdout] | [INFO] [stdout] 154 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 154 | # [doc = "`core class ARVRInterface` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_arvrinterface.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nARVRInterface inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ARVRInterface { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Capabilities (pub i64) ; impl Capabilities { pub const NONE : Capabilities = Capabilities (0i64) ; pub const MONO : Capabilities = Capabilities (1i64) ; pub const STEREO : Capabilities = Capabilities (2i64) ; pub const AR : Capabilities = Capabilities (4i64) ; pub const EXTERNAL : Capabilities = Capabilities (8i64) ; } impl From < i64 > for Capabilities { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Capabilities > for i64 { # [inline] fn from (v : Capabilities) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Eyes (pub i64) ; impl Eyes { pub const MONO : Eyes = Eyes (0i64) ; pub const LEFT : Eyes = Eyes (1i64) ; pub const RIGHT : Eyes = Eyes (2i64) ; } impl From < i64 > for Eyes { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Eyes > for i64 { # [inline] fn from (v : Eyes) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TrackingStatus (pub i64) ; impl TrackingStatus { pub const NORMAL_TRACKING : TrackingStatus = TrackingStatus (0i64) ; pub const EXCESSIVE_MOTION : TrackingStatus = TrackingStatus (1i64) ; pub const INSUFFICIENT_FEATURES : TrackingStatus = TrackingStatus (2i64) ; pub const UNKNOWN_TRACKING : TrackingStatus = TrackingStatus (3i64) ; pub const NOT_TRACKING : TrackingStatus = TrackingStatus (4i64) ; } impl From < i64 > for TrackingStatus { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TrackingStatus > for i64 { # [inline] fn from (v : TrackingStatus) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ARVRInterface { pub const ARVR_AR : i64 = 4i64 ; pub const ARVR_EXCESSIVE_MOTION : i64 = 1i64 ; pub const ARVR_EXTERNAL : i64 = 8i64 ; pub const ARVR_INSUFFICIENT_FEATURES : i64 = 2i64 ; pub const ARVR_MONO : i64 = 1i64 ; pub const ARVR_NONE : i64 = 0i64 ; pub const ARVR_NORMAL_TRACKING : i64 = 0i64 ; pub const ARVR_NOT_TRACKING : i64 = 4i64 ; pub const ARVR_STEREO : i64 = 2i64 ; pub const ARVR_UNKNOWN_TRACKING : i64 = 3i64 ; pub const EYE_LEFT : i64 = 1i64 ; pub const EYE_MONO : i64 = 0i64 ; pub const EYE_RIGHT : i64 = 2i64 ; } impl ARVRInterface { # [doc = "On an AR interface, `true` if anchor detection is enabled."] # [doc = ""] # [inline] pub fn anchor_detection_is_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . get_anchor_detection_is_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If this is an AR interface that requires displaying a camera feed as the background, this method returns the feed ID in the [CameraServer] for this interface."] # [doc = ""] # [inline] pub fn get_camera_feed_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . get_camera_feed_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a combination of [enum Capabilities] flags providing information about the capabilities of this interface."] # [doc = ""] # [inline] pub fn get_capabilities (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . get_capabilities ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the name of this interface (OpenVR, OpenHMD, ARKit, etc)."] # [doc = ""] # [inline] pub fn get_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . get_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the resolution at which we should render our intermediate results before things like lens distortion are applied by the VR platform."] # [doc = ""] # [inline] pub fn get_render_targetsize (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . get_render_targetsize ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If supported, returns the status of our tracking. This will allow you to provide feedback to the user whether there are issues with positional tracking."] # [doc = ""] # [inline] pub fn get_tracking_status (& self) -> crate :: generated :: arvr_interface :: TrackingStatus { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . get_tracking_status ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: arvr_interface :: TrackingStatus (ret) } } # [doc = "Call this to initialize this interface. The first interface that is initialized is identified as the primary interface and it will be used for rendering output.\nAfter initializing the interface you want to use you then need to enable the AR/VR mode of a viewport and rendering should commence.\n**Note:** You must enable the AR/VR mode on the main viewport for any device that uses the main output of Godot, such as for mobile VR.\nIf you do this for a platform that handles its own output (such as OpenVR) Godot will show just one eye without distortion on screen. Alternatively, you can add a separate viewport node to your scene and enable AR/VR on that viewport. It will be used to output to the HMD, leaving you free to do anything you like in the main window, such as using a separate camera as a spectator camera or rendering something completely different.\nWhile currently not used, you can activate additional interfaces. You may wish to do this if you want to track controllers from other platforms. However, at this point in time only one interface can render to an HMD."] # [doc = ""] # [inline] pub fn initialize (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . initialize ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "`true` if this interface been initialized."] # [doc = ""] # [inline] pub fn is_initialized (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . is_initialized ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "`true` if this is the primary interface."] # [doc = ""] # [inline] pub fn is_primary (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . is_primary ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the current output of this interface is in stereo."] # [doc = ""] # [inline] pub fn is_stereo (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . is_stereo ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "On an AR interface, `true` if anchor detection is enabled."] # [doc = ""] # [inline] pub fn set_anchor_detection_is_enabled (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . set_anchor_detection_is_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "`true` if this interface been initialized."] # [doc = ""] # [inline] pub fn set_is_initialized (& self , initialized : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . set_is_initialized ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , initialized) ; } } # [doc = "`true` if this is the primary interface."] # [doc = ""] # [inline] pub fn set_is_primary (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . set_is_primary ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Turns the interface off."] # [doc = ""] # [inline] pub fn uninitialize (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRInterfaceMethodTable :: get (get_api ()) . uninitialize ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ARVRInterface { } unsafe impl GodotObject for ARVRInterface { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ARVRInterface" } } impl std :: ops :: Deref for ARVRInterface { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ARVRInterface { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ARVRInterface { } unsafe impl SubClass < crate :: generated :: object :: Object > for ARVRInterface { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ARVRInterfaceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_anchor_detection_is_enabled : * mut sys :: godot_method_bind , pub get_camera_feed_id : * mut sys :: godot_method_bind , pub get_capabilities : * mut sys :: godot_method_bind , pub get_name : * mut sys :: godot_method_bind , pub get_render_targetsize : * mut sys :: godot_method_bind , pub get_tracking_status : * mut sys :: godot_method_bind , pub initialize : * mut sys :: godot_method_bind , pub is_initialized : * mut sys :: godot_method_bind , pub is_primary : * mut sys :: godot_method_bind , pub is_stereo : * mut sys :: godot_method_bind , pub set_anchor_detection_is_enabled : * mut sys :: godot_method_bind , pub set_is_initialized : * mut sys :: godot_method_bind , pub set_is_primary : * mut sys :: godot_method_bind , pub uninitialize : * mut sys :: godot_method_bind } impl ARVRInterfaceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ARVRInterfaceMethodTable = ARVRInterfaceMethodTable { class_constructor : None , get_anchor_detection_is_enabled : 0 as * mut sys :: godot_method_bind , get_camera_feed_id : 0 as * mut sys :: godot_method_bind , get_capabilities : 0 as * mut sys :: godot_method_bind , get_name : 0 as * mut sys :: godot_method_bind , get_render_targetsize : 0 as * mut sys :: godot_method_bind , get_tracking_status : 0 as * mut sys :: godot_method_bind , initialize : 0 as * mut sys :: godot_method_bind , is_initialized : 0 as * mut sys :: godot_method_bind , is_primary : 0 as * mut sys :: godot_method_bind , is_stereo : 0 as * mut sys :: godot_method_bind , set_anchor_detection_is_enabled : 0 as * mut sys :: godot_method_bind , set_is_initialized : 0 as * mut sys :: godot_method_bind , set_is_primary : 0 as * mut sys :: godot_method_bind , uninitialize : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ARVRInterfaceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ARVRInterface\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_anchor_detection_is_enabled = (gd_api . godot_method_bind_get_method) (class_name , "get_anchor_detection_is_enabled\0" . as_ptr () as * const c_char) ; table . get_camera_feed_id = (gd_api . godot_method_bind_get_method) (class_name , "get_camera_feed_id\0" . as_ptr () as * const c_char) ; table . get_capabilities = (gd_api . godot_method_bind_get_method) (class_name , "get_capabilities\0" . as_ptr () as * const c_char) ; table . get_name = (gd_api . godot_method_bind_get_method) (class_name , "get_name\0" . as_ptr () as * const c_char) ; table . get_render_targetsize = (gd_api . godot_method_bind_get_method) (class_name , "get_render_targetsize\0" . as_ptr () as * const c_char) ; table . get_tracking_status = (gd_api . godot_method_bind_get_method) (class_name , "get_tracking_status\0" . as_ptr () as * const c_char) ; table . initialize = (gd_api . godot_method_bind_get_method) (class_name , "initialize\0" . as_ptr () as * const c_char) ; table . is_initialized = (gd_api . godot_method_bind_get_method) (class_name , "is_initialized\0" . as_ptr () as * const c_char) ; table . is_primary = (gd_api . godot_method_bind_get_method) (class_name , "is_primary\0" . as_ptr () as * const c_char) ; table . is_stereo = (gd_api . godot_method_bind_get_method) (class_name , "is_stereo\0" . as_ptr () as * const c_char) ; table . set_anchor_detection_is_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_anchor_detection_is_enabled\0" . as_ptr () as * const c_char) ; table . set_is_initialized = (gd_api . godot_method_bind_get_method) (class_name , "set_is_initialized\0" . as_ptr () as * const c_char) ; table . set_is_primary = (gd_api . godot_method_bind_get_method) (class_name , "set_is_primary\0" . as_ptr () as * const c_char) ; table . uninitialize = (gd_api . godot_method_bind_get_method) (class_name , "uninitialize\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:160:7048 [INFO] [stdout] | [INFO] [stdout] 160 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 160 | # [doc = "`core class PacketPeerDTLS` inherits `PacketPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_packetpeerdtls.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPacketPeerDTLS inherits methods from:\n - [PacketPeer](struct.PacketPeer.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PacketPeerDTLS { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Status (pub i64) ; impl Status { pub const DISCONNECTED : Status = Status (0i64) ; pub const HANDSHAKING : Status = Status (1i64) ; pub const CONNECTED : Status = Status (2i64) ; pub const ERROR : Status = Status (3i64) ; pub const ERROR_HOSTNAME_MISMATCH : Status = Status (4i64) ; } impl From < i64 > for Status { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Status > for i64 { # [inline] fn from (v : Status) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl PacketPeerDTLS { pub const STATUS_CONNECTED : i64 = 2i64 ; pub const STATUS_DISCONNECTED : i64 = 0i64 ; pub const STATUS_ERROR : i64 = 3i64 ; pub const STATUS_ERROR_HOSTNAME_MISMATCH : i64 = 4i64 ; pub const STATUS_HANDSHAKING : i64 = 1i64 ; } impl PacketPeerDTLS { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PacketPeerDTLSMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Connects a `peer` beginning the DTLS handshake using the underlying [PacketPeerUDP] which must be connected (see [method PacketPeerUDP.connect_to_host]). If `validate_certs` is `true`, [PacketPeerDTLS] will validate that the certificate presented by the remote peer and match it with the `for_hostname` argument. You can specify a custom [X509Certificate] to use for validation via the `valid_certificate` argument.\n# Default Arguments\n* `validate_certs` - `true`\n* `for_hostname` - `\"\"`\n* `valid_certificate` - `null`"] # [doc = ""] # [inline] pub fn connect_to_peer (& self , packet_peer : impl AsArg < crate :: generated :: packet_peer_udp :: PacketPeerUDP > , validate_certs : bool , for_hostname : impl Into < GodotString > , valid_certificate : impl AsArg < crate :: generated :: x509_certificate :: X509Certificate >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerDTLSMethodTable :: get (get_api ()) . connect_to_peer ; let ret = crate :: icalls :: icallptr_i64_obj_bool_str_obj (method_bind , self . this . sys () . as_ptr () , packet_peer . as_arg_ptr () , validate_certs , for_hostname . into () , valid_certificate . as_arg_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Disconnects this peer, terminating the DTLS session."] # [doc = ""] # [inline] pub fn disconnect_from_peer (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerDTLSMethodTable :: get (get_api ()) . disconnect_from_peer ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the status of the connection. See [enum Status] for values."] # [doc = ""] # [inline] pub fn get_status (& self) -> crate :: generated :: packet_peer_dtls :: Status { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerDTLSMethodTable :: get (get_api ()) . get_status ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: packet_peer_dtls :: Status (ret) } } # [doc = "Poll the connection to check for incoming packets. Call this frequently to update the status and keep the connection working."] # [doc = ""] # [inline] pub fn poll (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerDTLSMethodTable :: get (get_api ()) . poll ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PacketPeerDTLS { } unsafe impl GodotObject for PacketPeerDTLS { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PacketPeerDTLS" } } impl std :: ops :: Deref for PacketPeerDTLS { type Target = crate :: generated :: packet_peer :: PacketPeer ; # [inline] fn deref (& self) -> & crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PacketPeerDTLS { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: packet_peer :: PacketPeer > for PacketPeerDTLS { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PacketPeerDTLS { } unsafe impl SubClass < crate :: generated :: object :: Object > for PacketPeerDTLS { } impl Instanciable for PacketPeerDTLS { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PacketPeerDTLS :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PacketPeerDTLSMethodTable { pub class_constructor : sys :: godot_class_constructor , pub connect_to_peer : * mut sys :: godot_method_bind , pub disconnect_from_peer : * mut sys :: godot_method_bind , pub get_status : * mut sys :: godot_method_bind , pub poll : * mut sys :: godot_method_bind } impl PacketPeerDTLSMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PacketPeerDTLSMethodTable = PacketPeerDTLSMethodTable { class_constructor : None , connect_to_peer : 0 as * mut sys :: godot_method_bind , disconnect_from_peer : 0 as * mut sys :: godot_method_bind , get_status : 0 as * mut sys :: godot_method_bind , poll : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PacketPeerDTLSMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PacketPeerDTLS\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . connect_to_peer = (gd_api . godot_method_bind_get_method) (class_name , "connect_to_peer\0" . as_ptr () as * const c_char) ; table . disconnect_from_peer = (gd_api . godot_method_bind_get_method) (class_name , "disconnect_from_peer\0" . as_ptr () as * const c_char) ; table . get_status = (gd_api . godot_method_bind_get_method) (class_name , "get_status\0" . as_ptr () as * const c_char) ; table . poll = (gd_api . godot_method_bind_get_method) (class_name , "poll\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:166:5359 [INFO] [stdout] | [INFO] [stdout] 166 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 166 | # [doc = "`core class Path2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_path2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Path2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nPath2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Path2D { this : RawObject < Self > , } impl Path2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = Path2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "A [Curve2D] describing the path."] # [doc = ""] # [inline] pub fn curve (& self) -> Option < Ref < crate :: generated :: curve_2d :: Curve2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Path2DMethodTable :: get (get_api ()) . get_curve ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: curve_2d :: Curve2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "A [Curve2D] describing the path."] # [doc = ""] # [inline] pub fn set_curve (& self , curve : impl AsArg < crate :: generated :: curve_2d :: Curve2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Path2DMethodTable :: get (get_api ()) . set_curve ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , curve . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Path2D { } unsafe impl GodotObject for Path2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Path2D" } } impl QueueFree for Path2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Path2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Path2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for Path2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Path2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Path2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Path2D { } impl Instanciable for Path2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Path2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Path2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_curve : * mut sys :: godot_method_bind , pub set_curve : * mut sys :: godot_method_bind } impl Path2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Path2DMethodTable = Path2DMethodTable { class_constructor : None , get_curve : 0 as * mut sys :: godot_method_bind , set_curve : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Path2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Path2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_curve\0" . as_ptr () as * const c_char) ; table . set_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_curve\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:172:7431 [INFO] [stdout] | [INFO] [stdout] 172 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 172 | # [doc = "`tools class ScriptEditor` inherits `PanelContainer` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_scripteditor.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nScriptEditor inherits methods from:\n - [PanelContainer](struct.PanelContainer.html)\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ScriptEditor { this : RawObject < Self > , } impl ScriptEditor { # [doc = ""] # [doc = ""] # [inline] pub fn can_drop_data_fw (& self , point : Vector2 , data : impl OwnedToVariant , from : impl AsArg < crate :: generated :: control :: Control >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptEditorMethodTable :: get (get_api ()) . can_drop_data_fw ; let ret = crate :: icalls :: icallptr_bool_vec2_var_obj (method_bind , self . this . sys () . as_ptr () , point , data . owned_to_variant () , from . as_arg_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn drop_data_fw (& self , point : Vector2 , data : impl OwnedToVariant , from : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptEditorMethodTable :: get (get_api ()) . drop_data_fw ; let ret = crate :: icalls :: icallptr_void_vec2_var_obj (method_bind , self . this . sys () . as_ptr () , point , data . owned_to_variant () , from . as_arg_ptr ()) ; } } # [doc = "Returns a [Script] that is currently active in editor."] # [doc = ""] # [inline] pub fn get_current_script (& self) -> Option < Ref < crate :: generated :: script :: Script , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptEditorMethodTable :: get (get_api ()) . get_current_script ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: script :: Script , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_drag_data_fw (& self , point : Vector2 , from : impl AsArg < crate :: generated :: control :: Control >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptEditorMethodTable :: get (get_api ()) . get_drag_data_fw ; let ret = crate :: icalls :: icallptr_var_vec2_obj (method_bind , self . this . sys () . as_ptr () , point , from . as_arg_ptr ()) ; Variant :: from_sys (ret) } } # [doc = "Returns an array with all [Script] objects which are currently open in editor."] # [doc = ""] # [inline] pub fn get_open_scripts (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptEditorMethodTable :: get (get_api ()) . get_open_scripts ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Goes to the specified line in the current script."] # [doc = ""] # [inline] pub fn goto_line (& self , line_number : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptEditorMethodTable :: get (get_api ()) . goto_line ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , line_number) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn open_script_create_dialog (& self , base_name : impl Into < GodotString > , base_path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptEditorMethodTable :: get (get_api ()) . open_script_create_dialog ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , base_name . into () , base_path . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ScriptEditor { } unsafe impl GodotObject for ScriptEditor { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ScriptEditor" } } impl QueueFree for ScriptEditor { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ScriptEditor { type Target = crate :: generated :: panel_container :: PanelContainer ; # [inline] fn deref (& self) -> & crate :: generated :: panel_container :: PanelContainer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ScriptEditor { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: panel_container :: PanelContainer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: panel_container :: PanelContainer > for ScriptEditor { } unsafe impl SubClass < crate :: generated :: container :: Container > for ScriptEditor { } unsafe impl SubClass < crate :: generated :: control :: Control > for ScriptEditor { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ScriptEditor { } unsafe impl SubClass < crate :: generated :: node :: Node > for ScriptEditor { } unsafe impl SubClass < crate :: generated :: object :: Object > for ScriptEditor { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ScriptEditorMethodTable { pub class_constructor : sys :: godot_class_constructor , pub can_drop_data_fw : * mut sys :: godot_method_bind , pub drop_data_fw : * mut sys :: godot_method_bind , pub get_current_script : * mut sys :: godot_method_bind , pub get_drag_data_fw : * mut sys :: godot_method_bind , pub get_open_scripts : * mut sys :: godot_method_bind , pub goto_line : * mut sys :: godot_method_bind , pub open_script_create_dialog : * mut sys :: godot_method_bind } impl ScriptEditorMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ScriptEditorMethodTable = ScriptEditorMethodTable { class_constructor : None , can_drop_data_fw : 0 as * mut sys :: godot_method_bind , drop_data_fw : 0 as * mut sys :: godot_method_bind , get_current_script : 0 as * mut sys :: godot_method_bind , get_drag_data_fw : 0 as * mut sys :: godot_method_bind , get_open_scripts : 0 as * mut sys :: godot_method_bind , goto_line : 0 as * mut sys :: godot_method_bind , open_script_create_dialog : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ScriptEditorMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ScriptEditor\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . can_drop_data_fw = (gd_api . godot_method_bind_get_method) (class_name , "can_drop_data_fw\0" . as_ptr () as * const c_char) ; table . drop_data_fw = (gd_api . godot_method_bind_get_method) (class_name , "drop_data_fw\0" . as_ptr () as * const c_char) ; table . get_current_script = (gd_api . godot_method_bind_get_method) (class_name , "get_current_script\0" . as_ptr () as * const c_char) ; table . get_drag_data_fw = (gd_api . godot_method_bind_get_method) (class_name , "get_drag_data_fw\0" . as_ptr () as * const c_char) ; table . get_open_scripts = (gd_api . godot_method_bind_get_method) (class_name , "get_open_scripts\0" . as_ptr () as * const c_char) ; table . goto_line = (gd_api . godot_method_bind_get_method) (class_name , "goto_line\0" . as_ptr () as * const c_char) ; table . open_script_create_dialog = (gd_api . godot_method_bind_get_method) (class_name , "open_script_create_dialog\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:178:3167 [INFO] [stdout] | [INFO] [stdout] 178 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 178 | # [doc = "`core class TextFile` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_textfile.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nTextFile inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct TextFile { this : RawObject < Self > , } impl TextFile { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = TextFileMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for TextFile { } unsafe impl GodotObject for TextFile { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "TextFile" } } impl std :: ops :: Deref for TextFile { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TextFile { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for TextFile { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for TextFile { } unsafe impl SubClass < crate :: generated :: object :: Object > for TextFile { } impl Instanciable for TextFile { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TextFile :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TextFileMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl TextFileMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TextFileMethodTable = TextFileMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TextFileMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TextFile\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:190:10854 [INFO] [stdout] | [INFO] [stdout] 190 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 190 | # [doc = "`core class Script` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_script.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nScript inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Script { this : RawObject < Self > , } impl Script { # [doc = "Returns `true` if the script can be instanced."] # [doc = ""] # [inline] pub fn can_instance (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . can_instance ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the script directly inherited by this script."] # [doc = ""] # [inline] pub fn get_base_script (& self) -> Option < Ref < crate :: generated :: script :: Script , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_base_script ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: script :: Script , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the script's base type."] # [doc = ""] # [inline] pub fn get_instance_base_type (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_instance_base_type ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the default value of the specified property."] # [doc = ""] # [inline] pub fn get_property_default_value (& self , property : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_property_default_value ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , property . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns a dictionary containing constant names and their values."] # [doc = ""] # [inline] pub fn get_script_constant_map (& self) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_script_constant_map ; let ret = crate :: icalls :: icallptr_dict (method_bind , self . this . sys () . as_ptr ()) ; Dictionary :: from_sys (ret) } } # [doc = "Returns the list of methods in this [Script]."] # [doc = ""] # [inline] pub fn get_script_method_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_script_method_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the list of properties in this [Script]."] # [doc = ""] # [inline] pub fn get_script_property_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_script_property_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the list of user signals defined in this [Script]."] # [doc = ""] # [inline] pub fn get_script_signal_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_script_signal_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "The script source code or an empty string if source code is not available. When set, does not reload the class implementation automatically."] # [doc = ""] # [inline] pub fn source_code (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . get_source_code ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if the script, or a base class, defines a signal with the given name."] # [doc = ""] # [inline] pub fn has_script_signal (& self , signal_name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . has_script_signal ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , signal_name . into ()) ; ret as _ } } # [doc = "Returns `true` if the script contains non-empty source code."] # [doc = ""] # [inline] pub fn has_source_code (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . has_source_code ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if `base_object` is an instance of this script."] # [doc = ""] # [inline] pub fn instance_has (& self , base_object : impl AsArg < crate :: generated :: object :: Object >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . instance_has ; let ret = crate :: icalls :: icallptr_bool_obj (method_bind , self . this . sys () . as_ptr () , base_object . as_arg_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the script is a tool script. A tool script can run in the editor."] # [doc = ""] # [inline] pub fn is_tool (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . is_tool ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Reloads the script's class implementation. Returns an error code.\n# Default Arguments\n* `keep_state` - `false`"] # [doc = ""] # [inline] pub fn reload (& self , keep_state : bool) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . reload ; let ret = crate :: icalls :: icallptr_i64_bool (method_bind , self . this . sys () . as_ptr () , keep_state) ; GodotError :: result_from_sys (ret as _) } } # [doc = "The script source code or an empty string if source code is not available. When set, does not reload the class implementation automatically."] # [doc = ""] # [inline] pub fn set_source_code (& self , source : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ScriptMethodTable :: get (get_api ()) . set_source_code ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , source . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Script { } unsafe impl GodotObject for Script { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Script" } } impl std :: ops :: Deref for Script { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Script { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Script { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Script { } unsafe impl SubClass < crate :: generated :: object :: Object > for Script { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ScriptMethodTable { pub class_constructor : sys :: godot_class_constructor , pub can_instance : * mut sys :: godot_method_bind , pub get_base_script : * mut sys :: godot_method_bind , pub get_instance_base_type : * mut sys :: godot_method_bind , pub get_property_default_value : * mut sys :: godot_method_bind , pub get_script_constant_map : * mut sys :: godot_method_bind , pub get_script_method_list : * mut sys :: godot_method_bind , pub get_script_property_list : * mut sys :: godot_method_bind , pub get_script_signal_list : * mut sys :: godot_method_bind , pub get_source_code : * mut sys :: godot_method_bind , pub has_script_signal : * mut sys :: godot_method_bind , pub has_source_code : * mut sys :: godot_method_bind , pub instance_has : * mut sys :: godot_method_bind , pub is_tool : * mut sys :: godot_method_bind , pub reload : * mut sys :: godot_method_bind , pub set_source_code : * mut sys :: godot_method_bind } impl ScriptMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ScriptMethodTable = ScriptMethodTable { class_constructor : None , can_instance : 0 as * mut sys :: godot_method_bind , get_base_script : 0 as * mut sys :: godot_method_bind , get_instance_base_type : 0 as * mut sys :: godot_method_bind , get_property_default_value : 0 as * mut sys :: godot_method_bind , get_script_constant_map : 0 as * mut sys :: godot_method_bind , get_script_method_list : 0 as * mut sys :: godot_method_bind , get_script_property_list : 0 as * mut sys :: godot_method_bind , get_script_signal_list : 0 as * mut sys :: godot_method_bind , get_source_code : 0 as * mut sys :: godot_method_bind , has_script_signal : 0 as * mut sys :: godot_method_bind , has_source_code : 0 as * mut sys :: godot_method_bind , instance_has : 0 as * mut sys :: godot_method_bind , is_tool : 0 as * mut sys :: godot_method_bind , reload : 0 as * mut sys :: godot_method_bind , set_source_code : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ScriptMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Script\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . can_instance = (gd_api . godot_method_bind_get_method) (class_name , "can_instance\0" . as_ptr () as * const c_char) ; table . get_base_script = (gd_api . godot_method_bind_get_method) (class_name , "get_base_script\0" . as_ptr () as * const c_char) ; table . get_instance_base_type = (gd_api . godot_method_bind_get_method) (class_name , "get_instance_base_type\0" . as_ptr () as * const c_char) ; table . get_property_default_value = (gd_api . godot_method_bind_get_method) (class_name , "get_property_default_value\0" . as_ptr () as * const c_char) ; table . get_script_constant_map = (gd_api . godot_method_bind_get_method) (class_name , "get_script_constant_map\0" . as_ptr () as * const c_char) ; table . get_script_method_list = (gd_api . godot_method_bind_get_method) (class_name , "get_script_method_list\0" . as_ptr () as * const c_char) ; table . get_script_property_list = (gd_api . godot_method_bind_get_method) (class_name , "get_script_property_list\0" . as_ptr () as * const c_char) ; table . get_script_signal_list = (gd_api . godot_method_bind_get_method) (class_name , "get_script_signal_list\0" . as_ptr () as * const c_char) ; table . get_source_code = (gd_api . godot_method_bind_get_method) (class_name , "get_source_code\0" . as_ptr () as * const c_char) ; table . has_script_signal = (gd_api . godot_method_bind_get_method) (class_name , "has_script_signal\0" . as_ptr () as * const c_char) ; table . has_source_code = (gd_api . godot_method_bind_get_method) (class_name , "has_source_code\0" . as_ptr () as * const c_char) ; table . instance_has = (gd_api . godot_method_bind_get_method) (class_name , "instance_has\0" . as_ptr () as * const c_char) ; table . is_tool = (gd_api . godot_method_bind_get_method) (class_name , "is_tool\0" . as_ptr () as * const c_char) ; table . reload = (gd_api . godot_method_bind_get_method) (class_name , "reload\0" . as_ptr () as * const c_char) ; table . set_source_code = (gd_api . godot_method_bind_get_method) (class_name , "set_source_code\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:196:13198 [INFO] [stdout] | [INFO] [stdout] 196 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 196 | # [doc = "`core class VisualScriptPropertySet` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptpropertyset.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptPropertySet inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptPropertySet { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AssignOp (pub i64) ; impl AssignOp { pub const NONE : AssignOp = AssignOp (0i64) ; pub const ADD : AssignOp = AssignOp (1i64) ; pub const SUB : AssignOp = AssignOp (2i64) ; pub const MUL : AssignOp = AssignOp (3i64) ; pub const DIV : AssignOp = AssignOp (4i64) ; pub const MOD : AssignOp = AssignOp (5i64) ; pub const SHIFT_LEFT : AssignOp = AssignOp (6i64) ; pub const SHIFT_RIGHT : AssignOp = AssignOp (7i64) ; pub const BIT_AND : AssignOp = AssignOp (8i64) ; pub const BIT_OR : AssignOp = AssignOp (9i64) ; pub const BIT_XOR : AssignOp = AssignOp (10i64) ; } impl From < i64 > for AssignOp { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AssignOp > for i64 { # [inline] fn from (v : AssignOp) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CallMode (pub i64) ; impl CallMode { pub const SELF : CallMode = CallMode (0i64) ; pub const NODE_PATH : CallMode = CallMode (1i64) ; pub const INSTANCE : CallMode = CallMode (2i64) ; pub const BASIC_TYPE : CallMode = CallMode (3i64) ; } impl From < i64 > for CallMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CallMode > for i64 { # [inline] fn from (v : CallMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualScriptPropertySet { pub const ASSIGN_OP_ADD : i64 = 1i64 ; pub const ASSIGN_OP_BIT_AND : i64 = 8i64 ; pub const ASSIGN_OP_BIT_OR : i64 = 9i64 ; pub const ASSIGN_OP_BIT_XOR : i64 = 10i64 ; pub const ASSIGN_OP_DIV : i64 = 4i64 ; pub const ASSIGN_OP_MOD : i64 = 5i64 ; pub const ASSIGN_OP_MUL : i64 = 3i64 ; pub const ASSIGN_OP_NONE : i64 = 0i64 ; pub const ASSIGN_OP_SHIFT_LEFT : i64 = 6i64 ; pub const ASSIGN_OP_SHIFT_RIGHT : i64 = 7i64 ; pub const ASSIGN_OP_SUB : i64 = 2i64 ; pub const CALL_MODE_BASIC_TYPE : i64 = 3i64 ; pub const CALL_MODE_INSTANCE : i64 = 2i64 ; pub const CALL_MODE_NODE_PATH : i64 = 1i64 ; pub const CALL_MODE_SELF : i64 = 0i64 ; } impl VisualScriptPropertySet { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptPropertySetMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn assign_op (& self) -> crate :: generated :: visual_script_property_set :: AssignOp { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_assign_op ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_script_property_set :: AssignOp (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn base_path (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_base_path ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn base_script (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_base_script ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn base_type (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_base_type ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn basic_type (& self) -> VariantType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_basic_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; VariantType :: from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn call_mode (& self) -> crate :: generated :: visual_script_property_set :: CallMode { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_call_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_script_property_set :: CallMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn index (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_index ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn property (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . get_property ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_assign_op (& self , assign_op : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_assign_op ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , assign_op) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_base_path (& self , base_path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_base_path ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , base_path . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_base_script (& self , base_script : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_base_script ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , base_script . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_base_type (& self , base_type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_base_type ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , base_type . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_basic_type (& self , basic_type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_basic_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , basic_type) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_call_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_call_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_index (& self , index : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_index ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , index . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_property (& self , property : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertySetMethodTable :: get (get_api ()) . set_property ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , property . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptPropertySet { } unsafe impl GodotObject for VisualScriptPropertySet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptPropertySet" } } impl std :: ops :: Deref for VisualScriptPropertySet { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptPropertySet { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptPropertySet { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptPropertySet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptPropertySet { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptPropertySet { } impl Instanciable for VisualScriptPropertySet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptPropertySet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptPropertySetMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_assign_op : * mut sys :: godot_method_bind , pub get_base_path : * mut sys :: godot_method_bind , pub get_base_script : * mut sys :: godot_method_bind , pub get_base_type : * mut sys :: godot_method_bind , pub get_basic_type : * mut sys :: godot_method_bind , pub get_call_mode : * mut sys :: godot_method_bind , pub get_index : * mut sys :: godot_method_bind , pub get_property : * mut sys :: godot_method_bind , pub set_assign_op : * mut sys :: godot_method_bind , pub set_base_path : * mut sys :: godot_method_bind , pub set_base_script : * mut sys :: godot_method_bind , pub set_base_type : * mut sys :: godot_method_bind , pub set_basic_type : * mut sys :: godot_method_bind , pub set_call_mode : * mut sys :: godot_method_bind , pub set_index : * mut sys :: godot_method_bind , pub set_property : * mut sys :: godot_method_bind } impl VisualScriptPropertySetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptPropertySetMethodTable = VisualScriptPropertySetMethodTable { class_constructor : None , get_assign_op : 0 as * mut sys :: godot_method_bind , get_base_path : 0 as * mut sys :: godot_method_bind , get_base_script : 0 as * mut sys :: godot_method_bind , get_base_type : 0 as * mut sys :: godot_method_bind , get_basic_type : 0 as * mut sys :: godot_method_bind , get_call_mode : 0 as * mut sys :: godot_method_bind , get_index : 0 as * mut sys :: godot_method_bind , get_property : 0 as * mut sys :: godot_method_bind , set_assign_op : 0 as * mut sys :: godot_method_bind , set_base_path : 0 as * mut sys :: godot_method_bind , set_base_script : 0 as * mut sys :: godot_method_bind , set_base_type : 0 as * mut sys :: godot_method_bind , set_basic_type : 0 as * mut sys :: godot_method_bind , set_call_mode : 0 as * mut sys :: godot_method_bind , set_index : 0 as * mut sys :: godot_method_bind , set_property : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptPropertySetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptPropertySet\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_assign_op = (gd_api . godot_method_bind_get_method) (class_name , "get_assign_op\0" . as_ptr () as * const c_char) ; table . get_base_path = (gd_api . godot_method_bind_get_method) (class_name , "get_base_path\0" . as_ptr () as * const c_char) ; table . get_base_script = (gd_api . godot_method_bind_get_method) (class_name , "get_base_script\0" . as_ptr () as * const c_char) ; table . get_base_type = (gd_api . godot_method_bind_get_method) (class_name , "get_base_type\0" . as_ptr () as * const c_char) ; table . get_basic_type = (gd_api . godot_method_bind_get_method) (class_name , "get_basic_type\0" . as_ptr () as * const c_char) ; table . get_call_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_call_mode\0" . as_ptr () as * const c_char) ; table . get_index = (gd_api . godot_method_bind_get_method) (class_name , "get_index\0" . as_ptr () as * const c_char) ; table . get_property = (gd_api . godot_method_bind_get_method) (class_name , "get_property\0" . as_ptr () as * const c_char) ; table . set_assign_op = (gd_api . godot_method_bind_get_method) (class_name , "set_assign_op\0" . as_ptr () as * const c_char) ; table . set_base_path = (gd_api . godot_method_bind_get_method) (class_name , "set_base_path\0" . as_ptr () as * const c_char) ; table . set_base_script = (gd_api . godot_method_bind_get_method) (class_name , "set_base_script\0" . as_ptr () as * const c_char) ; table . set_base_type = (gd_api . godot_method_bind_get_method) (class_name , "set_base_type\0" . as_ptr () as * const c_char) ; table . set_basic_type = (gd_api . godot_method_bind_get_method) (class_name , "set_basic_type\0" . as_ptr () as * const c_char) ; table . set_call_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_call_mode\0" . as_ptr () as * const c_char) ; table . set_index = (gd_api . godot_method_bind_get_method) (class_name , "set_index\0" . as_ptr () as * const c_char) ; table . set_property = (gd_api . godot_method_bind_get_method) (class_name , "set_property\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:202:5618 [INFO] [stdout] | [INFO] [stdout] 202 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 202 | # [doc = "`core class VisualScriptClassConstant` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptclassconstant.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptClassConstant inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptClassConstant { this : RawObject < Self > , } impl VisualScriptClassConstant { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptClassConstantMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn base_type (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptClassConstantMethodTable :: get (get_api ()) . get_base_type ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn class_constant (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptClassConstantMethodTable :: get (get_api ()) . get_class_constant ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_base_type (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptClassConstantMethodTable :: get (get_api ()) . set_base_type ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_class_constant (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptClassConstantMethodTable :: get (get_api ()) . set_class_constant ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptClassConstant { } unsafe impl GodotObject for VisualScriptClassConstant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptClassConstant" } } impl std :: ops :: Deref for VisualScriptClassConstant { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptClassConstant { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptClassConstant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptClassConstant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptClassConstant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptClassConstant { } impl Instanciable for VisualScriptClassConstant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptClassConstant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptClassConstantMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_base_type : * mut sys :: godot_method_bind , pub get_class_constant : * mut sys :: godot_method_bind , pub set_base_type : * mut sys :: godot_method_bind , pub set_class_constant : * mut sys :: godot_method_bind } impl VisualScriptClassConstantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptClassConstantMethodTable = VisualScriptClassConstantMethodTable { class_constructor : None , get_base_type : 0 as * mut sys :: godot_method_bind , get_class_constant : 0 as * mut sys :: godot_method_bind , set_base_type : 0 as * mut sys :: godot_method_bind , set_class_constant : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptClassConstantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptClassConstant\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_base_type = (gd_api . godot_method_bind_get_method) (class_name , "get_base_type\0" . as_ptr () as * const c_char) ; table . get_class_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_class_constant\0" . as_ptr () as * const c_char) ; table . set_base_type = (gd_api . godot_method_bind_get_method) (class_name , "set_base_type\0" . as_ptr () as * const c_char) ; table . set_class_constant = (gd_api . godot_method_bind_get_method) (class_name , "set_class_constant\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:208:102938 [INFO] [stdout] | [INFO] [stdout] 208 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 208 | # [doc = "`core singleton class OS` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_os.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nOS inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct OS { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct HandleType (pub i64) ; impl HandleType { pub const APPLICATION_HANDLE : HandleType = HandleType (0i64) ; pub const DISPLAY_HANDLE : HandleType = HandleType (1i64) ; pub const WINDOW_HANDLE : HandleType = HandleType (2i64) ; pub const WINDOW_VIEW : HandleType = HandleType (3i64) ; pub const OPENGL_CONTEXT : HandleType = HandleType (4i64) ; } impl From < i64 > for HandleType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < HandleType > for i64 { # [inline] fn from (v : HandleType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Month (pub i64) ; impl Month { pub const JANUARY : Month = Month (1i64) ; pub const FEBRUARY : Month = Month (2i64) ; pub const MARCH : Month = Month (3i64) ; pub const APRIL : Month = Month (4i64) ; pub const MAY : Month = Month (5i64) ; pub const JUNE : Month = Month (6i64) ; pub const JULY : Month = Month (7i64) ; pub const AUGUST : Month = Month (8i64) ; pub const SEPTEMBER : Month = Month (9i64) ; pub const OCTOBER : Month = Month (10i64) ; pub const NOVEMBER : Month = Month (11i64) ; pub const DECEMBER : Month = Month (12i64) ; } impl From < i64 > for Month { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Month > for i64 { # [inline] fn from (v : Month) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PowerState (pub i64) ; impl PowerState { pub const UNKNOWN : PowerState = PowerState (0i64) ; pub const ON_BATTERY : PowerState = PowerState (1i64) ; pub const NO_BATTERY : PowerState = PowerState (2i64) ; pub const CHARGING : PowerState = PowerState (3i64) ; pub const CHARGED : PowerState = PowerState (4i64) ; } impl From < i64 > for PowerState { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PowerState > for i64 { # [inline] fn from (v : PowerState) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ScreenOrientation (pub i64) ; impl ScreenOrientation { pub const LANDSCAPE : ScreenOrientation = ScreenOrientation (0i64) ; pub const PORTRAIT : ScreenOrientation = ScreenOrientation (1i64) ; pub const REVERSE_LANDSCAPE : ScreenOrientation = ScreenOrientation (2i64) ; pub const REVERSE_PORTRAIT : ScreenOrientation = ScreenOrientation (3i64) ; pub const SENSOR_LANDSCAPE : ScreenOrientation = ScreenOrientation (4i64) ; pub const SENSOR_PORTRAIT : ScreenOrientation = ScreenOrientation (5i64) ; pub const SENSOR : ScreenOrientation = ScreenOrientation (6i64) ; } impl From < i64 > for ScreenOrientation { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ScreenOrientation > for i64 { # [inline] fn from (v : ScreenOrientation) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SystemDir (pub i64) ; impl SystemDir { pub const DESKTOP : SystemDir = SystemDir (0i64) ; pub const DCIM : SystemDir = SystemDir (1i64) ; pub const DOCUMENTS : SystemDir = SystemDir (2i64) ; pub const DOWNLOADS : SystemDir = SystemDir (3i64) ; pub const MOVIES : SystemDir = SystemDir (4i64) ; pub const MUSIC : SystemDir = SystemDir (5i64) ; pub const PICTURES : SystemDir = SystemDir (6i64) ; pub const RINGTONES : SystemDir = SystemDir (7i64) ; } impl From < i64 > for SystemDir { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SystemDir > for i64 { # [inline] fn from (v : SystemDir) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct VideoDriver (pub i64) ; impl VideoDriver { pub const GLES3 : VideoDriver = VideoDriver (0i64) ; pub const GLES2 : VideoDriver = VideoDriver (1i64) ; } impl From < i64 > for VideoDriver { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < VideoDriver > for i64 { # [inline] fn from (v : VideoDriver) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Weekday (pub i64) ; impl Weekday { pub const SUNDAY : Weekday = Weekday (0i64) ; pub const MONDAY : Weekday = Weekday (1i64) ; pub const TUESDAY : Weekday = Weekday (2i64) ; pub const WEDNESDAY : Weekday = Weekday (3i64) ; pub const THURSDAY : Weekday = Weekday (4i64) ; pub const FRIDAY : Weekday = Weekday (5i64) ; pub const SATURDAY : Weekday = Weekday (6i64) ; } impl From < i64 > for Weekday { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Weekday > for i64 { # [inline] fn from (v : Weekday) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl OS { pub const APPLICATION_HANDLE : i64 = 0i64 ; pub const DAY_FRIDAY : i64 = 5i64 ; pub const DAY_MONDAY : i64 = 1i64 ; pub const DAY_SATURDAY : i64 = 6i64 ; pub const DAY_SUNDAY : i64 = 0i64 ; pub const DAY_THURSDAY : i64 = 4i64 ; pub const DAY_TUESDAY : i64 = 2i64 ; pub const DAY_WEDNESDAY : i64 = 3i64 ; pub const DISPLAY_HANDLE : i64 = 1i64 ; pub const MONTH_APRIL : i64 = 4i64 ; pub const MONTH_AUGUST : i64 = 8i64 ; pub const MONTH_DECEMBER : i64 = 12i64 ; pub const MONTH_FEBRUARY : i64 = 2i64 ; pub const MONTH_JANUARY : i64 = 1i64 ; pub const MONTH_JULY : i64 = 7i64 ; pub const MONTH_JUNE : i64 = 6i64 ; pub const MONTH_MARCH : i64 = 3i64 ; pub const MONTH_MAY : i64 = 5i64 ; pub const MONTH_NOVEMBER : i64 = 11i64 ; pub const MONTH_OCTOBER : i64 = 10i64 ; pub const MONTH_SEPTEMBER : i64 = 9i64 ; pub const OPENGL_CONTEXT : i64 = 4i64 ; pub const POWERSTATE_CHARGED : i64 = 4i64 ; pub const POWERSTATE_CHARGING : i64 = 3i64 ; pub const POWERSTATE_NO_BATTERY : i64 = 2i64 ; pub const POWERSTATE_ON_BATTERY : i64 = 1i64 ; pub const POWERSTATE_UNKNOWN : i64 = 0i64 ; pub const SCREEN_ORIENTATION_LANDSCAPE : i64 = 0i64 ; pub const SCREEN_ORIENTATION_PORTRAIT : i64 = 1i64 ; pub const SCREEN_ORIENTATION_REVERSE_LANDSCAPE : i64 = 2i64 ; pub const SCREEN_ORIENTATION_REVERSE_PORTRAIT : i64 = 3i64 ; pub const SCREEN_ORIENTATION_SENSOR : i64 = 6i64 ; pub const SCREEN_ORIENTATION_SENSOR_LANDSCAPE : i64 = 4i64 ; pub const SCREEN_ORIENTATION_SENSOR_PORTRAIT : i64 = 5i64 ; pub const SYSTEM_DIR_DCIM : i64 = 1i64 ; pub const SYSTEM_DIR_DESKTOP : i64 = 0i64 ; pub const SYSTEM_DIR_DOCUMENTS : i64 = 2i64 ; pub const SYSTEM_DIR_DOWNLOADS : i64 = 3i64 ; pub const SYSTEM_DIR_MOVIES : i64 = 4i64 ; pub const SYSTEM_DIR_MUSIC : i64 = 5i64 ; pub const SYSTEM_DIR_PICTURES : i64 = 6i64 ; pub const SYSTEM_DIR_RINGTONES : i64 = 7i64 ; pub const VIDEO_DRIVER_GLES2 : i64 = 1i64 ; pub const VIDEO_DRIVER_GLES3 : i64 = 0i64 ; pub const WINDOW_HANDLE : i64 = 2i64 ; pub const WINDOW_VIEW : i64 = 3i64 ; } impl OS { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("OS\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Displays a modal dialog box using the host OS' facilities. Execution is blocked until the dialog is closed.\n# Default Arguments\n* `title` - `\"Alert!\"`"] # [doc = ""] # [inline] pub fn alert (& self , text : impl Into < GodotString > , title : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . alert ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , text . into () , title . into ()) ; } } # [doc = "Returns `true` if the host OS allows drawing."] # [doc = ""] # [inline] pub fn can_draw (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . can_draw ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the current host platform is using multiple threads."] # [doc = ""] # [inline] pub fn can_use_threads (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . can_use_threads ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Centers the window on the screen if in windowed mode."] # [doc = ""] # [inline] pub fn center_window (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . center_window ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Shuts down system MIDI driver.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn close_midi_inputs (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . close_midi_inputs ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Delay execution of the current thread by `msec` milliseconds."] # [doc = ""] # [inline] pub fn delay_msec (& self , msec : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . delay_msec ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , msec) ; } } # [doc = "Delay execution of the current thread by `usec` microseconds."] # [doc = ""] # [inline] pub fn delay_usec (& self , usec : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . delay_usec ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , usec) ; } } # [doc = "Dumps the memory allocation ringlist to a file (only works in debug).\nEntry format per line: \"Address - Size - Description\"."] # [doc = ""] # [inline] pub fn dump_memory_to_file (& self , file : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . dump_memory_to_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , file . into ()) ; } } # [doc = "Dumps all used resources to file (only works in debug).\nEntry format per line: \"Resource Type : Resource Location\".\nAt the end of the file is a statistic of all used Resource Types."] # [doc = ""] # [inline] pub fn dump_resources_to_file (& self , file : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . dump_resources_to_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , file . into ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nExecute the file at the given path with the arguments passed as an array of strings. Platform path resolution will take place. The resolved file must exist and be executable.\nThe arguments are used in the given order and separated by a space, so `OS.execute(\"ping\", [\"-w\", \"3\", \"godotengine.org\"], false)` will resolve to `ping -w 3 godotengine.org` in the system's shell.\nThis method has slightly different behavior based on whether the `blocking` mode is enabled.\nIf `blocking` is `true`, the Godot thread will pause its execution while waiting for the process to terminate. The shell output of the process will be written to the `output` array as a single string. When the process terminates, the Godot thread will resume execution.\nIf `blocking` is `false`, the Godot thread will continue while the new process runs. It is not possible to retrieve the shell output in non-blocking mode, so `output` will be empty.\nThe return value also depends on the blocking mode. When blocking, the method will return an exit code of the process. When non-blocking, the method returns a process ID, which you can use to monitor the process (and potentially terminate it with [method kill]). If the process forking (non-blocking) or opening (blocking) fails, the method will return `-1` or another exit code.\nExample of blocking mode and retrieving the shell output:\n```gdscript\nvar output = []\nvar exit_code = OS.execute(\"ls\", [\"-l\", \"/tmp\"], true, output)\n```\nExample of non-blocking mode, running another instance of the project and storing its process ID:\n```gdscript\nvar pid = OS.execute(OS.get_executable_path(), [], false)\n```\nIf you wish to access a shell built-in or perform a composite command, a platform-specific shell can be invoked. For example:\n```gdscript\nOS.execute(\"CMD.exe\", [\"/C\", \"cd %TEMP% && dir\"], true, output)\n```\n**Note:** This method is implemented on Android, iOS, Linux, macOS and Windows.\n# Default Arguments\n* `blocking` - `true`\n* `output` - `[ ]`\n* `read_stderr` - `false`"] # [doc = ""] # [inline] pub fn execute (& self , path : impl Into < GodotString > , arguments : StringArray , blocking : bool , output : VariantArray , read_stderr : bool) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . execute ; let ret = crate :: icalls :: icallptr_i64_str_strarr_bool_arr_bool (method_bind , self . this . sys () . as_ptr () , path . into () , arguments , blocking , output , read_stderr) ; ret as _ } } # [doc = "Returns the scancode of the given string (e.g. \"Escape\")."] # [doc = ""] # [inline] pub fn find_scancode_from_string (& self , string : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . find_scancode_from_string ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , string . into ()) ; ret as _ } } # [doc = "Returns the total number of available audio drivers."] # [doc = ""] # [inline] pub fn get_audio_driver_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_audio_driver_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the audio driver name for the given index."] # [doc = ""] # [inline] pub fn get_audio_driver_name (& self , driver : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_audio_driver_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , driver) ; GodotString :: from_sys (ret) } } # [doc = "If `true`, removes the window frame.\n**Note:** Setting `window_borderless` to `false` disables per-pixel transparency."] # [doc = ""] # [inline] pub fn borderless_window (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_borderless_window ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The clipboard from the host OS. Might be unavailable on some platforms."] # [doc = ""] # [inline] pub fn clipboard (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_clipboard ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns the command-line arguments passed to the engine.\nCommand-line arguments can be written in any form, including both `--key value` and `--key=value` forms so they can be properly parsed, as long as custom command-line arguments do not conflict with engine arguments.\nYou can also incorporate environment variables using the [method get_environment] method.\nYou can set `editor/main_run_args` in the Project Settings to define command-line arguments to be passed by the editor when running the project.\nHere's a minimal example on how to parse command-line arguments into a dictionary using the `--key=value` form for arguments:\n```gdscript\nvar arguments = {}\nfor argument in OS.get_cmdline_args():\n if argument.find(\"=\") > -1:\n var key_value = argument.split(\"=\")\n arguments[key_value[0].lstrip(\"--\")] = key_value[1]\n```"] # [doc = ""] # [inline] pub fn get_cmdline_args (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_cmdline_args ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns an array of MIDI device names.\nThe returned array will be empty if the system MIDI driver has not previously been initialised with [method open_midi_inputs].\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn get_connected_midi_inputs (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_connected_midi_inputs ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "The current screen index (starting from 0)."] # [doc = ""] # [inline] pub fn current_screen (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_current_screen ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The current tablet drvier in use."] # [doc = ""] # [inline] pub fn current_tablet_driver (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_current_tablet_driver ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the currently used video driver, using one of the values from [enum VideoDriver]."] # [doc = ""] # [inline] pub fn get_current_video_driver (& self) -> crate :: generated :: os :: VideoDriver { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_current_video_driver ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: os :: VideoDriver (ret) } } # [doc = "Returns current date as a dictionary of keys: `year`, `month`, `day`, `weekday`, `dst` (Daylight Savings Time).\n# Default Arguments\n* `utc` - `false`"] # [doc = ""] # [inline] pub fn get_date (& self , utc : bool) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_date ; let ret = crate :: icalls :: icallptr_dict_bool (method_bind , self . this . sys () . as_ptr () , utc) ; Dictionary :: from_sys (ret) } } # [doc = "Returns current datetime as a dictionary of keys: `year`, `month`, `day`, `weekday`, `dst` (Daylight Savings Time), `hour`, `minute`, `second`.\n# Default Arguments\n* `utc` - `false`"] # [doc = ""] # [inline] pub fn get_datetime (& self , utc : bool) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_datetime ; let ret = crate :: icalls :: icallptr_dict_bool (method_bind , self . this . sys () . as_ptr () , utc) ; Dictionary :: from_sys (ret) } } # [doc = "Gets a dictionary of time values corresponding to the given UNIX epoch time (in seconds).\nThe returned Dictionary's values will be the same as [method get_datetime], with the exception of Daylight Savings Time as it cannot be determined from the epoch."] # [doc = ""] # [inline] pub fn get_datetime_from_unix_time (& self , unix_time_val : i64) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_datetime_from_unix_time ; let ret = crate :: icalls :: icallptr_dict_i64 (method_bind , self . this . sys () . as_ptr () , unix_time_val) ; Dictionary :: from_sys (ret) } } # [doc = "Returns the total amount of dynamic memory used (only works in debug)."] # [doc = ""] # [inline] pub fn get_dynamic_memory_usage (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_dynamic_memory_usage ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an environment variable."] # [doc = ""] # [inline] pub fn get_environment (& self , variable : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_environment ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , variable . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the path to the current engine executable."] # [doc = ""] # [inline] pub fn get_executable_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_executable_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The exit code passed to the OS when the main loop exits. By convention, an exit code of `0` indicates success whereas a non-zero exit code indicates an error. For portability reasons, the exit code should be set between 0 and 125 (inclusive).\n**Note:** This value will be ignored if using [method SceneTree.quit] with an `exit_code` argument passed."] # [doc = ""] # [inline] pub fn exit_code (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_exit_code ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "With this function you can get the list of dangerous permissions that have been granted to the Android application.\n**Note:** This method is implemented on Android."] # [doc = ""] # [inline] pub fn get_granted_permissions (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_granted_permissions ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the IME cursor position (the currently-edited portion of the string) relative to the characters in the composition string.\n[constant MainLoop.NOTIFICATION_OS_IME_UPDATE] is sent to the application to notify it of changes to the IME cursor position.\n**Note:** This method is implemented on macOS."] # [doc = ""] # [inline] pub fn get_ime_selection (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_ime_selection ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the IME intermediate composition string.\n[constant MainLoop.NOTIFICATION_OS_IME_UPDATE] is sent to the application to notify it of changes to the IME composition string.\n**Note:** This method is implemented on macOS."] # [doc = ""] # [inline] pub fn get_ime_text (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_ime_text ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the current latin keyboard variant as a String.\nPossible return values are: `\"QWERTY\"`, `\"AZERTY\"`, `\"QZERTY\"`, `\"DVORAK\"`, `\"NEO\"`, `\"COLEMAK\"` or `\"ERROR\"`.\n**Note:** This method is implemented on Linux, macOS and Windows. Returns `\"QWERTY\"` on unsupported platforms."] # [doc = ""] # [inline] pub fn get_latin_keyboard_variant (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_latin_keyboard_variant ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the host OS locale."] # [doc = ""] # [inline] pub fn get_locale (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_locale ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The amount of sleeping between frames when the low-processor usage mode is enabled (in microseconds). Higher values will result in lower CPU usage."] # [doc = ""] # [inline] pub fn low_processor_usage_mode_sleep_usec (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_low_processor_usage_mode_sleep_usec ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum size of the window (without counting window manager decorations). Does not affect fullscreen mode. Set to `(0, 0)` to reset to the system default value."] # [doc = ""] # [inline] pub fn max_window_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_max_window_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The minimum size of the window (without counting window manager decorations). Does not affect fullscreen mode. Set to `(0, 0)` to reset to the system default value."] # [doc = ""] # [inline] pub fn min_window_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_min_window_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the model name of the current device.\n**Note:** This method is implemented on Android and iOS. Returns `\"GenericDevice\"` on unsupported platforms."] # [doc = ""] # [inline] pub fn get_model_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_model_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the name of the host OS. Possible values are: `\"Android\"`, `\"iOS\"`, `\"HTML5\"`, `\"OSX\"`, `\"Server\"`, `\"Windows\"`, `\"UWP\"`, `\"X11\"`."] # [doc = ""] # [inline] pub fn get_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_native_handle (& self , handle_type : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_native_handle ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , handle_type) ; ret as _ } } # [doc = "Returns the amount of battery left in the device as a percentage. Returns `-1` if power state is unknown.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn get_power_percent_left (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_power_percent_left ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an estimate of the time left in seconds before the device runs out of battery. Returns `-1` if power state is unknown.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn get_power_seconds_left (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_power_seconds_left ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the current state of the device regarding battery and power. See [enum PowerState] constants.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn get_power_state (& self) -> crate :: generated :: os :: PowerState { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_power_state ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: os :: PowerState (ret) } } # [doc = "Returns the project's process ID.\n**Note:** This method is implemented on Android, iOS, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn get_process_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_process_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the number of threads available on the host machine."] # [doc = ""] # [inline] pub fn get_processor_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_processor_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the window size including decorations like window borders."] # [doc = ""] # [inline] pub fn get_real_window_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_real_window_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the given scancode as a string (e.g. Return values: `\"Escape\"`, `\"Shift+Escape\"`).\nSee also [member InputEventKey.scancode] and [method InputEventKey.get_scancode_with_modifiers]."] # [doc = ""] # [inline] pub fn get_scancode_string (& self , code : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_scancode_string ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , code) ; GodotString :: from_sys (ret) } } # [doc = "Returns the number of displays attached to the host machine."] # [doc = ""] # [inline] pub fn get_screen_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_screen_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns the dots per inch density of the specified screen. If `screen` is `-1` (the default value), the current screen will be used.\nOn Android devices, the actual screen densities are grouped into six generalized densities:\n```gdscript\n ldpi - 120 dpi\n mdpi - 160 dpi\n hdpi - 240 dpi\n xhdpi - 320 dpi\n xxhdpi - 480 dpi\nxxxhdpi - 640 dpi\n```\n**Note:** This method is implemented on Android, Linux, macOS and Windows. Returns `72` on unsupported platforms.\n# Default Arguments\n* `screen` - `-1`"] # [doc = ""] # [inline] pub fn get_screen_dpi (& self , screen : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_screen_dpi ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , screen) ; ret as _ } } # [doc = "Return the greatest scale factor of all screens.\n**Note:** On macOS returned value is `2.0` if there is at least one hiDPI (Retina) screen in the system, and `1.0` in all other cases.\n**Note:** This method is implemented on macOS."] # [doc = ""] # [inline] pub fn get_screen_max_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_screen_max_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The current screen orientation."] # [doc = ""] # [inline] pub fn screen_orientation (& self) -> crate :: generated :: os :: ScreenOrientation { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_screen_orientation ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: os :: ScreenOrientation (ret) } } # [doc = "Returns the position of the specified screen by index. If `screen` is `-1` (the default value), the current screen will be used.\n# Default Arguments\n* `screen` - `-1`"] # [doc = ""] # [inline] pub fn get_screen_position (& self , screen : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_screen_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , screen) ; mem :: transmute (ret) } } # [doc = "Return the scale factor of the specified screen by index. If `screen` is `-1` (the default value), the current screen will be used.\n**Note:** On macOS returned value is `2.0` for hiDPI (Retina) screen, and `1.0` for all other cases.\n**Note:** This method is implemented on macOS.\n# Default Arguments\n* `screen` - `-1`"] # [doc = ""] # [inline] pub fn get_screen_scale (& self , screen : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_screen_scale ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , screen) ; ret as _ } } # [doc = "Returns the dimensions in pixels of the specified screen. If `screen` is `-1` (the default value), the current screen will be used.\n# Default Arguments\n* `screen` - `-1`"] # [doc = ""] # [inline] pub fn get_screen_size (& self , screen : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_screen_size ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , screen) ; mem :: transmute (ret) } } # [doc = "Returns the amount of time in milliseconds it took for the boot logo to appear."] # [doc = ""] # [inline] pub fn get_splash_tick_msec (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_splash_tick_msec ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the maximum amount of static memory used (only works in debug)."] # [doc = ""] # [inline] pub fn get_static_memory_peak_usage (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_static_memory_peak_usage ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the amount of static memory being used by the program in bytes."] # [doc = ""] # [inline] pub fn get_static_memory_usage (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_static_memory_usage ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the actual path to commonly used folders across different platforms. Available locations are specified in [enum SystemDir].\n**Note:** This method is implemented on Android, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn get_system_dir (& self , dir : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_system_dir ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , dir) ; GodotString :: from_sys (ret) } } # [doc = "Returns the epoch time of the operating system in milliseconds."] # [doc = ""] # [inline] pub fn get_system_time_msecs (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_system_time_msecs ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the epoch time of the operating system in seconds."] # [doc = ""] # [inline] pub fn get_system_time_secs (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_system_time_secs ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the total number of available tablet drivers.\n**Note:** This method is implemented on Windows."] # [doc = ""] # [inline] pub fn get_tablet_driver_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_tablet_driver_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the tablet driver name for the given index.\n**Note:** This method is implemented on Windows."] # [doc = ""] # [inline] pub fn get_tablet_driver_name (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_tablet_driver_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_thread_caller_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_thread_caller_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the amount of time passed in milliseconds since the engine started."] # [doc = ""] # [inline] pub fn get_ticks_msec (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_ticks_msec ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the amount of time passed in microseconds since the engine started."] # [doc = ""] # [inline] pub fn get_ticks_usec (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_ticks_usec ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns current time as a dictionary of keys: hour, minute, second.\n# Default Arguments\n* `utc` - `false`"] # [doc = ""] # [inline] pub fn get_time (& self , utc : bool) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_time ; let ret = crate :: icalls :: icallptr_dict_bool (method_bind , self . this . sys () . as_ptr () , utc) ; Dictionary :: from_sys (ret) } } # [doc = "Returns the current time zone as a dictionary with the keys: bias and name."] # [doc = ""] # [inline] pub fn get_time_zone_info (& self) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_time_zone_info ; let ret = crate :: icalls :: icallptr_dict (method_bind , self . this . sys () . as_ptr ()) ; Dictionary :: from_sys (ret) } } # [doc = "Returns a string that is unique to the device.\n**Note:** Returns an empty string on HTML5 and UWP, as this method isn't implemented on those platforms yet."] # [doc = ""] # [inline] pub fn get_unique_id (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_unique_id ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the current UNIX epoch timestamp."] # [doc = ""] # [inline] pub fn get_unix_time (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_unix_time ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets an epoch time value from a dictionary of time values.\n`datetime` must be populated with the following keys: `year`, `month`, `day`, `hour`, `minute`, `second`.\nYou can pass the output from [method get_datetime_from_unix_time] directly into this function. Daylight Savings Time (`dst`), if present, is ignored."] # [doc = ""] # [inline] pub fn get_unix_time_from_datetime (& self , datetime : Dictionary) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_unix_time_from_datetime ; let ret = crate :: icalls :: icallptr_i64_dict (method_bind , self . this . sys () . as_ptr () , datetime) ; ret as _ } } # [doc = "Returns the absolute directory path where user data is written (`user://`).\nOn Linux, this is `~/.local/share/godot/app_userdata/[project_name]`, or `~/.local/share/[custom_name]` if `use_custom_user_dir` is set.\nOn macOS, this is `~/Library/Application Support/Godot/app_userdata/[project_name]`, or `~/Library/Application Support/[custom_name]` if `use_custom_user_dir` is set.\nOn Windows, this is `%APPDATA%\\Godot\\app_userdata\\[project_name]`, or `%APPDATA%\\[custom_name]` if `use_custom_user_dir` is set. `%APPDATA%` expands to `%USERPROFILE%\\AppData\\Roaming`.\nIf the project name is empty, `user://` falls back to `res://`."] # [doc = ""] # [inline] pub fn get_user_data_dir (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_user_data_dir ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the number of video drivers supported on the current platform."] # [doc = ""] # [inline] pub fn get_video_driver_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_video_driver_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the name of the video driver matching the given `driver` index. This index is a value from [enum VideoDriver], and you can use [method get_current_video_driver] to get the current backend's index."] # [doc = ""] # [inline] pub fn get_video_driver_name (& self , driver : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_video_driver_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , driver) ; GodotString :: from_sys (ret) } } # [doc = "Returns the on-screen keyboard's height in pixels. Returns 0 if there is no keyboard or if it is currently hidden."] # [doc = ""] # [inline] pub fn get_virtual_keyboard_height (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_virtual_keyboard_height ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the window background is transparent and window frame is removed.\nUse `get_tree().get_root().set_transparent_background(true)` to disable main viewport background rendering.\n**Note:** This property has no effect if **Project > Project Settings > Display > Window > Per-pixel transparency > Allowed** setting is disabled.\n**Note:** This property is implemented on HTML5, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn window_per_pixel_transparency_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_window_per_pixel_transparency_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The window position relative to the screen, the origin is the top left corner, +Y axis goes to the bottom and +X axis goes to the right."] # [doc = ""] # [inline] pub fn window_position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_window_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns unobscured area of the window where interactive controls should be rendered."] # [doc = ""] # [inline] pub fn get_window_safe_area (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_window_safe_area ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The size of the window (without counting window manager decorations)."] # [doc = ""] # [inline] pub fn window_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . get_window_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Add a new item with text \"label\" to global menu. Use \"_dock\" menu to add item to the macOS dock icon menu.\n**Note:** This method is implemented on macOS."] # [doc = ""] # [inline] pub fn global_menu_add_item (& self , menu : impl Into < GodotString > , label : impl Into < GodotString > , id : impl OwnedToVariant , meta : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . global_menu_add_item ; let ret = crate :: icalls :: icallptr_void_str_str_var_var (method_bind , self . this . sys () . as_ptr () , menu . into () , label . into () , id . owned_to_variant () , meta . owned_to_variant ()) ; } } # [doc = "Add a separator between items. Separators also occupy an index.\n**Note:** This method is implemented on macOS."] # [doc = ""] # [inline] pub fn global_menu_add_separator (& self , menu : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . global_menu_add_separator ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , menu . into ()) ; } } # [doc = "Clear the global menu, in effect removing all items.\n**Note:** This method is implemented on macOS."] # [doc = ""] # [inline] pub fn global_menu_clear (& self , menu : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . global_menu_clear ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , menu . into ()) ; } } # [doc = "Removes the item at index \"idx\" from the global menu. Note that the indexes of items after the removed item are going to be shifted by one.\n**Note:** This method is implemented on macOS."] # [doc = ""] # [inline] pub fn global_menu_remove_item (& self , menu : impl Into < GodotString > , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . global_menu_remove_item ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , menu . into () , idx) ; } } # [doc = "Returns `true` if an environment variable exists."] # [doc = ""] # [inline] pub fn has_environment (& self , variable : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . has_environment ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , variable . into ()) ; ret as _ } } # [doc = "Returns `true` if the feature for the given feature tag is supported in the currently running instance, depending on platform, build etc. Can be used to check whether you're currently running a debug build, on a certain platform or arch, etc. Refer to the [url=https://docs.godotengine.org/en/latest/getting_started/workflow/export/feature_tags.html]Feature Tags[/url] documentation for more details.\n**Note:** Tag names are case-sensitive."] # [doc = ""] # [inline] pub fn has_feature (& self , tag_name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . has_feature ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , tag_name . into ()) ; ret as _ } } # [doc = "Returns `true` if the device has a touchscreen or emulates one."] # [doc = ""] # [inline] pub fn has_touchscreen_ui_hint (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . has_touchscreen_ui_hint ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the platform has a virtual keyboard, `false` otherwise."] # [doc = ""] # [inline] pub fn has_virtual_keyboard (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . has_virtual_keyboard ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Hides the virtual keyboard if it is shown, does nothing otherwise."] # [doc = ""] # [inline] pub fn hide_virtual_keyboard (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . hide_virtual_keyboard ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns `true` if the Godot binary used to run the project is a [i]debug[/i] export template, or when running in the editor.\nReturns `false` if the Godot binary used to run the project is a [i]release[/i] export template.\nTo check whether the Godot binary used to run the project is an export template (debug or release), use `OS.has_feature(\"standalone\")` instead."] # [doc = ""] # [inline] pub fn is_debug_build (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_debug_build ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the engine optimizes for low processor usage by only refreshing the screen if needed. Can improve battery consumption on mobile."] # [doc = ""] # [inline] pub fn is_in_low_processor_usage_mode (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_in_low_processor_usage_mode ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the engine tries to keep the screen on while the game is running. Useful on mobile."] # [doc = ""] # [inline] pub fn is_keep_screen_on (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_keep_screen_on ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the **OK** button should appear on the left and **Cancel** on the right."] # [doc = ""] # [inline] pub fn is_ok_left_and_cancel_right (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_ok_left_and_cancel_right ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the input scancode corresponds to a Unicode character."] # [doc = ""] # [inline] pub fn is_scancode_unicode (& self , code : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_scancode_unicode ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , code) ; ret as _ } } # [doc = "Returns `true` if the engine was executed with `-v` (verbose stdout)."] # [doc = ""] # [inline] pub fn is_stdout_verbose (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_stdout_verbose ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the `user://` file system is persistent, so that its state is the same after a player quits and starts the game again. Relevant to the HTML5 platform, where this persistence may be unavailable."] # [doc = ""] # [inline] pub fn is_userfs_persistent (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_userfs_persistent ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, vertical synchronization (Vsync) is enabled."] # [doc = ""] # [inline] pub fn is_vsync_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_vsync_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true` and `vsync_enabled` is true, the operating system's window compositor will be used for vsync when the compositor is enabled and the game is in windowed mode.\n**Note:** This option is experimental and meant to alleviate stutter experienced by some users. However, some users have experienced a Vsync framerate halving (e.g. from 60 FPS to 30 FPS) when using it.\n**Note:** This property is only implemented on Windows."] # [doc = ""] # [inline] pub fn is_vsync_via_compositor_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_vsync_via_compositor_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the window should always be on top of other windows."] # [doc = ""] # [inline] pub fn is_window_always_on_top (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_window_always_on_top ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the window is currently focused.\n**Note:** Only implemented on desktop platforms. On other platforms, it will always return `true`."] # [doc = ""] # [inline] pub fn is_window_focused (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_window_focused ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the window is fullscreen."] # [doc = ""] # [inline] pub fn is_window_fullscreen (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_window_fullscreen ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the window is maximized."] # [doc = ""] # [inline] pub fn is_window_maximized (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_window_maximized ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the window is minimized."] # [doc = ""] # [inline] pub fn is_window_minimized (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_window_minimized ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the window is resizable by the user."] # [doc = ""] # [inline] pub fn is_window_resizable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . is_window_resizable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns active keyboard layout index.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn keyboard_get_current_layout (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . keyboard_get_current_layout ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the number of keyboard layouts.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn keyboard_get_layout_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . keyboard_get_layout_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the ISO-639/BCP-47 language code of the keyboard layout at position `index`.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn keyboard_get_layout_language (& self , index : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . keyboard_get_layout_language ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , index) ; GodotString :: from_sys (ret) } } # [doc = "Returns the localized name of the keyboard layout at position `index`.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn keyboard_get_layout_name (& self , index : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . keyboard_get_layout_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , index) ; GodotString :: from_sys (ret) } } # [doc = "Sets active keyboard layout.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn keyboard_set_current_layout (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . keyboard_set_current_layout ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "Kill (terminate) the process identified by the given process ID (`pid`), e.g. the one returned by [method execute] in non-blocking mode.\n**Note:** This method can also be used to kill processes that were not spawned by the game.\n**Note:** This method is implemented on Android, iOS, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn kill (& self , pid : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . kill ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , pid) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Moves the window to the front.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn move_window_to_foreground (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . move_window_to_foreground ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns `true` if native video is playing.\n**Note:** This method is implemented on Android and iOS."] # [doc = ""] # [inline] pub fn native_video_is_playing (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . native_video_is_playing ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Pauses native video playback.\n**Note:** This method is implemented on Android and iOS."] # [doc = ""] # [inline] pub fn native_video_pause (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . native_video_pause ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Plays native video from the specified path, at the given volume and with audio and subtitle tracks.\n**Note:** This method is implemented on Android and iOS, and the current Android implementation does not support the `volume`, `audio_track` and `subtitle_track` options."] # [doc = ""] # [inline] pub fn native_video_play (& self , path : impl Into < GodotString > , volume : f64 , audio_track : impl Into < GodotString > , subtitle_track : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . native_video_play ; let ret = crate :: icalls :: icallptr_i64_str_f64_str_str (method_bind , self . this . sys () . as_ptr () , path . into () , volume , audio_track . into () , subtitle_track . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Stops native video playback.\n**Note:** This method is implemented on Android and iOS."] # [doc = ""] # [inline] pub fn native_video_stop (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . native_video_stop ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Resumes native video playback.\n**Note:** This method is implemented on Android and iOS."] # [doc = ""] # [inline] pub fn native_video_unpause (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . native_video_unpause ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Initialises the singleton for the system MIDI driver.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn open_midi_inputs (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . open_midi_inputs ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Shows all resources in the game. Optionally, the list can be written to a file by specifying a file path in `tofile`.\n# Default Arguments\n* `tofile` - `\"\"`"] # [doc = ""] # [inline] pub fn print_all_resources (& self , tofile : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . print_all_resources ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , tofile . into ()) ; } } # [doc = "Shows the list of loaded textures sorted by size in memory."] # [doc = ""] # [inline] pub fn print_all_textures_by_size (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . print_all_textures_by_size ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Shows the number of resources loaded by the game of the given types."] # [doc = ""] # [inline] pub fn print_resources_by_type (& self , types : StringArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . print_resources_by_type ; let ret = crate :: icalls :: icallptr_void_strarr (method_bind , self . this . sys () . as_ptr () , types) ; } } # [doc = "Shows all resources currently used by the game.\n# Default Arguments\n* `short` - `false`"] # [doc = ""] # [inline] pub fn print_resources_in_use (& self , short : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . print_resources_in_use ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , short) ; } } # [doc = "Request the user attention to the window. It'll flash the taskbar button on Windows or bounce the dock icon on OSX.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn request_attention (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . request_attention ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "At the moment this function is only used by `AudioDriverOpenSL` to request permission for `RECORD_AUDIO` on Android."] # [doc = ""] # [inline] pub fn request_permission (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . request_permission ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "With this function you can request dangerous permissions since normal permissions are automatically granted at install time in Android application.\n**Note:** This method is implemented on Android."] # [doc = ""] # [inline] pub fn request_permissions (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . request_permissions ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, removes the window frame.\n**Note:** Setting `window_borderless` to `false` disables per-pixel transparency."] # [doc = ""] # [inline] pub fn set_borderless_window (& self , borderless : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_borderless_window ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , borderless) ; } } # [doc = "The clipboard from the host OS. Might be unavailable on some platforms."] # [doc = ""] # [inline] pub fn set_clipboard (& self , clipboard : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_clipboard ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , clipboard . into ()) ; } } # [doc = "The current screen index (starting from 0)."] # [doc = ""] # [inline] pub fn set_current_screen (& self , screen : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_current_screen ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , screen) ; } } # [doc = "The current tablet drvier in use."] # [doc = ""] # [inline] pub fn set_current_tablet_driver (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_current_tablet_driver ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_environment (& self , variable : impl Into < GodotString > , value : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_environment ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , variable . into () , value . into ()) ; ret as _ } } # [doc = "The exit code passed to the OS when the main loop exits. By convention, an exit code of `0` indicates success whereas a non-zero exit code indicates an error. For portability reasons, the exit code should be set between 0 and 125 (inclusive).\n**Note:** This value will be ignored if using [method SceneTree.quit] with an `exit_code` argument passed."] # [doc = ""] # [inline] pub fn set_exit_code (& self , code : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_exit_code ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , code) ; } } # [doc = "Sets the game's icon using an [Image] resource.\nThe same image is used for window caption, taskbar/dock and window selection dialog. Image is scaled as needed.\n**Note:** This method is implemented on HTML5, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn set_icon (& self , icon : impl AsArg < crate :: generated :: image :: Image >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_icon ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , icon . as_arg_ptr ()) ; } } # [doc = "Sets whether IME input mode should be enabled.\nIf active IME handles key events before the application and creates an composition string and suggestion list.\nApplication can retrieve the composition status by using [method get_ime_selection] and [method get_ime_text] functions.\nCompleted composition string is committed when input is finished.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn set_ime_active (& self , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_ime_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , active) ; } } # [doc = "Sets position of IME suggestion list popup (in window coordinates).\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn set_ime_position (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_ime_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "If `true`, the engine tries to keep the screen on while the game is running. Useful on mobile."] # [doc = ""] # [inline] pub fn set_keep_screen_on (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_keep_screen_on ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the engine optimizes for low processor usage by only refreshing the screen if needed. Can improve battery consumption on mobile."] # [doc = ""] # [inline] pub fn set_low_processor_usage_mode (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_low_processor_usage_mode ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The amount of sleeping between frames when the low-processor usage mode is enabled (in microseconds). Higher values will result in lower CPU usage."] # [doc = ""] # [inline] pub fn set_low_processor_usage_mode_sleep_usec (& self , usec : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_low_processor_usage_mode_sleep_usec ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , usec) ; } } # [doc = "The maximum size of the window (without counting window manager decorations). Does not affect fullscreen mode. Set to `(0, 0)` to reset to the system default value."] # [doc = ""] # [inline] pub fn set_max_window_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_max_window_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "The minimum size of the window (without counting window manager decorations). Does not affect fullscreen mode. Set to `(0, 0)` to reset to the system default value."] # [doc = ""] # [inline] pub fn set_min_window_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_min_window_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Sets the game's icon using a multi-size platform-specific icon file (`*.ico` on Windows and `*.icns` on macOS).\nAppropriate size sub-icons are used for window caption, taskbar/dock and window selection dialog.\n**Note:** This method is implemented on macOS and Windows."] # [doc = ""] # [inline] pub fn set_native_icon (& self , filename : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_native_icon ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , filename . into ()) ; } } # [doc = "The current screen orientation."] # [doc = ""] # [inline] pub fn set_screen_orientation (& self , orientation : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_screen_orientation ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , orientation) ; } } # [doc = "Sets the name of the current thread."] # [doc = ""] # [inline] pub fn set_thread_name (& self , name : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_thread_name ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Enables backup saves if `enabled` is `true`."] # [doc = ""] # [inline] pub fn set_use_file_access_save_and_swap (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_use_file_access_save_and_swap ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, vertical synchronization (Vsync) is enabled."] # [doc = ""] # [inline] pub fn set_use_vsync (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_use_vsync ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true` and `vsync_enabled` is true, the operating system's window compositor will be used for vsync when the compositor is enabled and the game is in windowed mode.\n**Note:** This option is experimental and meant to alleviate stutter experienced by some users. However, some users have experienced a Vsync framerate halving (e.g. from 60 FPS to 30 FPS) when using it.\n**Note:** This property is only implemented on Windows."] # [doc = ""] # [inline] pub fn set_vsync_via_compositor (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_vsync_via_compositor ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets whether the window should always be on top.\n**Note:** This method is implemented on Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn set_window_always_on_top (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_always_on_top ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the window is fullscreen."] # [doc = ""] # [inline] pub fn set_window_fullscreen (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_fullscreen ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the window is maximized."] # [doc = ""] # [inline] pub fn set_window_maximized (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_maximized ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the window is minimized."] # [doc = ""] # [inline] pub fn set_window_minimized (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_minimized ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_window_mouse_passthrough (& self , region : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_mouse_passthrough ; let ret = crate :: icalls :: icallptr_void_vec2arr (method_bind , self . this . sys () . as_ptr () , region) ; } } # [doc = "If `true`, the window background is transparent and window frame is removed.\nUse `get_tree().get_root().set_transparent_background(true)` to disable main viewport background rendering.\n**Note:** This property has no effect if **Project > Project Settings > Display > Window > Per-pixel transparency > Allowed** setting is disabled.\n**Note:** This property is implemented on HTML5, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn set_window_per_pixel_transparency_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_per_pixel_transparency_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The window position relative to the screen, the origin is the top left corner, +Y axis goes to the bottom and +X axis goes to the right."] # [doc = ""] # [inline] pub fn set_window_position (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "If `true`, the window is resizable by the user."] # [doc = ""] # [inline] pub fn set_window_resizable (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_resizable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The size of the window (without counting window manager decorations)."] # [doc = ""] # [inline] pub fn set_window_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Sets the window title to the specified string.\n**Note:** This should be used sporadically. Don't set this every frame, as that will negatively affect performance on some window managers.\n**Note:** This method is implemented on HTML5, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn set_window_title (& self , title : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . set_window_title ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , title . into ()) ; } } # [doc = "Requests the OS to open a resource with the most appropriate program. For example:\n- `OS.shell_open(\"C:\\\\Users\\name\\Downloads\")` on Windows opens the file explorer at the user's Downloads folder.\n- `OS.shell_open(\"https://godotengine.org\")` opens the default web browser on the official Godot website.\n- `OS.shell_open(\"mailto:example@example.com\")` opens the default email client with the \"To\" field set to `example@example.com`. See [url=https://blog.escapecreative.com/customizing-mailto-links/]Customizing `mailto:` Links[/url] for a list of fields that can be added.\nUse [method ProjectSettings.globalize_path] to convert a `res://` or `user://` path into a system path for use with this method.\n**Note:** This method is implemented on Android, iOS, HTML5, Linux, macOS and Windows."] # [doc = ""] # [inline] pub fn shell_open (& self , uri : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . shell_open ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , uri . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Shows the virtual keyboard if the platform has one.\nThe `existing_text` parameter is useful for implementing your own [LineEdit] or [TextEdit], as it tells the virtual keyboard what text has already been typed (the virtual keyboard uses it for auto-correct and predictions).\nThe `multiline` parameter needs to be set to `true` to be able to enter multiple lines of text, as in [TextEdit].\n**Note:** This method is implemented on Android, iOS and UWP.\n# Default Arguments\n* `existing_text` - `\"\"`\n* `multiline` - `false`"] # [doc = ""] # [inline] pub fn show_virtual_keyboard (& self , existing_text : impl Into < GodotString > , multiline : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OSMethodTable :: get (get_api ()) . show_virtual_keyboard ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , existing_text . into () , multiline) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for OS { } unsafe impl GodotObject for OS { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "OS" } } impl std :: ops :: Deref for OS { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for OS { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for OS { } unsafe impl Send for OS { } unsafe impl Sync for OS { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct OSMethodTable { pub class_constructor : sys :: godot_class_constructor , pub alert : * mut sys :: godot_method_bind , pub can_draw : * mut sys :: godot_method_bind , pub can_use_threads : * mut sys :: godot_method_bind , pub center_window : * mut sys :: godot_method_bind , pub close_midi_inputs : * mut sys :: godot_method_bind , pub delay_msec : * mut sys :: godot_method_bind , pub delay_usec : * mut sys :: godot_method_bind , pub dump_memory_to_file : * mut sys :: godot_method_bind , pub dump_resources_to_file : * mut sys :: godot_method_bind , pub execute : * mut sys :: godot_method_bind , pub find_scancode_from_string : * mut sys :: godot_method_bind , pub get_audio_driver_count : * mut sys :: godot_method_bind , pub get_audio_driver_name : * mut sys :: godot_method_bind , pub get_borderless_window : * mut sys :: godot_method_bind , pub get_clipboard : * mut sys :: godot_method_bind , pub get_cmdline_args : * mut sys :: godot_method_bind , pub get_connected_midi_inputs : * mut sys :: godot_method_bind , pub get_current_screen : * mut sys :: godot_method_bind , pub get_current_tablet_driver : * mut sys :: godot_method_bind , pub get_current_video_driver : * mut sys :: godot_method_bind , pub get_date : * mut sys :: godot_method_bind , pub get_datetime : * mut sys :: godot_method_bind , pub get_datetime_from_unix_time : * mut sys :: godot_method_bind , pub get_dynamic_memory_usage : * mut sys :: godot_method_bind , pub get_environment : * mut sys :: godot_method_bind , pub get_executable_path : * mut sys :: godot_method_bind , pub get_exit_code : * mut sys :: godot_method_bind , pub get_granted_permissions : * mut sys :: godot_method_bind , pub get_ime_selection : * mut sys :: godot_method_bind , pub get_ime_text : * mut sys :: godot_method_bind , pub get_latin_keyboard_variant : * mut sys :: godot_method_bind , pub get_locale : * mut sys :: godot_method_bind , pub get_low_processor_usage_mode_sleep_usec : * mut sys :: godot_method_bind , pub get_max_window_size : * mut sys :: godot_method_bind , pub get_min_window_size : * mut sys :: godot_method_bind , pub get_model_name : * mut sys :: godot_method_bind , pub get_name : * mut sys :: godot_method_bind , pub get_native_handle : * mut sys :: godot_method_bind , pub get_power_percent_left : * mut sys :: godot_method_bind , pub get_power_seconds_left : * mut sys :: godot_method_bind , pub get_power_state : * mut sys :: godot_method_bind , pub get_process_id : * mut sys :: godot_method_bind , pub get_processor_count : * mut sys :: godot_method_bind , pub get_real_window_size : * mut sys :: godot_method_bind , pub get_scancode_string : * mut sys :: godot_method_bind , pub get_screen_count : * mut sys :: godot_method_bind , pub get_screen_dpi : * mut sys :: godot_method_bind , pub get_screen_max_scale : * mut sys :: godot_method_bind , pub get_screen_orientation : * mut sys :: godot_method_bind , pub get_screen_position : * mut sys :: godot_method_bind , pub get_screen_scale : * mut sys :: godot_method_bind , pub get_screen_size : * mut sys :: godot_method_bind , pub get_splash_tick_msec : * mut sys :: godot_method_bind , pub get_static_memory_peak_usage : * mut sys :: godot_method_bind , pub get_static_memory_usage : * mut sys :: godot_method_bind , pub get_system_dir : * mut sys :: godot_method_bind , pub get_system_time_msecs : * mut sys :: godot_method_bind , pub get_system_time_secs : * mut sys :: godot_method_bind , pub get_tablet_driver_count : * mut sys :: godot_method_bind , pub get_tablet_driver_name : * mut sys :: godot_method_bind , pub get_thread_caller_id : * mut sys :: godot_method_bind , pub get_ticks_msec : * mut sys :: godot_method_bind , pub get_ticks_usec : * mut sys :: godot_method_bind , pub get_time : * mut sys :: godot_method_bind , pub get_time_zone_info : * mut sys :: godot_method_bind , pub get_unique_id : * mut sys :: godot_method_bind , pub get_unix_time : * mut sys :: godot_method_bind , pub get_unix_time_from_datetime : * mut sys :: godot_method_bind , pub get_user_data_dir : * mut sys :: godot_method_bind , pub get_video_driver_count : * mut sys :: godot_method_bind , pub get_video_driver_name : * mut sys :: godot_method_bind , pub get_virtual_keyboard_height : * mut sys :: godot_method_bind , pub get_window_per_pixel_transparency_enabled : * mut sys :: godot_method_bind , pub get_window_position : * mut sys :: godot_method_bind , pub get_window_safe_area : * mut sys :: godot_method_bind , pub get_window_size : * mut sys :: godot_method_bind , pub global_menu_add_item : * mut sys :: godot_method_bind , pub global_menu_add_separator : * mut sys :: godot_method_bind , pub global_menu_clear : * mut sys :: godot_method_bind , pub global_menu_remove_item : * mut sys :: godot_method_bind , pub has_environment : * mut sys :: godot_method_bind , pub has_feature : * mut sys :: godot_method_bind , pub has_touchscreen_ui_hint : * mut sys :: godot_method_bind , pub has_virtual_keyboard : * mut sys :: godot_method_bind , pub hide_virtual_keyboard : * mut sys :: godot_method_bind , pub is_debug_build : * mut sys :: godot_method_bind , pub is_in_low_processor_usage_mode : * mut sys :: godot_method_bind , pub is_keep_screen_on : * mut sys :: godot_method_bind , pub is_ok_left_and_cancel_right : * mut sys :: godot_method_bind , pub is_scancode_unicode : * mut sys :: godot_method_bind , pub is_stdout_verbose : * mut sys :: godot_method_bind , pub is_userfs_persistent : * mut sys :: godot_method_bind , pub is_vsync_enabled : * mut sys :: godot_method_bind , pub is_vsync_via_compositor_enabled : * mut sys :: godot_method_bind , pub is_window_always_on_top : * mut sys :: godot_method_bind , pub is_window_focused : * mut sys :: godot_method_bind , pub is_window_fullscreen : * mut sys :: godot_method_bind , pub is_window_maximized : * mut sys :: godot_method_bind , pub is_window_minimized : * mut sys :: godot_method_bind , pub is_window_resizable : * mut sys :: godot_method_bind , pub keyboard_get_current_layout : * mut sys :: godot_method_bind , pub keyboard_get_layout_count : * mut sys :: godot_method_bind , pub keyboard_get_layout_language : * mut sys :: godot_method_bind , pub keyboard_get_layout_name : * mut sys :: godot_method_bind , pub keyboard_set_current_layout : * mut sys :: godot_method_bind , pub kill : * mut sys :: godot_method_bind , pub move_window_to_foreground : * mut sys :: godot_method_bind , pub native_video_is_playing : * mut sys :: godot_method_bind , pub native_video_pause : * mut sys :: godot_method_bind , pub native_video_play : * mut sys :: godot_method_bind , pub native_video_stop : * mut sys :: godot_method_bind , pub native_video_unpause : * mut sys :: godot_method_bind , pub open_midi_inputs : * mut sys :: godot_method_bind , pub print_all_resources : * mut sys :: godot_method_bind , pub print_all_textures_by_size : * mut sys :: godot_method_bind , pub print_resources_by_type : * mut sys :: godot_method_bind , pub print_resources_in_use : * mut sys :: godot_method_bind , pub request_attention : * mut sys :: godot_method_bind , pub request_permission : * mut sys :: godot_method_bind , pub request_permissions : * mut sys :: godot_method_bind , pub set_borderless_window : * mut sys :: godot_method_bind , pub set_clipboard : * mut sys :: godot_method_bind , pub set_current_screen : * mut sys :: godot_method_bind , pub set_current_tablet_driver : * mut sys :: godot_method_bind , pub set_environment : * mut sys :: godot_method_bind , pub set_exit_code : * mut sys :: godot_method_bind , pub set_icon : * mut sys :: godot_method_bind , pub set_ime_active : * mut sys :: godot_method_bind , pub set_ime_position : * mut sys :: godot_method_bind , pub set_keep_screen_on : * mut sys :: godot_method_bind , pub set_low_processor_usage_mode : * mut sys :: godot_method_bind , pub set_low_processor_usage_mode_sleep_usec : * mut sys :: godot_method_bind , pub set_max_window_size : * mut sys :: godot_method_bind , pub set_min_window_size : * mut sys :: godot_method_bind , pub set_native_icon : * mut sys :: godot_method_bind , pub set_screen_orientation : * mut sys :: godot_method_bind , pub set_thread_name : * mut sys :: godot_method_bind , pub set_use_file_access_save_and_swap : * mut sys :: godot_method_bind , pub set_use_vsync : * mut sys :: godot_method_bind , pub set_vsync_via_compositor : * mut sys :: godot_method_bind , pub set_window_always_on_top : * mut sys :: godot_method_bind , pub set_window_fullscreen : * mut sys :: godot_method_bind , pub set_window_maximized : * mut sys :: godot_method_bind , pub set_window_minimized : * mut sys :: godot_method_bind , pub set_window_mouse_passthrough : * mut sys :: godot_method_bind , pub set_window_per_pixel_transparency_enabled : * mut sys :: godot_method_bind , pub set_window_position : * mut sys :: godot_method_bind , pub set_window_resizable : * mut sys :: godot_method_bind , pub set_window_size : * mut sys :: godot_method_bind , pub set_window_title : * mut sys :: godot_method_bind , pub shell_open : * mut sys :: godot_method_bind , pub show_virtual_keyboard : * mut sys :: godot_method_bind } impl OSMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : OSMethodTable = OSMethodTable { class_constructor : None , alert : 0 as * mut sys :: godot_method_bind , can_draw : 0 as * mut sys :: godot_method_bind , can_use_threads : 0 as * mut sys :: godot_method_bind , center_window : 0 as * mut sys :: godot_method_bind , close_midi_inputs : 0 as * mut sys :: godot_method_bind , delay_msec : 0 as * mut sys :: godot_method_bind , delay_usec : 0 as * mut sys :: godot_method_bind , dump_memory_to_file : 0 as * mut sys :: godot_method_bind , dump_resources_to_file : 0 as * mut sys :: godot_method_bind , execute : 0 as * mut sys :: godot_method_bind , find_scancode_from_string : 0 as * mut sys :: godot_method_bind , get_audio_driver_count : 0 as * mut sys :: godot_method_bind , get_audio_driver_name : 0 as * mut sys :: godot_method_bind , get_borderless_window : 0 as * mut sys :: godot_method_bind , get_clipboard : 0 as * mut sys :: godot_method_bind , get_cmdline_args : 0 as * mut sys :: godot_method_bind , get_connected_midi_inputs : 0 as * mut sys :: godot_method_bind , get_current_screen : 0 as * mut sys :: godot_method_bind , get_current_tablet_driver : 0 as * mut sys :: godot_method_bind , get_current_video_driver : 0 as * mut sys :: godot_method_bind , get_date : 0 as * mut sys :: godot_method_bind , get_datetime : 0 as * mut sys :: godot_method_bind , get_datetime_from_unix_time : 0 as * mut sys :: godot_method_bind , get_dynamic_memory_usage : 0 as * mut sys :: godot_method_bind , get_environment : 0 as * mut sys :: godot_method_bind , get_executable_path : 0 as * mut sys :: godot_method_bind , get_exit_code : 0 as * mut sys :: godot_method_bind , get_granted_permissions : 0 as * mut sys :: godot_method_bind , get_ime_selection : 0 as * mut sys :: godot_method_bind , get_ime_text : 0 as * mut sys :: godot_method_bind , get_latin_keyboard_variant : 0 as * mut sys :: godot_method_bind , get_locale : 0 as * mut sys :: godot_method_bind , get_low_processor_usage_mode_sleep_usec : 0 as * mut sys :: godot_method_bind , get_max_window_size : 0 as * mut sys :: godot_method_bind , get_min_window_size : 0 as * mut sys :: godot_method_bind , get_model_name : 0 as * mut sys :: godot_method_bind , get_name : 0 as * mut sys :: godot_method_bind , get_native_handle : 0 as * mut sys :: godot_method_bind , get_power_percent_left : 0 as * mut sys :: godot_method_bind , get_power_seconds_left : 0 as * mut sys :: godot_method_bind , get_power_state : 0 as * mut sys :: godot_method_bind , get_process_id : 0 as * mut sys :: godot_method_bind , get_processor_count : 0 as * mut sys :: godot_method_bind , get_real_window_size : 0 as * mut sys :: godot_method_bind , get_scancode_string : 0 as * mut sys :: godot_method_bind , get_screen_count : 0 as * mut sys :: godot_method_bind , get_screen_dpi : 0 as * mut sys :: godot_method_bind , get_screen_max_scale : 0 as * mut sys :: godot_method_bind , get_screen_orientation : 0 as * mut sys :: godot_method_bind , get_screen_position : 0 as * mut sys :: godot_method_bind , get_screen_scale : 0 as * mut sys :: godot_method_bind , get_screen_size : 0 as * mut sys :: godot_method_bind , get_splash_tick_msec : 0 as * mut sys :: godot_method_bind , get_static_memory_peak_usage : 0 as * mut sys :: godot_method_bind , get_static_memory_usage : 0 as * mut sys :: godot_method_bind , get_system_dir : 0 as * mut sys :: godot_method_bind , get_system_time_msecs : 0 as * mut sys :: godot_method_bind , get_system_time_secs : 0 as * mut sys :: godot_method_bind , get_tablet_driver_count : 0 as * mut sys :: godot_method_bind , get_tablet_driver_name : 0 as * mut sys :: godot_method_bind , get_thread_caller_id : 0 as * mut sys :: godot_method_bind , get_ticks_msec : 0 as * mut sys :: godot_method_bind , get_ticks_usec : 0 as * mut sys :: godot_method_bind , get_time : 0 as * mut sys :: godot_method_bind , get_time_zone_info : 0 as * mut sys :: godot_method_bind , get_unique_id : 0 as * mut sys :: godot_method_bind , get_unix_time : 0 as * mut sys :: godot_method_bind , get_unix_time_from_datetime : 0 as * mut sys :: godot_method_bind , get_user_data_dir : 0 as * mut sys :: godot_method_bind , get_video_driver_count : 0 as * mut sys :: godot_method_bind , get_video_driver_name : 0 as * mut sys :: godot_method_bind , get_virtual_keyboard_height : 0 as * mut sys :: godot_method_bind , get_window_per_pixel_transparency_enabled : 0 as * mut sys :: godot_method_bind , get_window_position : 0 as * mut sys :: godot_method_bind , get_window_safe_area : 0 as * mut sys :: godot_method_bind , get_window_size : 0 as * mut sys :: godot_method_bind , global_menu_add_item : 0 as * mut sys :: godot_method_bind , global_menu_add_separator : 0 as * mut sys :: godot_method_bind , global_menu_clear : 0 as * mut sys :: godot_method_bind , global_menu_remove_item : 0 as * mut sys :: godot_method_bind , has_environment : 0 as * mut sys :: godot_method_bind , has_feature : 0 as * mut sys :: godot_method_bind , has_touchscreen_ui_hint : 0 as * mut sys :: godot_method_bind , has_virtual_keyboard : 0 as * mut sys :: godot_method_bind , hide_virtual_keyboard : 0 as * mut sys :: godot_method_bind , is_debug_build : 0 as * mut sys :: godot_method_bind , is_in_low_processor_usage_mode : 0 as * mut sys :: godot_method_bind , is_keep_screen_on : 0 as * mut sys :: godot_method_bind , is_ok_left_and_cancel_right : 0 as * mut sys :: godot_method_bind , is_scancode_unicode : 0 as * mut sys :: godot_method_bind , is_stdout_verbose : 0 as * mut sys :: godot_method_bind , is_userfs_persistent : 0 as * mut sys :: godot_method_bind , is_vsync_enabled : 0 as * mut sys :: godot_method_bind , is_vsync_via_compositor_enabled : 0 as * mut sys :: godot_method_bind , is_window_always_on_top : 0 as * mut sys :: godot_method_bind , is_window_focused : 0 as * mut sys :: godot_method_bind , is_window_fullscreen : 0 as * mut sys :: godot_method_bind , is_window_maximized : 0 as * mut sys :: godot_method_bind , is_window_minimized : 0 as * mut sys :: godot_method_bind , is_window_resizable : 0 as * mut sys :: godot_method_bind , keyboard_get_current_layout : 0 as * mut sys :: godot_method_bind , keyboard_get_layout_count : 0 as * mut sys :: godot_method_bind , keyboard_get_layout_language : 0 as * mut sys :: godot_method_bind , keyboard_get_layout_name : 0 as * mut sys :: godot_method_bind , keyboard_set_current_layout : 0 as * mut sys :: godot_method_bind , kill : 0 as * mut sys :: godot_method_bind , move_window_to_foreground : 0 as * mut sys :: godot_method_bind , native_video_is_playing : 0 as * mut sys :: godot_method_bind , native_video_pause : 0 as * mut sys :: godot_method_bind , native_video_play : 0 as * mut sys :: godot_method_bind , native_video_stop : 0 as * mut sys :: godot_method_bind , native_video_unpause : 0 as * mut sys :: godot_method_bind , open_midi_inputs : 0 as * mut sys :: godot_method_bind , print_all_resources : 0 as * mut sys :: godot_method_bind , print_all_textures_by_size : 0 as * mut sys :: godot_method_bind , print_resources_by_type : 0 as * mut sys :: godot_method_bind , print_resources_in_use : 0 as * mut sys :: godot_method_bind , request_attention : 0 as * mut sys :: godot_method_bind , request_permission : 0 as * mut sys :: godot_method_bind , request_permissions : 0 as * mut sys :: godot_method_bind , set_borderless_window : 0 as * mut sys :: godot_method_bind , set_clipboard : 0 as * mut sys :: godot_method_bind , set_current_screen : 0 as * mut sys :: godot_method_bind , set_current_tablet_driver : 0 as * mut sys :: godot_method_bind , set_environment : 0 as * mut sys :: godot_method_bind , set_exit_code : 0 as * mut sys :: godot_method_bind , set_icon : 0 as * mut sys :: godot_method_bind , set_ime_active : 0 as * mut sys :: godot_method_bind , set_ime_position : 0 as * mut sys :: godot_method_bind , set_keep_screen_on : 0 as * mut sys :: godot_method_bind , set_low_processor_usage_mode : 0 as * mut sys :: godot_method_bind , set_low_processor_usage_mode_sleep_usec : 0 as * mut sys :: godot_method_bind , set_max_window_size : 0 as * mut sys :: godot_method_bind , set_min_window_size : 0 as * mut sys :: godot_method_bind , set_native_icon : 0 as * mut sys :: godot_method_bind , set_screen_orientation : 0 as * mut sys :: godot_method_bind , set_thread_name : 0 as * mut sys :: godot_method_bind , set_use_file_access_save_and_swap : 0 as * mut sys :: godot_method_bind , set_use_vsync : 0 as * mut sys :: godot_method_bind , set_vsync_via_compositor : 0 as * mut sys :: godot_method_bind , set_window_always_on_top : 0 as * mut sys :: godot_method_bind , set_window_fullscreen : 0 as * mut sys :: godot_method_bind , set_window_maximized : 0 as * mut sys :: godot_method_bind , set_window_minimized : 0 as * mut sys :: godot_method_bind , set_window_mouse_passthrough : 0 as * mut sys :: godot_method_bind , set_window_per_pixel_transparency_enabled : 0 as * mut sys :: godot_method_bind , set_window_position : 0 as * mut sys :: godot_method_bind , set_window_resizable : 0 as * mut sys :: godot_method_bind , set_window_size : 0 as * mut sys :: godot_method_bind , set_window_title : 0 as * mut sys :: godot_method_bind , shell_open : 0 as * mut sys :: godot_method_bind , show_virtual_keyboard : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { OSMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "_OS\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . alert = (gd_api . godot_method_bind_get_method) (class_name , "alert\0" . as_ptr () as * const c_char) ; table . can_draw = (gd_api . godot_method_bind_get_method) (class_name , "can_draw\0" . as_ptr () as * const c_char) ; table . can_use_threads = (gd_api . godot_method_bind_get_method) (class_name , "can_use_threads\0" . as_ptr () as * const c_char) ; table . center_window = (gd_api . godot_method_bind_get_method) (class_name , "center_window\0" . as_ptr () as * const c_char) ; table . close_midi_inputs = (gd_api . godot_method_bind_get_method) (class_name , "close_midi_inputs\0" . as_ptr () as * const c_char) ; table . delay_msec = (gd_api . godot_method_bind_get_method) (class_name , "delay_msec\0" . as_ptr () as * const c_char) ; table . delay_usec = (gd_api . godot_method_bind_get_method) (class_name , "delay_usec\0" . as_ptr () as * const c_char) ; table . dump_memory_to_file = (gd_api . godot_method_bind_get_method) (class_name , "dump_memory_to_file\0" . as_ptr () as * const c_char) ; table . dump_resources_to_file = (gd_api . godot_method_bind_get_method) (class_name , "dump_resources_to_file\0" . as_ptr () as * const c_char) ; table . execute = (gd_api . godot_method_bind_get_method) (class_name , "execute\0" . as_ptr () as * const c_char) ; table . find_scancode_from_string = (gd_api . godot_method_bind_get_method) (class_name , "find_scancode_from_string\0" . as_ptr () as * const c_char) ; table . get_audio_driver_count = (gd_api . godot_method_bind_get_method) (class_name , "get_audio_driver_count\0" . as_ptr () as * const c_char) ; table . get_audio_driver_name = (gd_api . godot_method_bind_get_method) (class_name , "get_audio_driver_name\0" . as_ptr () as * const c_char) ; table . get_borderless_window = (gd_api . godot_method_bind_get_method) (class_name , "get_borderless_window\0" . as_ptr () as * const c_char) ; table . get_clipboard = (gd_api . godot_method_bind_get_method) (class_name , "get_clipboard\0" . as_ptr () as * const c_char) ; table . get_cmdline_args = (gd_api . godot_method_bind_get_method) (class_name , "get_cmdline_args\0" . as_ptr () as * const c_char) ; table . get_connected_midi_inputs = (gd_api . godot_method_bind_get_method) (class_name , "get_connected_midi_inputs\0" . as_ptr () as * const c_char) ; table . get_current_screen = (gd_api . godot_method_bind_get_method) (class_name , "get_current_screen\0" . as_ptr () as * const c_char) ; table . get_current_tablet_driver = (gd_api . godot_method_bind_get_method) (class_name , "get_current_tablet_driver\0" . as_ptr () as * const c_char) ; table . get_current_video_driver = (gd_api . godot_method_bind_get_method) (class_name , "get_current_video_driver\0" . as_ptr () as * const c_char) ; table . get_date = (gd_api . godot_method_bind_get_method) (class_name , "get_date\0" . as_ptr () as * const c_char) ; table . get_datetime = (gd_api . godot_method_bind_get_method) (class_name , "get_datetime\0" . as_ptr () as * const c_char) ; table . get_datetime_from_unix_time = (gd_api . godot_method_bind_get_method) (class_name , "get_datetime_from_unix_time\0" . as_ptr () as * const c_char) ; table . get_dynamic_memory_usage = (gd_api . godot_method_bind_get_method) (class_name , "get_dynamic_memory_usage\0" . as_ptr () as * const c_char) ; table . get_environment = (gd_api . godot_method_bind_get_method) (class_name , "get_environment\0" . as_ptr () as * const c_char) ; table . get_executable_path = (gd_api . godot_method_bind_get_method) (class_name , "get_executable_path\0" . as_ptr () as * const c_char) ; table . get_exit_code = (gd_api . godot_method_bind_get_method) (class_name , "get_exit_code\0" . as_ptr () as * const c_char) ; table . get_granted_permissions = (gd_api . godot_method_bind_get_method) (class_name , "get_granted_permissions\0" . as_ptr () as * const c_char) ; table . get_ime_selection = (gd_api . godot_method_bind_get_method) (class_name , "get_ime_selection\0" . as_ptr () as * const c_char) ; table . get_ime_text = (gd_api . godot_method_bind_get_method) (class_name , "get_ime_text\0" . as_ptr () as * const c_char) ; table . get_latin_keyboard_variant = (gd_api . godot_method_bind_get_method) (class_name , "get_latin_keyboard_variant\0" . as_ptr () as * const c_char) ; table . get_locale = (gd_api . godot_method_bind_get_method) (class_name , "get_locale\0" . as_ptr () as * const c_char) ; table . get_low_processor_usage_mode_sleep_usec = (gd_api . godot_method_bind_get_method) (class_name , "get_low_processor_usage_mode_sleep_usec\0" . as_ptr () as * const c_char) ; table . get_max_window_size = (gd_api . godot_method_bind_get_method) (class_name , "get_max_window_size\0" . as_ptr () as * const c_char) ; table . get_min_window_size = (gd_api . godot_method_bind_get_method) (class_name , "get_min_window_size\0" . as_ptr () as * const c_char) ; table . get_model_name = (gd_api . godot_method_bind_get_method) (class_name , "get_model_name\0" . as_ptr () as * const c_char) ; table . get_name = (gd_api . godot_method_bind_get_method) (class_name , "get_name\0" . as_ptr () as * const c_char) ; table . get_native_handle = (gd_api . godot_method_bind_get_method) (class_name , "get_native_handle\0" . as_ptr () as * const c_char) ; table . get_power_percent_left = (gd_api . godot_method_bind_get_method) (class_name , "get_power_percent_left\0" . as_ptr () as * const c_char) ; table . get_power_seconds_left = (gd_api . godot_method_bind_get_method) (class_name , "get_power_seconds_left\0" . as_ptr () as * const c_char) ; table . get_power_state = (gd_api . godot_method_bind_get_method) (class_name , "get_power_state\0" . as_ptr () as * const c_char) ; table . get_process_id = (gd_api . godot_method_bind_get_method) (class_name , "get_process_id\0" . as_ptr () as * const c_char) ; table . get_processor_count = (gd_api . godot_method_bind_get_method) (class_name , "get_processor_count\0" . as_ptr () as * const c_char) ; table . get_real_window_size = (gd_api . godot_method_bind_get_method) (class_name , "get_real_window_size\0" . as_ptr () as * const c_char) ; table . get_scancode_string = (gd_api . godot_method_bind_get_method) (class_name , "get_scancode_string\0" . as_ptr () as * const c_char) ; table . get_screen_count = (gd_api . godot_method_bind_get_method) (class_name , "get_screen_count\0" . as_ptr () as * const c_char) ; table . get_screen_dpi = (gd_api . godot_method_bind_get_method) (class_name , "get_screen_dpi\0" . as_ptr () as * const c_char) ; table . get_screen_max_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_screen_max_scale\0" . as_ptr () as * const c_char) ; table . get_screen_orientation = (gd_api . godot_method_bind_get_method) (class_name , "get_screen_orientation\0" . as_ptr () as * const c_char) ; table . get_screen_position = (gd_api . godot_method_bind_get_method) (class_name , "get_screen_position\0" . as_ptr () as * const c_char) ; table . get_screen_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_screen_scale\0" . as_ptr () as * const c_char) ; table . get_screen_size = (gd_api . godot_method_bind_get_method) (class_name , "get_screen_size\0" . as_ptr () as * const c_char) ; table . get_splash_tick_msec = (gd_api . godot_method_bind_get_method) (class_name , "get_splash_tick_msec\0" . as_ptr () as * const c_char) ; table . get_static_memory_peak_usage = (gd_api . godot_method_bind_get_method) (class_name , "get_static_memory_peak_usage\0" . as_ptr () as * const c_char) ; table . get_static_memory_usage = (gd_api . godot_method_bind_get_method) (class_name , "get_static_memory_usage\0" . as_ptr () as * const c_char) ; table . get_system_dir = (gd_api . godot_method_bind_get_method) (class_name , "get_system_dir\0" . as_ptr () as * const c_char) ; table . get_system_time_msecs = (gd_api . godot_method_bind_get_method) (class_name , "get_system_time_msecs\0" . as_ptr () as * const c_char) ; table . get_system_time_secs = (gd_api . godot_method_bind_get_method) (class_name , "get_system_time_secs\0" . as_ptr () as * const c_char) ; table . get_tablet_driver_count = (gd_api . godot_method_bind_get_method) (class_name , "get_tablet_driver_count\0" . as_ptr () as * const c_char) ; table . get_tablet_driver_name = (gd_api . godot_method_bind_get_method) (class_name , "get_tablet_driver_name\0" . as_ptr () as * const c_char) ; table . get_thread_caller_id = (gd_api . godot_method_bind_get_method) (class_name , "get_thread_caller_id\0" . as_ptr () as * const c_char) ; table . get_ticks_msec = (gd_api . godot_method_bind_get_method) (class_name , "get_ticks_msec\0" . as_ptr () as * const c_char) ; table . get_ticks_usec = (gd_api . godot_method_bind_get_method) (class_name , "get_ticks_usec\0" . as_ptr () as * const c_char) ; table . get_time = (gd_api . godot_method_bind_get_method) (class_name , "get_time\0" . as_ptr () as * const c_char) ; table . get_time_zone_info = (gd_api . godot_method_bind_get_method) (class_name , "get_time_zone_info\0" . as_ptr () as * const c_char) ; table . get_unique_id = (gd_api . godot_method_bind_get_method) (class_name , "get_unique_id\0" . as_ptr () as * const c_char) ; table . get_unix_time = (gd_api . godot_method_bind_get_method) (class_name , "get_unix_time\0" . as_ptr () as * const c_char) ; table . get_unix_time_from_datetime = (gd_api . godot_method_bind_get_method) (class_name , "get_unix_time_from_datetime\0" . as_ptr () as * const c_char) ; table . get_user_data_dir = (gd_api . godot_method_bind_get_method) (class_name , "get_user_data_dir\0" . as_ptr () as * const c_char) ; table . get_video_driver_count = (gd_api . godot_method_bind_get_method) (class_name , "get_video_driver_count\0" . as_ptr () as * const c_char) ; table . get_video_driver_name = (gd_api . godot_method_bind_get_method) (class_name , "get_video_driver_name\0" . as_ptr () as * const c_char) ; table . get_virtual_keyboard_height = (gd_api . godot_method_bind_get_method) (class_name , "get_virtual_keyboard_height\0" . as_ptr () as * const c_char) ; table . get_window_per_pixel_transparency_enabled = (gd_api . godot_method_bind_get_method) (class_name , "get_window_per_pixel_transparency_enabled\0" . as_ptr () as * const c_char) ; table . get_window_position = (gd_api . godot_method_bind_get_method) (class_name , "get_window_position\0" . as_ptr () as * const c_char) ; table . get_window_safe_area = (gd_api . godot_method_bind_get_method) (class_name , "get_window_safe_area\0" . as_ptr () as * const c_char) ; table . get_window_size = (gd_api . godot_method_bind_get_method) (class_name , "get_window_size\0" . as_ptr () as * const c_char) ; table . global_menu_add_item = (gd_api . godot_method_bind_get_method) (class_name , "global_menu_add_item\0" . as_ptr () as * const c_char) ; table . global_menu_add_separator = (gd_api . godot_method_bind_get_method) (class_name , "global_menu_add_separator\0" . as_ptr () as * const c_char) ; table . global_menu_clear = (gd_api . godot_method_bind_get_method) (class_name , "global_menu_clear\0" . as_ptr () as * const c_char) ; table . global_menu_remove_item = (gd_api . godot_method_bind_get_method) (class_name , "global_menu_remove_item\0" . as_ptr () as * const c_char) ; table . has_environment = (gd_api . godot_method_bind_get_method) (class_name , "has_environment\0" . as_ptr () as * const c_char) ; table . has_feature = (gd_api . godot_method_bind_get_method) (class_name , "has_feature\0" . as_ptr () as * const c_char) ; table . has_touchscreen_ui_hint = (gd_api . godot_method_bind_get_method) (class_name , "has_touchscreen_ui_hint\0" . as_ptr () as * const c_char) ; table . has_virtual_keyboard = (gd_api . godot_method_bind_get_method) (class_name , "has_virtual_keyboard\0" . as_ptr () as * const c_char) ; table . hide_virtual_keyboard = (gd_api . godot_method_bind_get_method) (class_name , "hide_virtual_keyboard\0" . as_ptr () as * const c_char) ; table . is_debug_build = (gd_api . godot_method_bind_get_method) (class_name , "is_debug_build\0" . as_ptr () as * const c_char) ; table . is_in_low_processor_usage_mode = (gd_api . godot_method_bind_get_method) (class_name , "is_in_low_processor_usage_mode\0" . as_ptr () as * const c_char) ; table . is_keep_screen_on = (gd_api . godot_method_bind_get_method) (class_name , "is_keep_screen_on\0" . as_ptr () as * const c_char) ; table . is_ok_left_and_cancel_right = (gd_api . godot_method_bind_get_method) (class_name , "is_ok_left_and_cancel_right\0" . as_ptr () as * const c_char) ; table . is_scancode_unicode = (gd_api . godot_method_bind_get_method) (class_name , "is_scancode_unicode\0" . as_ptr () as * const c_char) ; table . is_stdout_verbose = (gd_api . godot_method_bind_get_method) (class_name , "is_stdout_verbose\0" . as_ptr () as * const c_char) ; table . is_userfs_persistent = (gd_api . godot_method_bind_get_method) (class_name , "is_userfs_persistent\0" . as_ptr () as * const c_char) ; table . is_vsync_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_vsync_enabled\0" . as_ptr () as * const c_char) ; table . is_vsync_via_compositor_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_vsync_via_compositor_enabled\0" . as_ptr () as * const c_char) ; table . is_window_always_on_top = (gd_api . godot_method_bind_get_method) (class_name , "is_window_always_on_top\0" . as_ptr () as * const c_char) ; table . is_window_focused = (gd_api . godot_method_bind_get_method) (class_name , "is_window_focused\0" . as_ptr () as * const c_char) ; table . is_window_fullscreen = (gd_api . godot_method_bind_get_method) (class_name , "is_window_fullscreen\0" . as_ptr () as * const c_char) ; table . is_window_maximized = (gd_api . godot_method_bind_get_method) (class_name , "is_window_maximized\0" . as_ptr () as * const c_char) ; table . is_window_minimized = (gd_api . godot_method_bind_get_method) (class_name , "is_window_minimized\0" . as_ptr () as * const c_char) ; table . is_window_resizable = (gd_api . godot_method_bind_get_method) (class_name , "is_window_resizable\0" . as_ptr () as * const c_char) ; table . keyboard_get_current_layout = (gd_api . godot_method_bind_get_method) (class_name , "keyboard_get_current_layout\0" . as_ptr () as * const c_char) ; table . keyboard_get_layout_count = (gd_api . godot_method_bind_get_method) (class_name , "keyboard_get_layout_count\0" . as_ptr () as * const c_char) ; table . keyboard_get_layout_language = (gd_api . godot_method_bind_get_method) (class_name , "keyboard_get_layout_language\0" . as_ptr () as * const c_char) ; table . keyboard_get_layout_name = (gd_api . godot_method_bind_get_method) (class_name , "keyboard_get_layout_name\0" . as_ptr () as * const c_char) ; table . keyboard_set_current_layout = (gd_api . godot_method_bind_get_method) (class_name , "keyboard_set_current_layout\0" . as_ptr () as * const c_char) ; table . kill = (gd_api . godot_method_bind_get_method) (class_name , "kill\0" . as_ptr () as * const c_char) ; table . move_window_to_foreground = (gd_api . godot_method_bind_get_method) (class_name , "move_window_to_foreground\0" . as_ptr () as * const c_char) ; table . native_video_is_playing = (gd_api . godot_method_bind_get_method) (class_name , "native_video_is_playing\0" . as_ptr () as * const c_char) ; table . native_video_pause = (gd_api . godot_method_bind_get_method) (class_name , "native_video_pause\0" . as_ptr () as * const c_char) ; table . native_video_play = (gd_api . godot_method_bind_get_method) (class_name , "native_video_play\0" . as_ptr () as * const c_char) ; table . native_video_stop = (gd_api . godot_method_bind_get_method) (class_name , "native_video_stop\0" . as_ptr () as * const c_char) ; table . native_video_unpause = (gd_api . godot_method_bind_get_method) (class_name , "native_video_unpause\0" . as_ptr () as * const c_char) ; table . open_midi_inputs = (gd_api . godot_method_bind_get_method) (class_name , "open_midi_inputs\0" . as_ptr () as * const c_char) ; table . print_all_resources = (gd_api . godot_method_bind_get_method) (class_name , "print_all_resources\0" . as_ptr () as * const c_char) ; table . print_all_textures_by_size = (gd_api . godot_method_bind_get_method) (class_name , "print_all_textures_by_size\0" . as_ptr () as * const c_char) ; table . print_resources_by_type = (gd_api . godot_method_bind_get_method) (class_name , "print_resources_by_type\0" . as_ptr () as * const c_char) ; table . print_resources_in_use = (gd_api . godot_method_bind_get_method) (class_name , "print_resources_in_use\0" . as_ptr () as * const c_char) ; table . request_attention = (gd_api . godot_method_bind_get_method) (class_name , "request_attention\0" . as_ptr () as * const c_char) ; table . request_permission = (gd_api . godot_method_bind_get_method) (class_name , "request_permission\0" . as_ptr () as * const c_char) ; table . request_permissions = (gd_api . godot_method_bind_get_method) (class_name , "request_permissions\0" . as_ptr () as * const c_char) ; table . set_borderless_window = (gd_api . godot_method_bind_get_method) (class_name , "set_borderless_window\0" . as_ptr () as * const c_char) ; table . set_clipboard = (gd_api . godot_method_bind_get_method) (class_name , "set_clipboard\0" . as_ptr () as * const c_char) ; table . set_current_screen = (gd_api . godot_method_bind_get_method) (class_name , "set_current_screen\0" . as_ptr () as * const c_char) ; table . set_current_tablet_driver = (gd_api . godot_method_bind_get_method) (class_name , "set_current_tablet_driver\0" . as_ptr () as * const c_char) ; table . set_environment = (gd_api . godot_method_bind_get_method) (class_name , "set_environment\0" . as_ptr () as * const c_char) ; table . set_exit_code = (gd_api . godot_method_bind_get_method) (class_name , "set_exit_code\0" . as_ptr () as * const c_char) ; table . set_icon = (gd_api . godot_method_bind_get_method) (class_name , "set_icon\0" . as_ptr () as * const c_char) ; table . set_ime_active = (gd_api . godot_method_bind_get_method) (class_name , "set_ime_active\0" . as_ptr () as * const c_char) ; table . set_ime_position = (gd_api . godot_method_bind_get_method) (class_name , "set_ime_position\0" . as_ptr () as * const c_char) ; table . set_keep_screen_on = (gd_api . godot_method_bind_get_method) (class_name , "set_keep_screen_on\0" . as_ptr () as * const c_char) ; table . set_low_processor_usage_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_low_processor_usage_mode\0" . as_ptr () as * const c_char) ; table . set_low_processor_usage_mode_sleep_usec = (gd_api . godot_method_bind_get_method) (class_name , "set_low_processor_usage_mode_sleep_usec\0" . as_ptr () as * const c_char) ; table . set_max_window_size = (gd_api . godot_method_bind_get_method) (class_name , "set_max_window_size\0" . as_ptr () as * const c_char) ; table . set_min_window_size = (gd_api . godot_method_bind_get_method) (class_name , "set_min_window_size\0" . as_ptr () as * const c_char) ; table . set_native_icon = (gd_api . godot_method_bind_get_method) (class_name , "set_native_icon\0" . as_ptr () as * const c_char) ; table . set_screen_orientation = (gd_api . godot_method_bind_get_method) (class_name , "set_screen_orientation\0" . as_ptr () as * const c_char) ; table . set_thread_name = (gd_api . godot_method_bind_get_method) (class_name , "set_thread_name\0" . as_ptr () as * const c_char) ; table . set_use_file_access_save_and_swap = (gd_api . godot_method_bind_get_method) (class_name , "set_use_file_access_save_and_swap\0" . as_ptr () as * const c_char) ; table . set_use_vsync = (gd_api . godot_method_bind_get_method) (class_name , "set_use_vsync\0" . as_ptr () as * const c_char) ; table . set_vsync_via_compositor = (gd_api . godot_method_bind_get_method) (class_name , "set_vsync_via_compositor\0" . as_ptr () as * const c_char) ; table . set_window_always_on_top = (gd_api . godot_method_bind_get_method) (class_name , "set_window_always_on_top\0" . as_ptr () as * const c_char) ; table . set_window_fullscreen = (gd_api . godot_method_bind_get_method) (class_name , "set_window_fullscreen\0" . as_ptr () as * const c_char) ; table . set_window_maximized = (gd_api . godot_method_bind_get_method) (class_name , "set_window_maximized\0" . as_ptr () as * const c_char) ; table . set_window_minimized = (gd_api . godot_method_bind_get_method) (class_name , "set_window_minimized\0" . as_ptr () as * const c_char) ; table . set_window_mouse_passthrough = (gd_api . godot_method_bind_get_method) (class_name , "set_window_mouse_passthrough\0" . as_ptr () as * const c_char) ; table . set_window_per_pixel_transparency_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_window_per_pixel_transparency_enabled\0" . as_ptr () as * const c_char) ; table . set_window_position = (gd_api . godot_method_bind_get_method) (class_name , "set_window_position\0" . as_ptr () as * const c_char) ; table . set_window_resizable = (gd_api . godot_method_bind_get_method) (class_name , "set_window_resizable\0" . as_ptr () as * const c_char) ; table . set_window_size = (gd_api . godot_method_bind_get_method) (class_name , "set_window_size\0" . as_ptr () as * const c_char) ; table . set_window_title = (gd_api . godot_method_bind_get_method) (class_name , "set_window_title\0" . as_ptr () as * const c_char) ; table . shell_open = (gd_api . godot_method_bind_get_method) (class_name , "shell_open\0" . as_ptr () as * const c_char) ; table . show_virtual_keyboard = (gd_api . godot_method_bind_get_method) (class_name , "show_virtual_keyboard\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:214:13550 [INFO] [stdout] | [INFO] [stdout] 214 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 214 | # [doc = "`tools class EditorSettings` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorsettings.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nEditorSettings inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorSettings { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl EditorSettings { pub const NOTIFICATION_EDITOR_SETTINGS_CHANGED : i64 = 10000i64 ; } impl EditorSettings { # [doc = "_Sample code is GDScript unless otherwise noted._\n\nAdds a custom property info to a property. The dictionary must contain:\n- `name`: [String] (the name of the property)\n- `type`: [int] (see [enum Variant.Type])\n- optionally `hint`: [int] (see [enum PropertyHint]) and `hint_string`: [String]\n**Example:**\n```gdscript\neditor_settings.set(\"category/property_name\", 0)\n\nvar property_info = {\n \"name\": \"category/property_name\",\n \"type\": TYPE_INT,\n \"hint\": PROPERTY_HINT_ENUM,\n \"hint_string\": \"one,two,three\"\n}\n\neditor_settings.add_property_info(property_info)\n```"] # [doc = ""] # [inline] pub fn add_property_info (& self , info : Dictionary) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . add_property_info ; let ret = crate :: icalls :: icallptr_void_dict (method_bind , self . this . sys () . as_ptr () , info) ; } } # [doc = "Erases the setting whose name is specified by `property`."] # [doc = ""] # [inline] pub fn erase (& self , property : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . erase ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , property . into ()) ; } } # [doc = "Returns the list of favorite files and directories for this project."] # [doc = ""] # [inline] pub fn get_favorites (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . get_favorites ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns project-specific metadata for the `section` and `key` specified. If the metadata doesn't exist, `default` will be returned instead. See also [method set_project_metadata].\n# Default Arguments\n* `default` - `null`"] # [doc = ""] # [inline] pub fn get_project_metadata (& self , section : impl Into < GodotString > , key : impl Into < GodotString > , default : impl OwnedToVariant) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . get_project_metadata ; let ret = crate :: icalls :: icallptr_var_str_str_var (method_bind , self . this . sys () . as_ptr () , section . into () , key . into () , default . owned_to_variant ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the project-specific settings path. Projects all have a unique subdirectory inside the settings path where project-specific settings are saved."] # [doc = ""] # [inline] pub fn get_project_settings_dir (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . get_project_settings_dir ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the list of recently visited folders in the file dialog for this project."] # [doc = ""] # [inline] pub fn get_recent_dirs (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . get_recent_dirs ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the value of the setting specified by `name`. This is equivalent to using [method Object.get] on the EditorSettings instance."] # [doc = ""] # [inline] pub fn get_setting (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . get_setting ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Variant :: from_sys (ret) } } # [doc = "Gets the global settings path for the engine. Inside this path, you can find some standard paths such as:\n`settings/tmp` - Used for temporary storage of files\n`settings/templates` - Where export templates are located"] # [doc = ""] # [inline] pub fn get_settings_dir (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . get_settings_dir ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if the setting specified by `name` exists, `false` otherwise."] # [doc = ""] # [inline] pub fn has_setting (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . has_setting ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if the setting specified by `name` can have its value reverted to the default value, `false` otherwise. When this method returns `true`, a Revert button will display next to the setting in the Editor Settings."] # [doc = ""] # [inline] pub fn property_can_revert (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . property_can_revert ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns the default value of the setting specified by `name`. This is the value that would be applied when clicking the Revert button in the Editor Settings."] # [doc = ""] # [inline] pub fn property_get_revert (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . property_get_revert ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Variant :: from_sys (ret) } } # [doc = "Sets the list of favorite files and directories for this project."] # [doc = ""] # [inline] pub fn set_favorites (& self , dirs : StringArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . set_favorites ; let ret = crate :: icalls :: icallptr_void_strarr (method_bind , self . this . sys () . as_ptr () , dirs) ; } } # [doc = "Sets the initial value of the setting specified by `name` to `value`. This is used to provide a value for the Revert button in the Editor Settings. If `update_current` is true, the current value of the setting will be set to `value` as well."] # [doc = ""] # [inline] pub fn set_initial_value (& self , name : impl Into < GodotString > , value : impl OwnedToVariant , update_current : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . set_initial_value ; let ret = crate :: icalls :: icallptr_void_str_var_bool (method_bind , self . this . sys () . as_ptr () , name . into () , value . owned_to_variant () , update_current) ; } } # [doc = "Sets project-specific metadata with the `section`, `key` and `data` specified. This metadata is stored outside the project folder and therefore won't be checked into version control. See also [method get_project_metadata]."] # [doc = ""] # [inline] pub fn set_project_metadata (& self , section : impl Into < GodotString > , key : impl Into < GodotString > , data : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . set_project_metadata ; let ret = crate :: icalls :: icallptr_void_str_str_var (method_bind , self . this . sys () . as_ptr () , section . into () , key . into () , data . owned_to_variant ()) ; } } # [doc = "Sets the list of recently visited folders in the file dialog for this project."] # [doc = ""] # [inline] pub fn set_recent_dirs (& self , dirs : StringArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . set_recent_dirs ; let ret = crate :: icalls :: icallptr_void_strarr (method_bind , self . this . sys () . as_ptr () , dirs) ; } } # [doc = "Sets the `value` of the setting specified by `name`. This is equivalent to using [method Object.set] on the EditorSettings instance."] # [doc = ""] # [inline] pub fn set_setting (& self , name : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSettingsMethodTable :: get (get_api ()) . set_setting ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , name . into () , value . owned_to_variant ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorSettings { } unsafe impl GodotObject for EditorSettings { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "EditorSettings" } } impl std :: ops :: Deref for EditorSettings { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorSettings { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for EditorSettings { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for EditorSettings { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorSettings { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorSettingsMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_property_info : * mut sys :: godot_method_bind , pub erase : * mut sys :: godot_method_bind , pub get_favorites : * mut sys :: godot_method_bind , pub get_project_metadata : * mut sys :: godot_method_bind , pub get_project_settings_dir : * mut sys :: godot_method_bind , pub get_recent_dirs : * mut sys :: godot_method_bind , pub get_setting : * mut sys :: godot_method_bind , pub get_settings_dir : * mut sys :: godot_method_bind , pub has_setting : * mut sys :: godot_method_bind , pub property_can_revert : * mut sys :: godot_method_bind , pub property_get_revert : * mut sys :: godot_method_bind , pub set_favorites : * mut sys :: godot_method_bind , pub set_initial_value : * mut sys :: godot_method_bind , pub set_project_metadata : * mut sys :: godot_method_bind , pub set_recent_dirs : * mut sys :: godot_method_bind , pub set_setting : * mut sys :: godot_method_bind } impl EditorSettingsMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorSettingsMethodTable = EditorSettingsMethodTable { class_constructor : None , add_property_info : 0 as * mut sys :: godot_method_bind , erase : 0 as * mut sys :: godot_method_bind , get_favorites : 0 as * mut sys :: godot_method_bind , get_project_metadata : 0 as * mut sys :: godot_method_bind , get_project_settings_dir : 0 as * mut sys :: godot_method_bind , get_recent_dirs : 0 as * mut sys :: godot_method_bind , get_setting : 0 as * mut sys :: godot_method_bind , get_settings_dir : 0 as * mut sys :: godot_method_bind , has_setting : 0 as * mut sys :: godot_method_bind , property_can_revert : 0 as * mut sys :: godot_method_bind , property_get_revert : 0 as * mut sys :: godot_method_bind , set_favorites : 0 as * mut sys :: godot_method_bind , set_initial_value : 0 as * mut sys :: godot_method_bind , set_project_metadata : 0 as * mut sys :: godot_method_bind , set_recent_dirs : 0 as * mut sys :: godot_method_bind , set_setting : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorSettingsMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorSettings\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_property_info = (gd_api . godot_method_bind_get_method) (class_name , "add_property_info\0" . as_ptr () as * const c_char) ; table . erase = (gd_api . godot_method_bind_get_method) (class_name , "erase\0" . as_ptr () as * const c_char) ; table . get_favorites = (gd_api . godot_method_bind_get_method) (class_name , "get_favorites\0" . as_ptr () as * const c_char) ; table . get_project_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_project_metadata\0" . as_ptr () as * const c_char) ; table . get_project_settings_dir = (gd_api . godot_method_bind_get_method) (class_name , "get_project_settings_dir\0" . as_ptr () as * const c_char) ; table . get_recent_dirs = (gd_api . godot_method_bind_get_method) (class_name , "get_recent_dirs\0" . as_ptr () as * const c_char) ; table . get_setting = (gd_api . godot_method_bind_get_method) (class_name , "get_setting\0" . as_ptr () as * const c_char) ; table . get_settings_dir = (gd_api . godot_method_bind_get_method) (class_name , "get_settings_dir\0" . as_ptr () as * const c_char) ; table . has_setting = (gd_api . godot_method_bind_get_method) (class_name , "has_setting\0" . as_ptr () as * const c_char) ; table . property_can_revert = (gd_api . godot_method_bind_get_method) (class_name , "property_can_revert\0" . as_ptr () as * const c_char) ; table . property_get_revert = (gd_api . godot_method_bind_get_method) (class_name , "property_get_revert\0" . as_ptr () as * const c_char) ; table . set_favorites = (gd_api . godot_method_bind_get_method) (class_name , "set_favorites\0" . as_ptr () as * const c_char) ; table . set_initial_value = (gd_api . godot_method_bind_get_method) (class_name , "set_initial_value\0" . as_ptr () as * const c_char) ; table . set_project_metadata = (gd_api . godot_method_bind_get_method) (class_name , "set_project_metadata\0" . as_ptr () as * const c_char) ; table . set_recent_dirs = (gd_api . godot_method_bind_get_method) (class_name , "set_recent_dirs\0" . as_ptr () as * const c_char) ; table . set_setting = (gd_api . godot_method_bind_get_method) (class_name , "set_setting\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:220:3868 [INFO] [stdout] | [INFO] [stdout] 220 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 220 | # [doc = "`core class VisualShaderNodeVectorScalarMix` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorscalarmix.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorScalarMix inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarMix { this : RawObject < Self > , } impl VisualShaderNodeVectorScalarMix { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeVectorScalarMixMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVectorScalarMix { } unsafe impl GodotObject for VisualShaderNodeVectorScalarMix { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorScalarMix" } } impl std :: ops :: Deref for VisualShaderNodeVectorScalarMix { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeVectorScalarMix { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeVectorScalarMix { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorScalarMix { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorScalarMix { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorScalarMix { } impl Instanciable for VisualShaderNodeVectorScalarMix { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorScalarMix :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorScalarMixMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorScalarMixMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorScalarMixMethodTable = VisualShaderNodeVectorScalarMixMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeVectorScalarMixMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorScalarMix\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:226:5083 [INFO] [stdout] | [INFO] [stdout] 226 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 226 | # [doc = "`core class World2D` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_world2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nWorld2D inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct World2D { this : RawObject < Self > , } impl World2D { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = World2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The [RID] of this world's canvas resource. Used by the [VisualServer] for 2D drawing."] # [doc = ""] # [inline] pub fn canvas (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = World2DMethodTable :: get (get_api ()) . get_canvas ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Direct access to the world's physics 2D space state. Used for querying current and potential collisions. Must only be accessed from the main thread within `_physics_process(delta)`."] # [doc = ""] # [inline] pub fn direct_space_state (& self) -> Option < Ref < crate :: generated :: physics_2d_direct_space_state :: Physics2DDirectSpaceState , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = World2DMethodTable :: get (get_api ()) . get_direct_space_state ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_2d_direct_space_state :: Physics2DDirectSpaceState , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [RID] of this world's physics space resource. Used by the [Physics2DServer] for 2D physics, treating it as both a space and an area."] # [doc = ""] # [inline] pub fn space (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = World2DMethodTable :: get (get_api ()) . get_space ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for World2D { } unsafe impl GodotObject for World2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "World2D" } } impl std :: ops :: Deref for World2D { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for World2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for World2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for World2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for World2D { } impl Instanciable for World2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { World2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct World2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_canvas : * mut sys :: godot_method_bind , pub get_direct_space_state : * mut sys :: godot_method_bind , pub get_space : * mut sys :: godot_method_bind } impl World2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : World2DMethodTable = World2DMethodTable { class_constructor : None , get_canvas : 0 as * mut sys :: godot_method_bind , get_direct_space_state : 0 as * mut sys :: godot_method_bind , get_space : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { World2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "World2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_canvas = (gd_api . godot_method_bind_get_method) (class_name , "get_canvas\0" . as_ptr () as * const c_char) ; table . get_direct_space_state = (gd_api . godot_method_bind_get_method) (class_name , "get_direct_space_state\0" . as_ptr () as * const c_char) ; table . get_space = (gd_api . godot_method_bind_get_method) (class_name , "get_space\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:232:15446 [INFO] [stdout] | [INFO] [stdout] 232 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 232 | # [doc = "`core class Directory` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_directory.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nDirectory inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Directory { this : RawObject < Self > , } impl Directory { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = DirectoryMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Changes the currently opened directory to the one passed as an argument. The argument can be relative to the current directory (e.g. `newdir` or `../newdir`), or an absolute path (e.g. `/tmp/newdir` or `res://somedir/newdir`).\nReturns one of the [enum Error] code constants (`OK` on success)."] # [doc = ""] # [inline] pub fn change_dir (& self , todir : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . change_dir ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , todir . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Copies the `from` file to the `to` destination. Both arguments should be paths to files, either relative or absolute. If the destination file exists and is not access-protected, it will be overwritten.\nReturns one of the [enum Error] code constants (`OK` on success)."] # [doc = ""] # [inline] pub fn copy (& self , from : impl Into < GodotString > , to : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . copy ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , from . into () , to . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Returns whether the current item processed with the last [method get_next] call is a directory (`.` and `..` are considered directories)."] # [doc = ""] # [inline] pub fn current_is_dir (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . current_is_dir ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether the target directory exists. The argument can be relative to the current directory, or an absolute path."] # [doc = ""] # [inline] pub fn dir_exists (& self , path : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . dir_exists ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ret as _ } } # [doc = "Returns whether the target file exists. The argument can be relative to the current directory, or an absolute path."] # [doc = ""] # [inline] pub fn file_exists (& self , path : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . file_exists ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ret as _ } } # [doc = "Returns the absolute path to the currently opened directory (e.g. `res://folder` or `C:\\tmp\\folder`)."] # [doc = ""] # [inline] pub fn get_current_dir (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . get_current_dir ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the currently opened directory's drive index. See [method get_drive] to convert returned index to the name of the drive."] # [doc = ""] # [inline] pub fn get_current_drive (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . get_current_drive ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "On Windows, returns the name of the drive (partition) passed as an argument (e.g. `C:`). On other platforms, or if the requested drive does not existed, the method returns an empty String."] # [doc = ""] # [inline] pub fn get_drive (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . get_drive ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "On Windows, returns the number of drives (partitions) mounted on the current filesystem. On other platforms, the method returns 0."] # [doc = ""] # [inline] pub fn get_drive_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . get_drive_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the next element (file or directory) in the current directory (including `.` and `..`, unless `skip_navigational` was given to [method list_dir_begin]).\nThe name of the file or directory is returned (and not its full path). Once the stream has been fully processed, the method returns an empty String and closes the stream automatically (i.e. [method list_dir_end] would not be mandatory in such a case)."] # [doc = ""] # [inline] pub fn get_next (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . get_next ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "On UNIX desktop systems, returns the available space on the current directory's disk. On other platforms, this information is not available and the method returns 0 or -1."] # [doc = ""] # [inline] pub fn get_space_left (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . get_space_left ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Initializes the stream used to list all files and directories using the [method get_next] function, closing the current opened stream if needed. Once the stream has been processed, it should typically be closed with [method list_dir_end].\nIf `skip_navigational` is `true`, `.` and `..` are filtered out.\nIf `skip_hidden` is `true`, hidden files are filtered out.\n# Default Arguments\n* `skip_navigational` - `false`\n* `skip_hidden` - `false`"] # [doc = ""] # [inline] pub fn list_dir_begin (& self , skip_navigational : bool , skip_hidden : bool) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . list_dir_begin ; let ret = crate :: icalls :: icallptr_i64_bool_bool (method_bind , self . this . sys () . as_ptr () , skip_navigational , skip_hidden) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Closes the current stream opened with [method list_dir_begin] (whether it has been fully processed with [method get_next] or not does not matter)."] # [doc = ""] # [inline] pub fn list_dir_end (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . list_dir_end ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Creates a directory. The argument can be relative to the current directory, or an absolute path. The target directory should be placed in an already existing directory (to create the full path recursively, see [method make_dir_recursive]).\nReturns one of the [enum Error] code constants (`OK` on success)."] # [doc = ""] # [inline] pub fn make_dir (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . make_dir ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Creates a target directory and all necessary intermediate directories in its path, by calling [method make_dir] recursively. The argument can be relative to the current directory, or an absolute path.\nReturns one of the [enum Error] code constants (`OK` on success)."] # [doc = ""] # [inline] pub fn make_dir_recursive (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . make_dir_recursive ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Opens an existing directory of the filesystem. The `path` argument can be within the project tree (`res://folder`), the user directory (`user://folder`) or an absolute path of the user filesystem (e.g. `/tmp/folder` or `C:\\tmp\\folder`).\nReturns one of the [enum Error] code constants (`OK` on success)."] # [doc = ""] # [inline] pub fn open (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . open ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Deletes the target file or an empty directory. The argument can be relative to the current directory, or an absolute path. If the target directory is not empty, the operation will fail.\nReturns one of the [enum Error] code constants (`OK` on success)."] # [doc = ""] # [inline] pub fn remove (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . remove ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Renames (move) the `from` file to the `to` destination. Both arguments should be paths to files, either relative or absolute. If the destination file exists and is not access-protected, it will be overwritten.\nReturns one of the [enum Error] code constants (`OK` on success)."] # [doc = ""] # [inline] pub fn rename (& self , from : impl Into < GodotString > , to : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectoryMethodTable :: get (get_api ()) . rename ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , from . into () , to . into ()) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for Directory { } unsafe impl GodotObject for Directory { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Directory" } } impl std :: ops :: Deref for Directory { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Directory { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Directory { } unsafe impl SubClass < crate :: generated :: object :: Object > for Directory { } impl Instanciable for Directory { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Directory :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct DirectoryMethodTable { pub class_constructor : sys :: godot_class_constructor , pub change_dir : * mut sys :: godot_method_bind , pub copy : * mut sys :: godot_method_bind , pub current_is_dir : * mut sys :: godot_method_bind , pub dir_exists : * mut sys :: godot_method_bind , pub file_exists : * mut sys :: godot_method_bind , pub get_current_dir : * mut sys :: godot_method_bind , pub get_current_drive : * mut sys :: godot_method_bind , pub get_drive : * mut sys :: godot_method_bind , pub get_drive_count : * mut sys :: godot_method_bind , pub get_next : * mut sys :: godot_method_bind , pub get_space_left : * mut sys :: godot_method_bind , pub list_dir_begin : * mut sys :: godot_method_bind , pub list_dir_end : * mut sys :: godot_method_bind , pub make_dir : * mut sys :: godot_method_bind , pub make_dir_recursive : * mut sys :: godot_method_bind , pub open : * mut sys :: godot_method_bind , pub remove : * mut sys :: godot_method_bind , pub rename : * mut sys :: godot_method_bind } impl DirectoryMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : DirectoryMethodTable = DirectoryMethodTable { class_constructor : None , change_dir : 0 as * mut sys :: godot_method_bind , copy : 0 as * mut sys :: godot_method_bind , current_is_dir : 0 as * mut sys :: godot_method_bind , dir_exists : 0 as * mut sys :: godot_method_bind , file_exists : 0 as * mut sys :: godot_method_bind , get_current_dir : 0 as * mut sys :: godot_method_bind , get_current_drive : 0 as * mut sys :: godot_method_bind , get_drive : 0 as * mut sys :: godot_method_bind , get_drive_count : 0 as * mut sys :: godot_method_bind , get_next : 0 as * mut sys :: godot_method_bind , get_space_left : 0 as * mut sys :: godot_method_bind , list_dir_begin : 0 as * mut sys :: godot_method_bind , list_dir_end : 0 as * mut sys :: godot_method_bind , make_dir : 0 as * mut sys :: godot_method_bind , make_dir_recursive : 0 as * mut sys :: godot_method_bind , open : 0 as * mut sys :: godot_method_bind , remove : 0 as * mut sys :: godot_method_bind , rename : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { DirectoryMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "_Directory\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . change_dir = (gd_api . godot_method_bind_get_method) (class_name , "change_dir\0" . as_ptr () as * const c_char) ; table . copy = (gd_api . godot_method_bind_get_method) (class_name , "copy\0" . as_ptr () as * const c_char) ; table . current_is_dir = (gd_api . godot_method_bind_get_method) (class_name , "current_is_dir\0" . as_ptr () as * const c_char) ; table . dir_exists = (gd_api . godot_method_bind_get_method) (class_name , "dir_exists\0" . as_ptr () as * const c_char) ; table . file_exists = (gd_api . godot_method_bind_get_method) (class_name , "file_exists\0" . as_ptr () as * const c_char) ; table . get_current_dir = (gd_api . godot_method_bind_get_method) (class_name , "get_current_dir\0" . as_ptr () as * const c_char) ; table . get_current_drive = (gd_api . godot_method_bind_get_method) (class_name , "get_current_drive\0" . as_ptr () as * const c_char) ; table . get_drive = (gd_api . godot_method_bind_get_method) (class_name , "get_drive\0" . as_ptr () as * const c_char) ; table . get_drive_count = (gd_api . godot_method_bind_get_method) (class_name , "get_drive_count\0" . as_ptr () as * const c_char) ; table . get_next = (gd_api . godot_method_bind_get_method) (class_name , "get_next\0" . as_ptr () as * const c_char) ; table . get_space_left = (gd_api . godot_method_bind_get_method) (class_name , "get_space_left\0" . as_ptr () as * const c_char) ; table . list_dir_begin = (gd_api . godot_method_bind_get_method) (class_name , "list_dir_begin\0" . as_ptr () as * const c_char) ; table . list_dir_end = (gd_api . godot_method_bind_get_method) (class_name , "list_dir_end\0" . as_ptr () as * const c_char) ; table . make_dir = (gd_api . godot_method_bind_get_method) (class_name , "make_dir\0" . as_ptr () as * const c_char) ; table . make_dir_recursive = (gd_api . godot_method_bind_get_method) (class_name , "make_dir_recursive\0" . as_ptr () as * const c_char) ; table . open = (gd_api . godot_method_bind_get_method) (class_name , "open\0" . as_ptr () as * const c_char) ; table . remove = (gd_api . godot_method_bind_get_method) (class_name , "remove\0" . as_ptr () as * const c_char) ; table . rename = (gd_api . godot_method_bind_get_method) (class_name , "rename\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:238:4726 [INFO] [stdout] | [INFO] [stdout] 238 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 238 | # [doc = "`core class AnimationNodeBlend2` inherits `AnimationNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeblend2.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeBlend2 inherits methods from:\n - [AnimationNode](struct.AnimationNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AnimationNodeBlend2 { this : RawObject < Self > , } impl AnimationNodeBlend2 { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AnimationNodeBlend2MethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "If `true`, sets the `optimization` to `false` when calling [method AnimationNode.blend_input], forcing the blended animations to update every frame."] # [doc = ""] # [inline] pub fn is_using_sync (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlend2MethodTable :: get (get_api ()) . is_using_sync ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, sets the `optimization` to `false` when calling [method AnimationNode.blend_input], forcing the blended animations to update every frame."] # [doc = ""] # [inline] pub fn set_use_sync (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlend2MethodTable :: get (get_api ()) . set_use_sync ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeBlend2 { } unsafe impl GodotObject for AnimationNodeBlend2 { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeBlend2" } } impl std :: ops :: Deref for AnimationNodeBlend2 { type Target = crate :: generated :: animation_node :: AnimationNode ; # [inline] fn deref (& self) -> & crate :: generated :: animation_node :: AnimationNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationNodeBlend2 { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: animation_node :: AnimationNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: animation_node :: AnimationNode > for AnimationNodeBlend2 { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeBlend2 { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeBlend2 { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeBlend2 { } impl Instanciable for AnimationNodeBlend2 { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeBlend2 :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeBlend2MethodTable { pub class_constructor : sys :: godot_class_constructor , pub is_using_sync : * mut sys :: godot_method_bind , pub set_use_sync : * mut sys :: godot_method_bind } impl AnimationNodeBlend2MethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeBlend2MethodTable = AnimationNodeBlend2MethodTable { class_constructor : None , is_using_sync : 0 as * mut sys :: godot_method_bind , set_use_sync : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeBlend2MethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeBlend2\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . is_using_sync = (gd_api . godot_method_bind_get_method) (class_name , "is_using_sync\0" . as_ptr () as * const c_char) ; table . set_use_sync = (gd_api . godot_method_bind_get_method) (class_name , "set_use_sync\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:244:6442 [INFO] [stdout] | [INFO] [stdout] 244 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 244 | # [doc = "`core class AudioEffectRecord` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectrecord.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectRecord inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectRecord { this : RawObject < Self > , } impl AudioEffectRecord { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectRecordMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Specifies the format in which the sample will be recorded. See [enum AudioStreamSample.Format] for available formats."] # [doc = ""] # [inline] pub fn format (& self) -> crate :: generated :: audio_stream_sample :: Format { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectRecordMethodTable :: get (get_api ()) . get_format ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: audio_stream_sample :: Format (ret) } } # [doc = "Returns the recorded sample."] # [doc = ""] # [inline] pub fn get_recording (& self) -> Option < Ref < crate :: generated :: audio_stream_sample :: AudioStreamSample , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectRecordMethodTable :: get (get_api ()) . get_recording ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: audio_stream_sample :: AudioStreamSample , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns whether the recording is active or not."] # [doc = ""] # [inline] pub fn is_recording_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectRecordMethodTable :: get (get_api ()) . is_recording_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Specifies the format in which the sample will be recorded. See [enum AudioStreamSample.Format] for available formats."] # [doc = ""] # [inline] pub fn set_format (& self , format : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectRecordMethodTable :: get (get_api ()) . set_format ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , format) ; } } # [doc = "If `true`, the sound will be recorded. Note that restarting the recording will remove the previously recorded sample."] # [doc = ""] # [inline] pub fn set_recording_active (& self , record : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectRecordMethodTable :: get (get_api ()) . set_recording_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , record) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectRecord { } unsafe impl GodotObject for AudioEffectRecord { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectRecord" } } impl std :: ops :: Deref for AudioEffectRecord { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectRecord { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectRecord { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectRecord { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectRecord { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectRecord { } impl Instanciable for AudioEffectRecord { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectRecord :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectRecordMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_format : * mut sys :: godot_method_bind , pub get_recording : * mut sys :: godot_method_bind , pub is_recording_active : * mut sys :: godot_method_bind , pub set_format : * mut sys :: godot_method_bind , pub set_recording_active : * mut sys :: godot_method_bind } impl AudioEffectRecordMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectRecordMethodTable = AudioEffectRecordMethodTable { class_constructor : None , get_format : 0 as * mut sys :: godot_method_bind , get_recording : 0 as * mut sys :: godot_method_bind , is_recording_active : 0 as * mut sys :: godot_method_bind , set_format : 0 as * mut sys :: godot_method_bind , set_recording_active : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectRecordMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectRecord\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_format = (gd_api . godot_method_bind_get_method) (class_name , "get_format\0" . as_ptr () as * const c_char) ; table . get_recording = (gd_api . godot_method_bind_get_method) (class_name , "get_recording\0" . as_ptr () as * const c_char) ; table . is_recording_active = (gd_api . godot_method_bind_get_method) (class_name , "is_recording_active\0" . as_ptr () as * const c_char) ; table . set_format = (gd_api . godot_method_bind_get_method) (class_name , "set_format\0" . as_ptr () as * const c_char) ; table . set_recording_active = (gd_api . godot_method_bind_get_method) (class_name , "set_recording_active\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:250:3797 [INFO] [stdout] | [INFO] [stdout] 250 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 250 | # [doc = "`core class MultiplayerPeerGDNative` inherits `NetworkedMultiplayerPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_multiplayerpeergdnative.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nMultiplayerPeerGDNative inherits methods from:\n - [NetworkedMultiplayerPeer](struct.NetworkedMultiplayerPeer.html)\n - [PacketPeer](struct.PacketPeer.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct MultiplayerPeerGDNative { this : RawObject < Self > , } impl MultiplayerPeerGDNative { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = MultiplayerPeerGDNativeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for MultiplayerPeerGDNative { } unsafe impl GodotObject for MultiplayerPeerGDNative { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "MultiplayerPeerGDNative" } } impl std :: ops :: Deref for MultiplayerPeerGDNative { type Target = crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer ; # [inline] fn deref (& self) -> & crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for MultiplayerPeerGDNative { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer > for MultiplayerPeerGDNative { } unsafe impl SubClass < crate :: generated :: packet_peer :: PacketPeer > for MultiplayerPeerGDNative { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for MultiplayerPeerGDNative { } unsafe impl SubClass < crate :: generated :: object :: Object > for MultiplayerPeerGDNative { } impl Instanciable for MultiplayerPeerGDNative { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MultiplayerPeerGDNative :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MultiplayerPeerGDNativeMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl MultiplayerPeerGDNativeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MultiplayerPeerGDNativeMethodTable = MultiplayerPeerGDNativeMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { MultiplayerPeerGDNativeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MultiplayerPeerGDNative\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:256:7401 [INFO] [stdout] | [INFO] [stdout] 256 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 256 | # [doc = "`core class OccluderPolygon2D` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_occluderpolygon2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nOccluderPolygon2D inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct OccluderPolygon2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CullMode (pub i64) ; impl CullMode { pub const DISABLED : CullMode = CullMode (0i64) ; pub const CLOCKWISE : CullMode = CullMode (1i64) ; pub const COUNTER_CLOCKWISE : CullMode = CullMode (2i64) ; } impl From < i64 > for CullMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CullMode > for i64 { # [inline] fn from (v : CullMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl OccluderPolygon2D { pub const CULL_CLOCKWISE : i64 = 1i64 ; pub const CULL_COUNTER_CLOCKWISE : i64 = 2i64 ; pub const CULL_DISABLED : i64 = 0i64 ; } impl OccluderPolygon2D { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = OccluderPolygon2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The culling mode to use."] # [doc = ""] # [inline] pub fn cull_mode (& self) -> crate :: generated :: occluder_polygon_2d :: CullMode { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . get_cull_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: occluder_polygon_2d :: CullMode (ret) } } # [doc = "A [Vector2] array with the index for polygon's vertices positions.\n**Note:** The returned value is a copy of the underlying array, rather than a reference."] # [doc = ""] # [inline] pub fn polygon (& self) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . get_polygon ; let ret = crate :: icalls :: icallptr_vec2arr (method_bind , self . this . sys () . as_ptr ()) ; Vector2Array :: from_sys (ret) } } # [doc = "If `true`, closes the polygon. A closed OccluderPolygon2D occludes the light coming from any direction. An opened OccluderPolygon2D occludes the light only at its outline's direction."] # [doc = ""] # [inline] pub fn is_closed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . is_closed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, closes the polygon. A closed OccluderPolygon2D occludes the light coming from any direction. An opened OccluderPolygon2D occludes the light only at its outline's direction."] # [doc = ""] # [inline] pub fn set_closed (& self , closed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . set_closed ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , closed) ; } } # [doc = "The culling mode to use."] # [doc = ""] # [inline] pub fn set_cull_mode (& self , cull_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . set_cull_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , cull_mode) ; } } # [doc = "A [Vector2] array with the index for polygon's vertices positions.\n**Note:** The returned value is a copy of the underlying array, rather than a reference."] # [doc = ""] # [inline] pub fn set_polygon (& self , polygon : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . set_polygon ; let ret = crate :: icalls :: icallptr_void_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for OccluderPolygon2D { } unsafe impl GodotObject for OccluderPolygon2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "OccluderPolygon2D" } } impl std :: ops :: Deref for OccluderPolygon2D { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for OccluderPolygon2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for OccluderPolygon2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for OccluderPolygon2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for OccluderPolygon2D { } impl Instanciable for OccluderPolygon2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { OccluderPolygon2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct OccluderPolygon2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_cull_mode : * mut sys :: godot_method_bind , pub get_polygon : * mut sys :: godot_method_bind , pub is_closed : * mut sys :: godot_method_bind , pub set_closed : * mut sys :: godot_method_bind , pub set_cull_mode : * mut sys :: godot_method_bind , pub set_polygon : * mut sys :: godot_method_bind } impl OccluderPolygon2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : OccluderPolygon2DMethodTable = OccluderPolygon2DMethodTable { class_constructor : None , get_cull_mode : 0 as * mut sys :: godot_method_bind , get_polygon : 0 as * mut sys :: godot_method_bind , is_closed : 0 as * mut sys :: godot_method_bind , set_closed : 0 as * mut sys :: godot_method_bind , set_cull_mode : 0 as * mut sys :: godot_method_bind , set_polygon : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { OccluderPolygon2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "OccluderPolygon2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_cull_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_cull_mode\0" . as_ptr () as * const c_char) ; table . get_polygon = (gd_api . godot_method_bind_get_method) (class_name , "get_polygon\0" . as_ptr () as * const c_char) ; table . is_closed = (gd_api . godot_method_bind_get_method) (class_name , "is_closed\0" . as_ptr () as * const c_char) ; table . set_closed = (gd_api . godot_method_bind_get_method) (class_name , "set_closed\0" . as_ptr () as * const c_char) ; table . set_cull_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_cull_mode\0" . as_ptr () as * const c_char) ; table . set_polygon = (gd_api . godot_method_bind_get_method) (class_name , "set_polygon\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:262:11707 [INFO] [stdout] | [INFO] [stdout] 262 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 262 | # [doc = "`core class Timer` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_timer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Timer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nTimer inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Timer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TimerProcessMode (pub i64) ; impl TimerProcessMode { pub const PHYSICS : TimerProcessMode = TimerProcessMode (0i64) ; pub const IDLE : TimerProcessMode = TimerProcessMode (1i64) ; } impl From < i64 > for TimerProcessMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TimerProcessMode > for i64 { # [inline] fn from (v : TimerProcessMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Timer { pub const TIMER_PROCESS_IDLE : i64 = 1i64 ; pub const TIMER_PROCESS_PHYSICS : i64 = 0i64 ; } impl Timer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = TimerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The timer's remaining time in seconds. Returns 0 if the timer is inactive.\n**Note:** You cannot set this value. To change the timer's remaining time, use [method start]."] # [doc = ""] # [inline] pub fn time_left (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . get_time_left ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Processing mode. See [enum TimerProcessMode]."] # [doc = ""] # [inline] pub fn timer_process_mode (& self) -> crate :: generated :: timer :: TimerProcessMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . get_timer_process_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: timer :: TimerProcessMode (ret) } } # [doc = "Wait time in seconds."] # [doc = ""] # [inline] pub fn wait_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . get_wait_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer will automatically start when entering the scene tree.\n**Note:** This property is automatically set to `false` after the timer enters the scene tree and starts."] # [doc = ""] # [inline] pub fn has_autostart (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . has_autostart ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer will stop when reaching 0. If `false`, it will restart."] # [doc = ""] # [inline] pub fn is_one_shot (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . is_one_shot ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer is paused and will not process until it is unpaused again, even if [method start] is called."] # [doc = ""] # [inline] pub fn is_paused (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . is_paused ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the timer is stopped."] # [doc = ""] # [inline] pub fn is_stopped (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . is_stopped ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer will automatically start when entering the scene tree.\n**Note:** This property is automatically set to `false` after the timer enters the scene tree and starts."] # [doc = ""] # [inline] pub fn set_autostart (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_autostart ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the timer will stop when reaching 0. If `false`, it will restart."] # [doc = ""] # [inline] pub fn set_one_shot (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_one_shot ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the timer is paused and will not process until it is unpaused again, even if [method start] is called."] # [doc = ""] # [inline] pub fn set_paused (& self , paused : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_paused ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , paused) ; } } # [doc = "Processing mode. See [enum TimerProcessMode]."] # [doc = ""] # [inline] pub fn set_timer_process_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_timer_process_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Wait time in seconds."] # [doc = ""] # [inline] pub fn set_wait_time (& self , time_sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_wait_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time_sec) ; } } # [doc = "Starts the timer. Sets `wait_time` to `time_sec` if `time_sec > 0`. This also resets the remaining time to `wait_time`.\n**Note:** this method will not resume a paused timer. See [member paused].\n# Default Arguments\n* `time_sec` - `-1`"] # [doc = ""] # [inline] pub fn start (& self , time_sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . start ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time_sec) ; } } # [doc = "Stops the timer."] # [doc = ""] # [inline] pub fn stop (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . stop ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Timer { } unsafe impl GodotObject for Timer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Timer" } } impl QueueFree for Timer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Timer { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Timer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for Timer { } unsafe impl SubClass < crate :: generated :: object :: Object > for Timer { } impl Instanciable for Timer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Timer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TimerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_time_left : * mut sys :: godot_method_bind , pub get_timer_process_mode : * mut sys :: godot_method_bind , pub get_wait_time : * mut sys :: godot_method_bind , pub has_autostart : * mut sys :: godot_method_bind , pub is_one_shot : * mut sys :: godot_method_bind , pub is_paused : * mut sys :: godot_method_bind , pub is_stopped : * mut sys :: godot_method_bind , pub set_autostart : * mut sys :: godot_method_bind , pub set_one_shot : * mut sys :: godot_method_bind , pub set_paused : * mut sys :: godot_method_bind , pub set_timer_process_mode : * mut sys :: godot_method_bind , pub set_wait_time : * mut sys :: godot_method_bind , pub start : * mut sys :: godot_method_bind , pub stop : * mut sys :: godot_method_bind } impl TimerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TimerMethodTable = TimerMethodTable { class_constructor : None , get_time_left : 0 as * mut sys :: godot_method_bind , get_timer_process_mode : 0 as * mut sys :: godot_method_bind , get_wait_time : 0 as * mut sys :: godot_method_bind , has_autostart : 0 as * mut sys :: godot_method_bind , is_one_shot : 0 as * mut sys :: godot_method_bind , is_paused : 0 as * mut sys :: godot_method_bind , is_stopped : 0 as * mut sys :: godot_method_bind , set_autostart : 0 as * mut sys :: godot_method_bind , set_one_shot : 0 as * mut sys :: godot_method_bind , set_paused : 0 as * mut sys :: godot_method_bind , set_timer_process_mode : 0 as * mut sys :: godot_method_bind , set_wait_time : 0 as * mut sys :: godot_method_bind , start : 0 as * mut sys :: godot_method_bind , stop : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TimerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Timer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_time_left = (gd_api . godot_method_bind_get_method) (class_name , "get_time_left\0" . as_ptr () as * const c_char) ; table . get_timer_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_timer_process_mode\0" . as_ptr () as * const c_char) ; table . get_wait_time = (gd_api . godot_method_bind_get_method) (class_name , "get_wait_time\0" . as_ptr () as * const c_char) ; table . has_autostart = (gd_api . godot_method_bind_get_method) (class_name , "has_autostart\0" . as_ptr () as * const c_char) ; table . is_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "is_one_shot\0" . as_ptr () as * const c_char) ; table . is_paused = (gd_api . godot_method_bind_get_method) (class_name , "is_paused\0" . as_ptr () as * const c_char) ; table . is_stopped = (gd_api . godot_method_bind_get_method) (class_name , "is_stopped\0" . as_ptr () as * const c_char) ; table . set_autostart = (gd_api . godot_method_bind_get_method) (class_name , "set_autostart\0" . as_ptr () as * const c_char) ; table . set_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "set_one_shot\0" . as_ptr () as * const c_char) ; table . set_paused = (gd_api . godot_method_bind_get_method) (class_name , "set_paused\0" . as_ptr () as * const c_char) ; table . set_timer_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_timer_process_mode\0" . as_ptr () as * const c_char) ; table . set_wait_time = (gd_api . godot_method_bind_get_method) (class_name , "set_wait_time\0" . as_ptr () as * const c_char) ; table . start = (gd_api . godot_method_bind_get_method) (class_name , "start\0" . as_ptr () as * const c_char) ; table . stop = (gd_api . godot_method_bind_get_method) (class_name , "stop\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:268:15548 [INFO] [stdout] | [INFO] [stdout] 268 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 268 | # [doc = "`core singleton class ARVRServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_arvrserver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nARVRServer inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ARVRServer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct RotationMode (pub i64) ; impl RotationMode { pub const RESET_FULL_ROTATION : RotationMode = RotationMode (0i64) ; pub const RESET_BUT_KEEP_TILT : RotationMode = RotationMode (1i64) ; pub const DONT_RESET_ROTATION : RotationMode = RotationMode (2i64) ; } impl From < i64 > for RotationMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < RotationMode > for i64 { # [inline] fn from (v : RotationMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TrackerType (pub i64) ; impl TrackerType { pub const CONTROLLER : TrackerType = TrackerType (1i64) ; pub const BASESTATION : TrackerType = TrackerType (2i64) ; pub const ANCHOR : TrackerType = TrackerType (4i64) ; pub const ANY_KNOWN : TrackerType = TrackerType (127i64) ; pub const UNKNOWN : TrackerType = TrackerType (128i64) ; pub const ANY : TrackerType = TrackerType (255i64) ; } impl From < i64 > for TrackerType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TrackerType > for i64 { # [inline] fn from (v : TrackerType) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ARVRServer { pub const DONT_RESET_ROTATION : i64 = 2i64 ; pub const RESET_BUT_KEEP_TILT : i64 = 1i64 ; pub const RESET_FULL_ROTATION : i64 = 0i64 ; pub const TRACKER_ANCHOR : i64 = 4i64 ; pub const TRACKER_ANY : i64 = 255i64 ; pub const TRACKER_ANY_KNOWN : i64 = 127i64 ; pub const TRACKER_BASESTATION : i64 = 2i64 ; pub const TRACKER_CONTROLLER : i64 = 1i64 ; pub const TRACKER_UNKNOWN : i64 = 128i64 ; } impl ARVRServer { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("ARVRServer\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "This is an important function to understand correctly. AR and VR platforms all handle positioning slightly differently.\nFor platforms that do not offer spatial tracking, our origin point (0,0,0) is the location of our HMD, but you have little control over the direction the player is facing in the real world.\nFor platforms that do offer spatial tracking, our origin point depends very much on the system. For OpenVR, our origin point is usually the center of the tracking space, on the ground. For other platforms, it's often the location of the tracking camera.\nThis method allows you to center your tracker on the location of the HMD. It will take the current location of the HMD and use that to adjust all your tracking data; in essence, realigning the real world to your player's current position in the game world.\nFor this method to produce usable results, tracking information must be available. This often takes a few frames after starting your game.\nYou should call this method after a few seconds have passed. For instance, when the user requests a realignment of the display holding a designated button on a controller for a short period of time, or when implementing a teleport mechanism."] # [doc = ""] # [inline] pub fn center_on_hmd (& self , rotation_mode : i64 , keep_height : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . center_on_hmd ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , rotation_mode , keep_height) ; } } # [doc = "Finds an interface by its name. For instance, if your project uses capabilities of an AR/VR platform, you can find the interface for that platform by name and initialize it."] # [doc = ""] # [inline] pub fn find_interface (& self , name : impl Into < GodotString >) -> Option < Ref < crate :: generated :: arvr_interface :: ARVRInterface , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . find_interface ; let ret = crate :: icalls :: icallptr_obj_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: arvr_interface :: ARVRInterface , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the primary interface's transformation."] # [doc = ""] # [inline] pub fn get_hmd_transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_hmd_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the interface registered at a given index in our list of interfaces."] # [doc = ""] # [inline] pub fn get_interface (& self , idx : i64) -> Option < Ref < crate :: generated :: arvr_interface :: ARVRInterface , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_interface ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: arvr_interface :: ARVRInterface , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of interfaces currently registered with the AR/VR server. If your project supports multiple AR/VR platforms, you can look through the available interface, and either present the user with a selection or simply try to initialize each interface and use the first one that returns `true`."] # [doc = ""] # [inline] pub fn get_interface_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_interface_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a list of available interfaces the ID and name of each interface."] # [doc = ""] # [inline] pub fn get_interfaces (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_interfaces ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the absolute timestamp (in μs) of the last [ARVRServer] commit of the AR/VR eyes to [VisualServer]. The value comes from an internal call to [method OS.get_ticks_usec]."] # [doc = ""] # [inline] pub fn get_last_commit_usec (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_last_commit_usec ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the duration (in μs) of the last frame. This is computed as the difference between [method get_last_commit_usec] and [method get_last_process_usec] when committing."] # [doc = ""] # [inline] pub fn get_last_frame_usec (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_last_frame_usec ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the absolute timestamp (in μs) of the last [ARVRServer] process callback. The value comes from an internal call to [method OS.get_ticks_usec]."] # [doc = ""] # [inline] pub fn get_last_process_usec (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_last_process_usec ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The primary [ARVRInterface] currently bound to the [ARVRServer]."] # [doc = ""] # [inline] pub fn primary_interface (& self) -> Option < Ref < crate :: generated :: arvr_interface :: ARVRInterface , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_primary_interface ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: arvr_interface :: ARVRInterface , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the reference frame transform. Mostly used internally and exposed for GDNative build interfaces."] # [doc = ""] # [inline] pub fn get_reference_frame (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_reference_frame ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the positional tracker at the given ID."] # [doc = ""] # [inline] pub fn get_tracker (& self , idx : i64) -> Option < Ref < crate :: generated :: arvr_positional_tracker :: ARVRPositionalTracker , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_tracker ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: arvr_positional_tracker :: ARVRPositionalTracker , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of trackers currently registered."] # [doc = ""] # [inline] pub fn get_tracker_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_tracker_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Allows you to adjust the scale to your game's units. Most AR/VR platforms assume a scale of 1 game world unit = 1 real world meter."] # [doc = ""] # [inline] pub fn world_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . get_world_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The primary [ARVRInterface] currently bound to the [ARVRServer]."] # [doc = ""] # [inline] pub fn set_primary_interface (& self , interface : impl AsArg < crate :: generated :: arvr_interface :: ARVRInterface >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . set_primary_interface ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , interface . as_arg_ptr ()) ; } } # [doc = "Allows you to adjust the scale to your game's units. Most AR/VR platforms assume a scale of 1 game world unit = 1 real world meter."] # [doc = ""] # [inline] pub fn set_world_scale (& self , arg0 : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRServerMethodTable :: get (get_api ()) . set_world_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , arg0) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ARVRServer { } unsafe impl GodotObject for ARVRServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ARVRServer" } } impl std :: ops :: Deref for ARVRServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ARVRServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for ARVRServer { } unsafe impl Send for ARVRServer { } unsafe impl Sync for ARVRServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ARVRServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub center_on_hmd : * mut sys :: godot_method_bind , pub find_interface : * mut sys :: godot_method_bind , pub get_hmd_transform : * mut sys :: godot_method_bind , pub get_interface : * mut sys :: godot_method_bind , pub get_interface_count : * mut sys :: godot_method_bind , pub get_interfaces : * mut sys :: godot_method_bind , pub get_last_commit_usec : * mut sys :: godot_method_bind , pub get_last_frame_usec : * mut sys :: godot_method_bind , pub get_last_process_usec : * mut sys :: godot_method_bind , pub get_primary_interface : * mut sys :: godot_method_bind , pub get_reference_frame : * mut sys :: godot_method_bind , pub get_tracker : * mut sys :: godot_method_bind , pub get_tracker_count : * mut sys :: godot_method_bind , pub get_world_scale : * mut sys :: godot_method_bind , pub set_primary_interface : * mut sys :: godot_method_bind , pub set_world_scale : * mut sys :: godot_method_bind } impl ARVRServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ARVRServerMethodTable = ARVRServerMethodTable { class_constructor : None , center_on_hmd : 0 as * mut sys :: godot_method_bind , find_interface : 0 as * mut sys :: godot_method_bind , get_hmd_transform : 0 as * mut sys :: godot_method_bind , get_interface : 0 as * mut sys :: godot_method_bind , get_interface_count : 0 as * mut sys :: godot_method_bind , get_interfaces : 0 as * mut sys :: godot_method_bind , get_last_commit_usec : 0 as * mut sys :: godot_method_bind , get_last_frame_usec : 0 as * mut sys :: godot_method_bind , get_last_process_usec : 0 as * mut sys :: godot_method_bind , get_primary_interface : 0 as * mut sys :: godot_method_bind , get_reference_frame : 0 as * mut sys :: godot_method_bind , get_tracker : 0 as * mut sys :: godot_method_bind , get_tracker_count : 0 as * mut sys :: godot_method_bind , get_world_scale : 0 as * mut sys :: godot_method_bind , set_primary_interface : 0 as * mut sys :: godot_method_bind , set_world_scale : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ARVRServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ARVRServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . center_on_hmd = (gd_api . godot_method_bind_get_method) (class_name , "center_on_hmd\0" . as_ptr () as * const c_char) ; table . find_interface = (gd_api . godot_method_bind_get_method) (class_name , "find_interface\0" . as_ptr () as * const c_char) ; table . get_hmd_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_hmd_transform\0" . as_ptr () as * const c_char) ; table . get_interface = (gd_api . godot_method_bind_get_method) (class_name , "get_interface\0" . as_ptr () as * const c_char) ; table . get_interface_count = (gd_api . godot_method_bind_get_method) (class_name , "get_interface_count\0" . as_ptr () as * const c_char) ; table . get_interfaces = (gd_api . godot_method_bind_get_method) (class_name , "get_interfaces\0" . as_ptr () as * const c_char) ; table . get_last_commit_usec = (gd_api . godot_method_bind_get_method) (class_name , "get_last_commit_usec\0" . as_ptr () as * const c_char) ; table . get_last_frame_usec = (gd_api . godot_method_bind_get_method) (class_name , "get_last_frame_usec\0" . as_ptr () as * const c_char) ; table . get_last_process_usec = (gd_api . godot_method_bind_get_method) (class_name , "get_last_process_usec\0" . as_ptr () as * const c_char) ; table . get_primary_interface = (gd_api . godot_method_bind_get_method) (class_name , "get_primary_interface\0" . as_ptr () as * const c_char) ; table . get_reference_frame = (gd_api . godot_method_bind_get_method) (class_name , "get_reference_frame\0" . as_ptr () as * const c_char) ; table . get_tracker = (gd_api . godot_method_bind_get_method) (class_name , "get_tracker\0" . as_ptr () as * const c_char) ; table . get_tracker_count = (gd_api . godot_method_bind_get_method) (class_name , "get_tracker_count\0" . as_ptr () as * const c_char) ; table . get_world_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_world_scale\0" . as_ptr () as * const c_char) ; table . set_primary_interface = (gd_api . godot_method_bind_get_method) (class_name , "set_primary_interface\0" . as_ptr () as * const c_char) ; table . set_world_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_world_scale\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:274:4969 [INFO] [stdout] | [INFO] [stdout] 274 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 274 | # [doc = "`core class AnimationNodeAnimation` inherits `AnimationRootNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeanimation.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeAnimation inherits methods from:\n - [AnimationRootNode](struct.AnimationRootNode.html)\n - [AnimationNode](struct.AnimationNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AnimationNodeAnimation { this : RawObject < Self > , } impl AnimationNodeAnimation { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AnimationNodeAnimationMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Animation to use as an output. It is one of the animations provided by [member AnimationTree.anim_player]."] # [doc = ""] # [inline] pub fn animation (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeAnimationMethodTable :: get (get_api ()) . get_animation ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Animation to use as an output. It is one of the animations provided by [member AnimationTree.anim_player]."] # [doc = ""] # [inline] pub fn set_animation (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeAnimationMethodTable :: get (get_api ()) . set_animation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeAnimation { } unsafe impl GodotObject for AnimationNodeAnimation { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeAnimation" } } impl std :: ops :: Deref for AnimationNodeAnimation { type Target = crate :: generated :: animation_root_node :: AnimationRootNode ; # [inline] fn deref (& self) -> & crate :: generated :: animation_root_node :: AnimationRootNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationNodeAnimation { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: animation_root_node :: AnimationRootNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: animation_root_node :: AnimationRootNode > for AnimationNodeAnimation { } unsafe impl SubClass < crate :: generated :: animation_node :: AnimationNode > for AnimationNodeAnimation { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeAnimation { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeAnimation { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeAnimation { } impl Instanciable for AnimationNodeAnimation { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeAnimation :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeAnimationMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_animation : * mut sys :: godot_method_bind , pub set_animation : * mut sys :: godot_method_bind } impl AnimationNodeAnimationMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeAnimationMethodTable = AnimationNodeAnimationMethodTable { class_constructor : None , get_animation : 0 as * mut sys :: godot_method_bind , set_animation : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeAnimationMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeAnimation\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_animation = (gd_api . godot_method_bind_get_method) (class_name , "get_animation\0" . as_ptr () as * const c_char) ; table . set_animation = (gd_api . godot_method_bind_get_method) (class_name , "set_animation\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:280:4498 [INFO] [stdout] | [INFO] [stdout] 280 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 280 | # [doc = "`core class ButtonGroup` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_buttongroup.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nButtonGroup inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ButtonGroup { this : RawObject < Self > , } impl ButtonGroup { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ButtonGroupMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Returns an [Array] of [Button]s who have this as their [ButtonGroup] (see [member BaseButton.group])."] # [doc = ""] # [inline] pub fn get_buttons (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ButtonGroupMethodTable :: get (get_api ()) . get_buttons ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the current pressed button."] # [doc = ""] # [inline] pub fn get_pressed_button (& self) -> Option < Ref < crate :: generated :: base_button :: BaseButton , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ButtonGroupMethodTable :: get (get_api ()) . get_pressed_button ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: base_button :: BaseButton , thread_access :: Shared >> :: move_from_sys (sys)) } } } impl gdnative_core :: private :: godot_object :: Sealed for ButtonGroup { } unsafe impl GodotObject for ButtonGroup { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ButtonGroup" } } impl std :: ops :: Deref for ButtonGroup { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ButtonGroup { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ButtonGroup { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ButtonGroup { } unsafe impl SubClass < crate :: generated :: object :: Object > for ButtonGroup { } impl Instanciable for ButtonGroup { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ButtonGroup :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ButtonGroupMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_buttons : * mut sys :: godot_method_bind , pub get_pressed_button : * mut sys :: godot_method_bind } impl ButtonGroupMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ButtonGroupMethodTable = ButtonGroupMethodTable { class_constructor : None , get_buttons : 0 as * mut sys :: godot_method_bind , get_pressed_button : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ButtonGroupMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ButtonGroup\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_buttons = (gd_api . godot_method_bind_get_method) (class_name , "get_buttons\0" . as_ptr () as * const c_char) ; table . get_pressed_button = (gd_api . godot_method_bind_get_method) (class_name , "get_pressed_button\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:286:4658 [INFO] [stdout] | [INFO] [stdout] 286 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 286 | # [doc = "`core class VisualScriptCustomNode` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptcustomnode.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptCustomNode inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptCustomNode { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct StartMode (pub i64) ; impl StartMode { pub const BEGIN_SEQUENCE : StartMode = StartMode (0i64) ; pub const CONTINUE_SEQUENCE : StartMode = StartMode (1i64) ; pub const RESUME_YIELD : StartMode = StartMode (2i64) ; } impl From < i64 > for StartMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < StartMode > for i64 { # [inline] fn from (v : StartMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualScriptCustomNode { pub const START_MODE_BEGIN_SEQUENCE : i64 = 0i64 ; pub const START_MODE_CONTINUE_SEQUENCE : i64 = 1i64 ; pub const START_MODE_RESUME_YIELD : i64 = 2i64 ; pub const STEP_EXIT_FUNCTION_BIT : i64 = 134217728i64 ; pub const STEP_GO_BACK_BIT : i64 = 33554432i64 ; pub const STEP_NO_ADVANCE_BIT : i64 = 67108864i64 ; pub const STEP_PUSH_STACK_BIT : i64 = 16777216i64 ; pub const STEP_YIELD_BIT : i64 = 268435456i64 ; } impl VisualScriptCustomNode { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptCustomNodeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptCustomNode { } unsafe impl GodotObject for VisualScriptCustomNode { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptCustomNode" } } impl std :: ops :: Deref for VisualScriptCustomNode { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptCustomNode { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptCustomNode { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptCustomNode { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptCustomNode { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptCustomNode { } impl Instanciable for VisualScriptCustomNode { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptCustomNode :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptCustomNodeMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptCustomNodeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptCustomNodeMethodTable = VisualScriptCustomNodeMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptCustomNodeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptCustomNode\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:292:25426 [INFO] [stdout] | [INFO] [stdout] 292 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 292 | # [doc = "`core class Polygon2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_polygon2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Polygon2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nPolygon2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Polygon2D { this : RawObject < Self > , } impl Polygon2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = Polygon2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a bone with the specified `path` and `weights`."] # [doc = ""] # [inline] pub fn add_bone (& self , path : impl Into < NodePath > , weights : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . add_bone ; let ret = crate :: icalls :: icallptr_void_nodepath_f32arr (method_bind , self . this . sys () . as_ptr () , path . into () , weights) ; } } # [doc = "Removes all bones from this [Polygon2D]."] # [doc = ""] # [inline] pub fn clear_bones (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . clear_bones ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes the specified bone from this [Polygon2D]."] # [doc = ""] # [inline] pub fn erase_bone (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . erase_bone ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "If `true`, polygon edges will be anti-aliased."] # [doc = ""] # [inline] pub fn antialiased (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_antialiased ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the number of bones in this [Polygon2D]."] # [doc = ""] # [inline] pub fn get_bone_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_bone_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the path to the node associated with the specified bone."] # [doc = ""] # [inline] pub fn get_bone_path (& self , index : i64) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_bone_path ; let ret = crate :: icalls :: icallptr_nodepath_i64 (method_bind , self . this . sys () . as_ptr () , index) ; NodePath :: from_sys (ret) } } # [doc = "Returns the height values of the specified bone."] # [doc = ""] # [inline] pub fn get_bone_weights (& self , index : i64) -> Float32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_bone_weights ; let ret = crate :: icalls :: icallptr_f32arr_i64 (method_bind , self . this . sys () . as_ptr () , index) ; Float32Array :: from_sys (ret) } } # [doc = "The polygon's fill color. If `texture` is defined, it will be multiplied by this color. It will also be the default color for vertices not set in `vertex_colors`."] # [doc = ""] # [inline] pub fn color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn internal_vertex_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_internal_vertex_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, polygon will be inverted, containing the area outside the defined points and extending to the `invert_border`."] # [doc = ""] # [inline] pub fn invert (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_invert ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Added padding applied to the bounding box when using `invert`. Setting this value too small may result in a \"Bad Polygon\" error."] # [doc = ""] # [inline] pub fn invert_border (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_invert_border ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The offset applied to each vertex."] # [doc = ""] # [inline] pub fn offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The polygon's list of vertices. The final point will be connected to the first.\n**Note:** This returns a copy of the [PoolVector2Array] rather than a reference."] # [doc = ""] # [inline] pub fn polygon (& self) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_polygon ; let ret = crate :: icalls :: icallptr_vec2arr (method_bind , self . this . sys () . as_ptr ()) ; Vector2Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn polygons (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_polygons ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = ""] # [doc = ""] # [inline] pub fn skeleton (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_skeleton ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The polygon's fill texture. Use `uv` to set texture coordinates."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_texture ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Amount to offset the polygon's `texture`. If `(0, 0)` the texture's origin (its top-left corner) will be placed at the polygon's `position`."] # [doc = ""] # [inline] pub fn texture_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_texture_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The texture's rotation in radians."] # [doc = ""] # [inline] pub fn texture_rotation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_texture_rotation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The texture's rotation in degrees."] # [doc = ""] # [inline] pub fn texture_rotation_degrees (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_texture_rotation_degrees ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount to multiply the `uv` coordinates when using a `texture`. Larger values make the texture smaller, and vice versa."] # [doc = ""] # [inline] pub fn texture_scale (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_texture_scale ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Texture coordinates for each vertex of the polygon. There should be one `uv` per polygon vertex. If there are fewer, undefined vertices will use `(0, 0)`."] # [doc = ""] # [inline] pub fn uv (& self) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_uv ; let ret = crate :: icalls :: icallptr_vec2arr (method_bind , self . this . sys () . as_ptr ()) ; Vector2Array :: from_sys (ret) } } # [doc = "Color for each vertex. Colors are interpolated between vertices, resulting in smooth gradients. There should be one per polygon vertex. If there are fewer, undefined vertices will use `color`."] # [doc = ""] # [inline] pub fn vertex_colors (& self) -> ColorArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . get_vertex_colors ; let ret = crate :: icalls :: icallptr_colorarr (method_bind , self . this . sys () . as_ptr ()) ; ColorArray :: from_sys (ret) } } # [doc = "If `true`, polygon edges will be anti-aliased."] # [doc = ""] # [inline] pub fn set_antialiased (& self , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_antialiased ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , antialiased) ; } } # [doc = "Sets the path to the node associated with the specified bone."] # [doc = ""] # [inline] pub fn set_bone_path (& self , index : i64 , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_bone_path ; let ret = crate :: icalls :: icallptr_void_i64_nodepath (method_bind , self . this . sys () . as_ptr () , index , path . into ()) ; } } # [doc = "Sets the weight values for the specified bone."] # [doc = ""] # [inline] pub fn set_bone_weights (& self , index : i64 , weights : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_bone_weights ; let ret = crate :: icalls :: icallptr_void_i64_f32arr (method_bind , self . this . sys () . as_ptr () , index , weights) ; } } # [doc = "The polygon's fill color. If `texture` is defined, it will be multiplied by this color. It will also be the default color for vertices not set in `vertex_colors`."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_internal_vertex_count (& self , internal_vertex_count : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_internal_vertex_count ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , internal_vertex_count) ; } } # [doc = "If `true`, polygon will be inverted, containing the area outside the defined points and extending to the `invert_border`."] # [doc = ""] # [inline] pub fn set_invert (& self , invert : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_invert ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , invert) ; } } # [doc = "Added padding applied to the bounding box when using `invert`. Setting this value too small may result in a \"Bad Polygon\" error."] # [doc = ""] # [inline] pub fn set_invert_border (& self , invert_border : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_invert_border ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , invert_border) ; } } # [doc = "The offset applied to each vertex."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The polygon's list of vertices. The final point will be connected to the first.\n**Note:** This returns a copy of the [PoolVector2Array] rather than a reference."] # [doc = ""] # [inline] pub fn set_polygon (& self , polygon : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_polygon ; let ret = crate :: icalls :: icallptr_void_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_polygons (& self , polygons : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_polygons ; let ret = crate :: icalls :: icallptr_void_arr (method_bind , self . this . sys () . as_ptr () , polygons) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_skeleton (& self , skeleton : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_skeleton ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , skeleton . into ()) ; } } # [doc = "The polygon's fill texture. Use `uv` to set texture coordinates."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "Amount to offset the polygon's `texture`. If `(0, 0)` the texture's origin (its top-left corner) will be placed at the polygon's `position`."] # [doc = ""] # [inline] pub fn set_texture_offset (& self , texture_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_texture_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , texture_offset) ; } } # [doc = "The texture's rotation in radians."] # [doc = ""] # [inline] pub fn set_texture_rotation (& self , texture_rotation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_texture_rotation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , texture_rotation) ; } } # [doc = "The texture's rotation in degrees."] # [doc = ""] # [inline] pub fn set_texture_rotation_degrees (& self , texture_rotation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_texture_rotation_degrees ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , texture_rotation) ; } } # [doc = "Amount to multiply the `uv` coordinates when using a `texture`. Larger values make the texture smaller, and vice versa."] # [doc = ""] # [inline] pub fn set_texture_scale (& self , texture_scale : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_texture_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , texture_scale) ; } } # [doc = "Texture coordinates for each vertex of the polygon. There should be one `uv` per polygon vertex. If there are fewer, undefined vertices will use `(0, 0)`."] # [doc = ""] # [inline] pub fn set_uv (& self , uv : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_uv ; let ret = crate :: icalls :: icallptr_void_vec2arr (method_bind , self . this . sys () . as_ptr () , uv) ; } } # [doc = "Color for each vertex. Colors are interpolated between vertices, resulting in smooth gradients. There should be one per polygon vertex. If there are fewer, undefined vertices will use `color`."] # [doc = ""] # [inline] pub fn set_vertex_colors (& self , vertex_colors : ColorArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Polygon2DMethodTable :: get (get_api ()) . set_vertex_colors ; let ret = crate :: icalls :: icallptr_void_colorarr (method_bind , self . this . sys () . as_ptr () , vertex_colors) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Polygon2D { } unsafe impl GodotObject for Polygon2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Polygon2D" } } impl QueueFree for Polygon2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Polygon2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Polygon2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for Polygon2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Polygon2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Polygon2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Polygon2D { } impl Instanciable for Polygon2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Polygon2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Polygon2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_bone : * mut sys :: godot_method_bind , pub clear_bones : * mut sys :: godot_method_bind , pub erase_bone : * mut sys :: godot_method_bind , pub get_antialiased : * mut sys :: godot_method_bind , pub get_bone_count : * mut sys :: godot_method_bind , pub get_bone_path : * mut sys :: godot_method_bind , pub get_bone_weights : * mut sys :: godot_method_bind , pub get_color : * mut sys :: godot_method_bind , pub get_internal_vertex_count : * mut sys :: godot_method_bind , pub get_invert : * mut sys :: godot_method_bind , pub get_invert_border : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_polygon : * mut sys :: godot_method_bind , pub get_polygons : * mut sys :: godot_method_bind , pub get_skeleton : * mut sys :: godot_method_bind , pub get_texture : * mut sys :: godot_method_bind , pub get_texture_offset : * mut sys :: godot_method_bind , pub get_texture_rotation : * mut sys :: godot_method_bind , pub get_texture_rotation_degrees : * mut sys :: godot_method_bind , pub get_texture_scale : * mut sys :: godot_method_bind , pub get_uv : * mut sys :: godot_method_bind , pub get_vertex_colors : * mut sys :: godot_method_bind , pub set_antialiased : * mut sys :: godot_method_bind , pub set_bone_path : * mut sys :: godot_method_bind , pub set_bone_weights : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_internal_vertex_count : * mut sys :: godot_method_bind , pub set_invert : * mut sys :: godot_method_bind , pub set_invert_border : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_polygon : * mut sys :: godot_method_bind , pub set_polygons : * mut sys :: godot_method_bind , pub set_skeleton : * mut sys :: godot_method_bind , pub set_texture : * mut sys :: godot_method_bind , pub set_texture_offset : * mut sys :: godot_method_bind , pub set_texture_rotation : * mut sys :: godot_method_bind , pub set_texture_rotation_degrees : * mut sys :: godot_method_bind , pub set_texture_scale : * mut sys :: godot_method_bind , pub set_uv : * mut sys :: godot_method_bind , pub set_vertex_colors : * mut sys :: godot_method_bind } impl Polygon2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Polygon2DMethodTable = Polygon2DMethodTable { class_constructor : None , add_bone : 0 as * mut sys :: godot_method_bind , clear_bones : 0 as * mut sys :: godot_method_bind , erase_bone : 0 as * mut sys :: godot_method_bind , get_antialiased : 0 as * mut sys :: godot_method_bind , get_bone_count : 0 as * mut sys :: godot_method_bind , get_bone_path : 0 as * mut sys :: godot_method_bind , get_bone_weights : 0 as * mut sys :: godot_method_bind , get_color : 0 as * mut sys :: godot_method_bind , get_internal_vertex_count : 0 as * mut sys :: godot_method_bind , get_invert : 0 as * mut sys :: godot_method_bind , get_invert_border : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_polygon : 0 as * mut sys :: godot_method_bind , get_polygons : 0 as * mut sys :: godot_method_bind , get_skeleton : 0 as * mut sys :: godot_method_bind , get_texture : 0 as * mut sys :: godot_method_bind , get_texture_offset : 0 as * mut sys :: godot_method_bind , get_texture_rotation : 0 as * mut sys :: godot_method_bind , get_texture_rotation_degrees : 0 as * mut sys :: godot_method_bind , get_texture_scale : 0 as * mut sys :: godot_method_bind , get_uv : 0 as * mut sys :: godot_method_bind , get_vertex_colors : 0 as * mut sys :: godot_method_bind , set_antialiased : 0 as * mut sys :: godot_method_bind , set_bone_path : 0 as * mut sys :: godot_method_bind , set_bone_weights : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_internal_vertex_count : 0 as * mut sys :: godot_method_bind , set_invert : 0 as * mut sys :: godot_method_bind , set_invert_border : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_polygon : 0 as * mut sys :: godot_method_bind , set_polygons : 0 as * mut sys :: godot_method_bind , set_skeleton : 0 as * mut sys :: godot_method_bind , set_texture : 0 as * mut sys :: godot_method_bind , set_texture_offset : 0 as * mut sys :: godot_method_bind , set_texture_rotation : 0 as * mut sys :: godot_method_bind , set_texture_rotation_degrees : 0 as * mut sys :: godot_method_bind , set_texture_scale : 0 as * mut sys :: godot_method_bind , set_uv : 0 as * mut sys :: godot_method_bind , set_vertex_colors : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Polygon2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Polygon2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_bone = (gd_api . godot_method_bind_get_method) (class_name , "add_bone\0" . as_ptr () as * const c_char) ; table . clear_bones = (gd_api . godot_method_bind_get_method) (class_name , "clear_bones\0" . as_ptr () as * const c_char) ; table . erase_bone = (gd_api . godot_method_bind_get_method) (class_name , "erase_bone\0" . as_ptr () as * const c_char) ; table . get_antialiased = (gd_api . godot_method_bind_get_method) (class_name , "get_antialiased\0" . as_ptr () as * const c_char) ; table . get_bone_count = (gd_api . godot_method_bind_get_method) (class_name , "get_bone_count\0" . as_ptr () as * const c_char) ; table . get_bone_path = (gd_api . godot_method_bind_get_method) (class_name , "get_bone_path\0" . as_ptr () as * const c_char) ; table . get_bone_weights = (gd_api . godot_method_bind_get_method) (class_name , "get_bone_weights\0" . as_ptr () as * const c_char) ; table . get_color = (gd_api . godot_method_bind_get_method) (class_name , "get_color\0" . as_ptr () as * const c_char) ; table . get_internal_vertex_count = (gd_api . godot_method_bind_get_method) (class_name , "get_internal_vertex_count\0" . as_ptr () as * const c_char) ; table . get_invert = (gd_api . godot_method_bind_get_method) (class_name , "get_invert\0" . as_ptr () as * const c_char) ; table . get_invert_border = (gd_api . godot_method_bind_get_method) (class_name , "get_invert_border\0" . as_ptr () as * const c_char) ; table . get_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_offset\0" . as_ptr () as * const c_char) ; table . get_polygon = (gd_api . godot_method_bind_get_method) (class_name , "get_polygon\0" . as_ptr () as * const c_char) ; table . get_polygons = (gd_api . godot_method_bind_get_method) (class_name , "get_polygons\0" . as_ptr () as * const c_char) ; table . get_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "get_skeleton\0" . as_ptr () as * const c_char) ; table . get_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_texture\0" . as_ptr () as * const c_char) ; table . get_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_offset\0" . as_ptr () as * const c_char) ; table . get_texture_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_rotation\0" . as_ptr () as * const c_char) ; table . get_texture_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_rotation_degrees\0" . as_ptr () as * const c_char) ; table . get_texture_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_scale\0" . as_ptr () as * const c_char) ; table . get_uv = (gd_api . godot_method_bind_get_method) (class_name , "get_uv\0" . as_ptr () as * const c_char) ; table . get_vertex_colors = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_colors\0" . as_ptr () as * const c_char) ; table . set_antialiased = (gd_api . godot_method_bind_get_method) (class_name , "set_antialiased\0" . as_ptr () as * const c_char) ; table . set_bone_path = (gd_api . godot_method_bind_get_method) (class_name , "set_bone_path\0" . as_ptr () as * const c_char) ; table . set_bone_weights = (gd_api . godot_method_bind_get_method) (class_name , "set_bone_weights\0" . as_ptr () as * const c_char) ; table . set_color = (gd_api . godot_method_bind_get_method) (class_name , "set_color\0" . as_ptr () as * const c_char) ; table . set_internal_vertex_count = (gd_api . godot_method_bind_get_method) (class_name , "set_internal_vertex_count\0" . as_ptr () as * const c_char) ; table . set_invert = (gd_api . godot_method_bind_get_method) (class_name , "set_invert\0" . as_ptr () as * const c_char) ; table . set_invert_border = (gd_api . godot_method_bind_get_method) (class_name , "set_invert_border\0" . as_ptr () as * const c_char) ; table . set_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_offset\0" . as_ptr () as * const c_char) ; table . set_polygon = (gd_api . godot_method_bind_get_method) (class_name , "set_polygon\0" . as_ptr () as * const c_char) ; table . set_polygons = (gd_api . godot_method_bind_get_method) (class_name , "set_polygons\0" . as_ptr () as * const c_char) ; table . set_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "set_skeleton\0" . as_ptr () as * const c_char) ; table . set_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_texture\0" . as_ptr () as * const c_char) ; table . set_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_offset\0" . as_ptr () as * const c_char) ; table . set_texture_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_rotation\0" . as_ptr () as * const c_char) ; table . set_texture_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_rotation_degrees\0" . as_ptr () as * const c_char) ; table . set_texture_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_scale\0" . as_ptr () as * const c_char) ; table . set_uv = (gd_api . godot_method_bind_get_method) (class_name , "set_uv\0" . as_ptr () as * const c_char) ; table . set_vertex_colors = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_colors\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:298:5245 [INFO] [stdout] | [INFO] [stdout] 298 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 298 | # [doc = "`core class BoneAttachment` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_boneattachment.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`BoneAttachment` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nBoneAttachment inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct BoneAttachment { this : RawObject < Self > , } impl BoneAttachment { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = BoneAttachmentMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The name of the attached bone."] # [doc = ""] # [inline] pub fn bone_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = BoneAttachmentMethodTable :: get (get_api ()) . get_bone_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The name of the attached bone."] # [doc = ""] # [inline] pub fn set_bone_name (& self , bone_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BoneAttachmentMethodTable :: get (get_api ()) . set_bone_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , bone_name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for BoneAttachment { } unsafe impl GodotObject for BoneAttachment { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "BoneAttachment" } } impl QueueFree for BoneAttachment { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for BoneAttachment { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for BoneAttachment { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for BoneAttachment { } unsafe impl SubClass < crate :: generated :: node :: Node > for BoneAttachment { } unsafe impl SubClass < crate :: generated :: object :: Object > for BoneAttachment { } impl Instanciable for BoneAttachment { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { BoneAttachment :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct BoneAttachmentMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bone_name : * mut sys :: godot_method_bind , pub set_bone_name : * mut sys :: godot_method_bind } impl BoneAttachmentMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : BoneAttachmentMethodTable = BoneAttachmentMethodTable { class_constructor : None , get_bone_name : 0 as * mut sys :: godot_method_bind , set_bone_name : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { BoneAttachmentMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "BoneAttachment\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bone_name = (gd_api . godot_method_bind_get_method) (class_name , "get_bone_name\0" . as_ptr () as * const c_char) ; table . set_bone_name = (gd_api . godot_method_bind_get_method) (class_name , "set_bone_name\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:304:7052 [INFO] [stdout] | [INFO] [stdout] 304 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 304 | # [doc = "`core class WindowDialog` inherits `Popup` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_windowdialog.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`WindowDialog` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nWindowDialog inherits methods from:\n - [Popup](struct.Popup.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct WindowDialog { this : RawObject < Self > , } impl WindowDialog { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = WindowDialogMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Returns the close [TextureButton]."] # [doc = ""] # [inline] pub fn get_close_button (& self) -> Option < Ref < crate :: generated :: texture_button :: TextureButton , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WindowDialogMethodTable :: get (get_api ()) . get_close_button ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture_button :: TextureButton , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, the user can resize the window."] # [doc = ""] # [inline] pub fn resizable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = WindowDialogMethodTable :: get (get_api ()) . get_resizable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The text displayed in the window's title bar."] # [doc = ""] # [inline] pub fn title (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WindowDialogMethodTable :: get (get_api ()) . get_title ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "If `true`, the user can resize the window."] # [doc = ""] # [inline] pub fn set_resizable (& self , resizable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WindowDialogMethodTable :: get (get_api ()) . set_resizable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , resizable) ; } } # [doc = "The text displayed in the window's title bar."] # [doc = ""] # [inline] pub fn set_title (& self , title : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WindowDialogMethodTable :: get (get_api ()) . set_title ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , title . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for WindowDialog { } unsafe impl GodotObject for WindowDialog { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "WindowDialog" } } impl QueueFree for WindowDialog { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for WindowDialog { type Target = crate :: generated :: popup :: Popup ; # [inline] fn deref (& self) -> & crate :: generated :: popup :: Popup { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WindowDialog { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: popup :: Popup { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: popup :: Popup > for WindowDialog { } unsafe impl SubClass < crate :: generated :: control :: Control > for WindowDialog { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for WindowDialog { } unsafe impl SubClass < crate :: generated :: node :: Node > for WindowDialog { } unsafe impl SubClass < crate :: generated :: object :: Object > for WindowDialog { } impl Instanciable for WindowDialog { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { WindowDialog :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WindowDialogMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_close_button : * mut sys :: godot_method_bind , pub get_resizable : * mut sys :: godot_method_bind , pub get_title : * mut sys :: godot_method_bind , pub set_resizable : * mut sys :: godot_method_bind , pub set_title : * mut sys :: godot_method_bind } impl WindowDialogMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WindowDialogMethodTable = WindowDialogMethodTable { class_constructor : None , get_close_button : 0 as * mut sys :: godot_method_bind , get_resizable : 0 as * mut sys :: godot_method_bind , get_title : 0 as * mut sys :: godot_method_bind , set_resizable : 0 as * mut sys :: godot_method_bind , set_title : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { WindowDialogMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WindowDialog\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_close_button = (gd_api . godot_method_bind_get_method) (class_name , "get_close_button\0" . as_ptr () as * const c_char) ; table . get_resizable = (gd_api . godot_method_bind_get_method) (class_name , "get_resizable\0" . as_ptr () as * const c_char) ; table . get_title = (gd_api . godot_method_bind_get_method) (class_name , "get_title\0" . as_ptr () as * const c_char) ; table . set_resizable = (gd_api . godot_method_bind_get_method) (class_name , "set_resizable\0" . as_ptr () as * const c_char) ; table . set_title = (gd_api . godot_method_bind_get_method) (class_name , "set_title\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:310:3616 [INFO] [stdout] | [INFO] [stdout] 310 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 310 | # [doc = "`core class VisualScriptSubCall` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptsubcall.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptSubCall inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptSubCall { this : RawObject < Self > , } impl VisualScriptSubCall { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptSubCallMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptSubCall { } unsafe impl GodotObject for VisualScriptSubCall { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptSubCall" } } impl std :: ops :: Deref for VisualScriptSubCall { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptSubCall { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptSubCall { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptSubCall { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptSubCall { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptSubCall { } impl Instanciable for VisualScriptSubCall { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptSubCall :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptSubCallMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptSubCallMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptSubCallMethodTable = VisualScriptSubCallMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptSubCallMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptSubCall\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:316:32579 [INFO] [stdout] | [INFO] [stdout] 316 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 316 | # [doc = "`core singleton class Input` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_input.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nInput inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Input { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CursorShape (pub i64) ; impl CursorShape { pub const ARROW : CursorShape = CursorShape (0i64) ; pub const IBEAM : CursorShape = CursorShape (1i64) ; pub const POINTING_HAND : CursorShape = CursorShape (2i64) ; pub const CROSS : CursorShape = CursorShape (3i64) ; pub const WAIT : CursorShape = CursorShape (4i64) ; pub const BUSY : CursorShape = CursorShape (5i64) ; pub const DRAG : CursorShape = CursorShape (6i64) ; pub const CAN_DROP : CursorShape = CursorShape (7i64) ; pub const FORBIDDEN : CursorShape = CursorShape (8i64) ; pub const VSIZE : CursorShape = CursorShape (9i64) ; pub const HSIZE : CursorShape = CursorShape (10i64) ; pub const BDIAGSIZE : CursorShape = CursorShape (11i64) ; pub const FDIAGSIZE : CursorShape = CursorShape (12i64) ; pub const MOVE : CursorShape = CursorShape (13i64) ; pub const VSPLIT : CursorShape = CursorShape (14i64) ; pub const HSPLIT : CursorShape = CursorShape (15i64) ; pub const HELP : CursorShape = CursorShape (16i64) ; } impl From < i64 > for CursorShape { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CursorShape > for i64 { # [inline] fn from (v : CursorShape) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MouseMode (pub i64) ; impl MouseMode { pub const VISIBLE : MouseMode = MouseMode (0i64) ; pub const HIDDEN : MouseMode = MouseMode (1i64) ; pub const CAPTURED : MouseMode = MouseMode (2i64) ; pub const CONFINED : MouseMode = MouseMode (3i64) ; } impl From < i64 > for MouseMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MouseMode > for i64 { # [inline] fn from (v : MouseMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Input { pub const CURSOR_ARROW : i64 = 0i64 ; pub const CURSOR_BDIAGSIZE : i64 = 11i64 ; pub const CURSOR_BUSY : i64 = 5i64 ; pub const CURSOR_CAN_DROP : i64 = 7i64 ; pub const CURSOR_CROSS : i64 = 3i64 ; pub const CURSOR_DRAG : i64 = 6i64 ; pub const CURSOR_FDIAGSIZE : i64 = 12i64 ; pub const CURSOR_FORBIDDEN : i64 = 8i64 ; pub const CURSOR_HELP : i64 = 16i64 ; pub const CURSOR_HSIZE : i64 = 10i64 ; pub const CURSOR_HSPLIT : i64 = 15i64 ; pub const CURSOR_IBEAM : i64 = 1i64 ; pub const CURSOR_MOVE : i64 = 13i64 ; pub const CURSOR_POINTING_HAND : i64 = 2i64 ; pub const CURSOR_VSIZE : i64 = 9i64 ; pub const CURSOR_VSPLIT : i64 = 14i64 ; pub const CURSOR_WAIT : i64 = 4i64 ; pub const MOUSE_MODE_CAPTURED : i64 = 2i64 ; pub const MOUSE_MODE_CONFINED : i64 = 3i64 ; pub const MOUSE_MODE_HIDDEN : i64 = 1i64 ; pub const MOUSE_MODE_VISIBLE : i64 = 0i64 ; } impl Input { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("Input\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "This will simulate pressing the specified action.\nThe strength can be used for non-boolean actions, it's ranged between 0 and 1 representing the intensity of the given action.\n**Note:** This method will not cause any [method Node._input] calls. It is intended to be used with [method is_action_pressed] and [method is_action_just_pressed]. If you want to simulate `_input`, use [method parse_input_event] instead.\n# Default Arguments\n* `strength` - `1.0`"] # [doc = ""] # [inline] pub fn action_press (& self , action : impl Into < GodotString > , strength : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . action_press ; let ret = crate :: icalls :: icallptr_void_str_f64 (method_bind , self . this . sys () . as_ptr () , action . into () , strength) ; } } # [doc = "If the specified action is already pressed, this will release it."] # [doc = ""] # [inline] pub fn action_release (& self , action : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . action_release ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; } } # [doc = "Adds a new mapping entry (in SDL2 format) to the mapping database. Optionally update already connected devices.\n# Default Arguments\n* `update_existing` - `false`"] # [doc = ""] # [inline] pub fn add_joy_mapping (& self , mapping : impl Into < GodotString > , update_existing : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . add_joy_mapping ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , mapping . into () , update_existing) ; } } # [doc = "Returns the acceleration of the device's accelerometer, if the device has one. Otherwise, the method returns [constant Vector3.ZERO].\nNote this method returns an empty [Vector3] when running from the editor even when your device has an accelerometer. You must export your project to a supported device to read values from the accelerometer.\n**Note:** This method only works on iOS, Android, and UWP. On other platforms, it always returns [constant Vector3.ZERO]."] # [doc = ""] # [inline] pub fn get_accelerometer (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_accelerometer ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns a value between 0 and 1 representing the intensity of the given action. In a joypad, for example, the further away the axis (analog sticks or L2, R2 triggers) is from the dead zone, the closer the value will be to 1. If the action is mapped to a control that has no axis as the keyboard, the value returned will be 0 or 1."] # [doc = ""] # [inline] pub fn get_action_strength (& self , action : impl Into < GodotString >) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_action_strength ; let ret = crate :: icalls :: icallptr_f64_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; ret as _ } } # [doc = "Returns an [Array] containing the device IDs of all currently connected joypads."] # [doc = ""] # [inline] pub fn get_connected_joypads (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_connected_joypads ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the currently assigned cursor shape (see [enum CursorShape])."] # [doc = ""] # [inline] pub fn get_current_cursor_shape (& self) -> crate :: generated :: input :: CursorShape { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_current_cursor_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: input :: CursorShape (ret) } } # [doc = "Returns the gravity of the device's accelerometer, if the device has one. Otherwise, the method returns [constant Vector3.ZERO].\n**Note:** This method only works on Android and iOS. On other platforms, it always returns [constant Vector3.ZERO]."] # [doc = ""] # [inline] pub fn get_gravity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_gravity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the rotation rate in rad/s around a device's X, Y, and Z axes of the gyroscope, if the device has one. Otherwise, the method returns [constant Vector3.ZERO].\n**Note:** This method only works on Android. On other platforms, it always returns [constant Vector3.ZERO]."] # [doc = ""] # [inline] pub fn get_gyroscope (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_gyroscope ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the current value of the joypad axis at given index (see [enum JoystickList])."] # [doc = ""] # [inline] pub fn get_joy_axis (& self , device : i64 , axis : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_axis ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , device , axis) ; ret as _ } } # [doc = "Returns the index of the provided axis name."] # [doc = ""] # [inline] pub fn get_joy_axis_index_from_string (& self , axis : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_axis_index_from_string ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , axis . into ()) ; ret as _ } } # [doc = "Receives a [enum JoystickList] axis and returns its equivalent name as a string."] # [doc = ""] # [inline] pub fn get_joy_axis_string (& self , axis_index : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_axis_string ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , axis_index) ; GodotString :: from_sys (ret) } } # [doc = "Returns the index of the provided button name."] # [doc = ""] # [inline] pub fn get_joy_button_index_from_string (& self , button : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_button_index_from_string ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , button . into ()) ; ret as _ } } # [doc = "Receives a gamepad button from [enum JoystickList] and returns its equivalent name as a string."] # [doc = ""] # [inline] pub fn get_joy_button_string (& self , button_index : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_button_string ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , button_index) ; GodotString :: from_sys (ret) } } # [doc = "Returns a SDL2-compatible device GUID on platforms that use gamepad remapping. Returns `\"Default Gamepad\"` otherwise."] # [doc = ""] # [inline] pub fn get_joy_guid (& self , device : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_guid ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , device) ; GodotString :: from_sys (ret) } } # [doc = "Returns the name of the joypad at the specified device index."] # [doc = ""] # [inline] pub fn get_joy_name (& self , device : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , device) ; GodotString :: from_sys (ret) } } # [doc = "Returns the duration of the current vibration effect in seconds."] # [doc = ""] # [inline] pub fn get_joy_vibration_duration (& self , device : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_vibration_duration ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , device) ; ret as _ } } # [doc = "Returns the strength of the joypad vibration: x is the strength of the weak motor, and y is the strength of the strong motor."] # [doc = ""] # [inline] pub fn get_joy_vibration_strength (& self , device : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_joy_vibration_strength ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , device) ; mem :: transmute (ret) } } # [doc = "Returns the mouse speed for the last time the cursor was moved, and this until the next frame where the mouse moves. This means that even if the mouse is not moving, this function will still return the value of the last motion."] # [doc = ""] # [inline] pub fn get_last_mouse_speed (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_last_mouse_speed ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the the magnetic field strength in micro-Tesla for all axes of the device's magnetometer, if the device has one. Otherwise, the method returns [constant Vector3.ZERO].\n**Note:** This method only works on Android and UWP. On other platforms, it always returns [constant Vector3.ZERO]."] # [doc = ""] # [inline] pub fn get_magnetometer (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_magnetometer ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns mouse buttons as a bitmask. If multiple mouse buttons are pressed at the same time, the bits are added together."] # [doc = ""] # [inline] pub fn get_mouse_button_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_mouse_button_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the mouse mode. See the constants for more information."] # [doc = ""] # [inline] pub fn get_mouse_mode (& self) -> crate :: generated :: input :: MouseMode { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . get_mouse_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: input :: MouseMode (ret) } } # [doc = "Returns `true` when the user starts pressing the action event, meaning it's `true` only on the frame that the user pressed down the button.\nThis is useful for code that needs to run only once when an action is pressed, instead of every frame while it's pressed."] # [doc = ""] # [inline] pub fn is_action_just_pressed (& self , action : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . is_action_just_pressed ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; ret as _ } } # [doc = "Returns `true` when the user stops pressing the action event, meaning it's `true` only on the frame that the user released the button."] # [doc = ""] # [inline] pub fn is_action_just_released (& self , action : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . is_action_just_released ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; ret as _ } } # [doc = "Returns `true` if you are pressing the action event. Note that if an action has multiple buttons assigned and more than one of them is pressed, releasing one button will release the action, even if some other button assigned to this action is still pressed."] # [doc = ""] # [inline] pub fn is_action_pressed (& self , action : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . is_action_pressed ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; ret as _ } } # [doc = "Returns `true` if you are pressing the joypad button (see [enum JoystickList])."] # [doc = ""] # [inline] pub fn is_joy_button_pressed (& self , device : i64 , button : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . is_joy_button_pressed ; let ret = crate :: icalls :: icallptr_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , device , button) ; ret as _ } } # [doc = "Returns `true` if the system knows the specified device. This means that it sets all button and axis indices exactly as defined in [enum JoystickList]. Unknown joypads are not expected to match these constants, but you can still retrieve events from them."] # [doc = ""] # [inline] pub fn is_joy_known (& self , device : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . is_joy_known ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , device) ; ret as _ } } # [doc = "Returns `true` if you are pressing the key. You can pass a [enum KeyList] constant."] # [doc = ""] # [inline] pub fn is_key_pressed (& self , scancode : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . is_key_pressed ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , scancode) ; ret as _ } } # [doc = "Returns `true` if you are pressing the mouse button specified with [enum ButtonList]."] # [doc = ""] # [inline] pub fn is_mouse_button_pressed (& self , button : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . is_mouse_button_pressed ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , button) ; ret as _ } } # [doc = "Notifies the [Input] singleton that a connection has changed, to update the state for the `device` index.\nThis is used internally and should not have to be called from user scripts. See [signal joy_connection_changed] for the signal emitted when this is triggered internally."] # [doc = ""] # [inline] pub fn joy_connection_changed (& self , device : i64 , connected : bool , name : impl Into < GodotString > , guid : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . joy_connection_changed ; let ret = crate :: icalls :: icallptr_void_i64_bool_str_str (method_bind , self . this . sys () . as_ptr () , device , connected , name . into () , guid . into ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nFeeds an [InputEvent] to the game. Can be used to artificially trigger input events from code. Also generates [method Node._input] calls.\nExample:\n```gdscript\nvar a = InputEventAction.new()\na.action = \"ui_cancel\"\na.pressed = true\nInput.parse_input_event(a)\n```"] # [doc = ""] # [inline] pub fn parse_input_event (& self , event : impl AsArg < crate :: generated :: input_event :: InputEvent >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . parse_input_event ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , event . as_arg_ptr ()) ; } } # [doc = "Removes all mappings from the internal database that match the given GUID."] # [doc = ""] # [inline] pub fn remove_joy_mapping (& self , guid : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . remove_joy_mapping ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , guid . into ()) ; } } # [doc = "Sets a custom mouse cursor image, which is only visible inside the game window. The hotspot can also be specified. Passing `null` to the image parameter resets to the system cursor. See [enum CursorShape] for the list of shapes.\n`image`'s size must be lower than 256×256.\n`hotspot` must be within `image`'s size.\n**Note:** [AnimatedTexture]s aren't supported as custom mouse cursors. If using an [AnimatedTexture], only the first frame will be displayed.\n**Note:** Only images imported with the **Lossless**, **Lossy** or **Uncompressed** compression modes are supported. The **Video RAM** compression mode can't be used for custom cursors.\n# Default Arguments\n* `shape` - `0`\n* `hotspot` - `Vector2( 0, 0 )`"] # [doc = ""] # [inline] pub fn set_custom_mouse_cursor (& self , image : impl AsArg < crate :: generated :: resource :: Resource > , shape : i64 , hotspot : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . set_custom_mouse_cursor ; let ret = crate :: icalls :: icallptr_void_obj_i64_vec2 (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , shape , hotspot) ; } } # [doc = "Sets the default cursor shape to be used in the viewport instead of [constant CURSOR_ARROW].\n**Note:** If you want to change the default cursor shape for [Control]'s nodes, use [member Control.mouse_default_cursor_shape] instead.\n**Note:** This method generates an [InputEventMouseMotion] to update cursor immediately.\n# Default Arguments\n* `shape` - `0`"] # [doc = ""] # [inline] pub fn set_default_cursor_shape (& self , shape : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . set_default_cursor_shape ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , shape) ; } } # [doc = "Sets the mouse mode. See the constants for more information."] # [doc = ""] # [inline] pub fn set_mouse_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . set_mouse_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Enables or disables the accumulation of similar input events sent by the operating system. When input accumulation is enabled, all input events generated during a frame will be merged and emitted when the frame is done rendering. Therefore, this limits the number of input method calls per second to the rendering FPS.\nInput accumulation is enabled by default. It can be disabled to get slightly more precise/reactive input at the cost of increased CPU usage. In applications where drawing freehand lines is required, input accumulation should generally be disabled while the user is drawing the line to get results that closely follow the actual input."] # [doc = ""] # [inline] pub fn set_use_accumulated_input (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . set_use_accumulated_input ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Starts to vibrate the joypad. Joypads usually come with two rumble motors, a strong and a weak one. `weak_magnitude` is the strength of the weak motor (between 0 and 1) and `strong_magnitude` is the strength of the strong motor (between 0 and 1). `duration` is the duration of the effect in seconds (a duration of 0 will try to play the vibration indefinitely).\n**Note:** Not every hardware is compatible with long effect durations; it is recommended to restart an effect if it has to be played for more than a few seconds.\n# Default Arguments\n* `duration` - `0`"] # [doc = ""] # [inline] pub fn start_joy_vibration (& self , device : i64 , weak_magnitude : f64 , strong_magnitude : f64 , duration : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . start_joy_vibration ; let ret = crate :: icalls :: icallptr_void_i64_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , device , weak_magnitude , strong_magnitude , duration) ; } } # [doc = "Stops the vibration of the joypad."] # [doc = ""] # [inline] pub fn stop_joy_vibration (& self , device : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . stop_joy_vibration ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , device) ; } } # [doc = "Vibrate Android and iOS devices.\n**Note:** It needs VIBRATE permission for Android at export settings. iOS does not support duration.\n# Default Arguments\n* `duration_ms` - `500`"] # [doc = ""] # [inline] pub fn vibrate_handheld (& self , duration_ms : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . vibrate_handheld ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , duration_ms) ; } } # [doc = "Sets the mouse position to the specified vector."] # [doc = ""] # [inline] pub fn warp_mouse_position (& self , to : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputMethodTable :: get (get_api ()) . warp_mouse_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , to) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Input { } unsafe impl GodotObject for Input { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Input" } } impl std :: ops :: Deref for Input { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Input { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for Input { } unsafe impl Send for Input { } unsafe impl Sync for Input { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputMethodTable { pub class_constructor : sys :: godot_class_constructor , pub action_press : * mut sys :: godot_method_bind , pub action_release : * mut sys :: godot_method_bind , pub add_joy_mapping : * mut sys :: godot_method_bind , pub get_accelerometer : * mut sys :: godot_method_bind , pub get_action_strength : * mut sys :: godot_method_bind , pub get_connected_joypads : * mut sys :: godot_method_bind , pub get_current_cursor_shape : * mut sys :: godot_method_bind , pub get_gravity : * mut sys :: godot_method_bind , pub get_gyroscope : * mut sys :: godot_method_bind , pub get_joy_axis : * mut sys :: godot_method_bind , pub get_joy_axis_index_from_string : * mut sys :: godot_method_bind , pub get_joy_axis_string : * mut sys :: godot_method_bind , pub get_joy_button_index_from_string : * mut sys :: godot_method_bind , pub get_joy_button_string : * mut sys :: godot_method_bind , pub get_joy_guid : * mut sys :: godot_method_bind , pub get_joy_name : * mut sys :: godot_method_bind , pub get_joy_vibration_duration : * mut sys :: godot_method_bind , pub get_joy_vibration_strength : * mut sys :: godot_method_bind , pub get_last_mouse_speed : * mut sys :: godot_method_bind , pub get_magnetometer : * mut sys :: godot_method_bind , pub get_mouse_button_mask : * mut sys :: godot_method_bind , pub get_mouse_mode : * mut sys :: godot_method_bind , pub is_action_just_pressed : * mut sys :: godot_method_bind , pub is_action_just_released : * mut sys :: godot_method_bind , pub is_action_pressed : * mut sys :: godot_method_bind , pub is_joy_button_pressed : * mut sys :: godot_method_bind , pub is_joy_known : * mut sys :: godot_method_bind , pub is_key_pressed : * mut sys :: godot_method_bind , pub is_mouse_button_pressed : * mut sys :: godot_method_bind , pub joy_connection_changed : * mut sys :: godot_method_bind , pub parse_input_event : * mut sys :: godot_method_bind , pub remove_joy_mapping : * mut sys :: godot_method_bind , pub set_custom_mouse_cursor : * mut sys :: godot_method_bind , pub set_default_cursor_shape : * mut sys :: godot_method_bind , pub set_mouse_mode : * mut sys :: godot_method_bind , pub set_use_accumulated_input : * mut sys :: godot_method_bind , pub start_joy_vibration : * mut sys :: godot_method_bind , pub stop_joy_vibration : * mut sys :: godot_method_bind , pub vibrate_handheld : * mut sys :: godot_method_bind , pub warp_mouse_position : * mut sys :: godot_method_bind } impl InputMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputMethodTable = InputMethodTable { class_constructor : None , action_press : 0 as * mut sys :: godot_method_bind , action_release : 0 as * mut sys :: godot_method_bind , add_joy_mapping : 0 as * mut sys :: godot_method_bind , get_accelerometer : 0 as * mut sys :: godot_method_bind , get_action_strength : 0 as * mut sys :: godot_method_bind , get_connected_joypads : 0 as * mut sys :: godot_method_bind , get_current_cursor_shape : 0 as * mut sys :: godot_method_bind , get_gravity : 0 as * mut sys :: godot_method_bind , get_gyroscope : 0 as * mut sys :: godot_method_bind , get_joy_axis : 0 as * mut sys :: godot_method_bind , get_joy_axis_index_from_string : 0 as * mut sys :: godot_method_bind , get_joy_axis_string : 0 as * mut sys :: godot_method_bind , get_joy_button_index_from_string : 0 as * mut sys :: godot_method_bind , get_joy_button_string : 0 as * mut sys :: godot_method_bind , get_joy_guid : 0 as * mut sys :: godot_method_bind , get_joy_name : 0 as * mut sys :: godot_method_bind , get_joy_vibration_duration : 0 as * mut sys :: godot_method_bind , get_joy_vibration_strength : 0 as * mut sys :: godot_method_bind , get_last_mouse_speed : 0 as * mut sys :: godot_method_bind , get_magnetometer : 0 as * mut sys :: godot_method_bind , get_mouse_button_mask : 0 as * mut sys :: godot_method_bind , get_mouse_mode : 0 as * mut sys :: godot_method_bind , is_action_just_pressed : 0 as * mut sys :: godot_method_bind , is_action_just_released : 0 as * mut sys :: godot_method_bind , is_action_pressed : 0 as * mut sys :: godot_method_bind , is_joy_button_pressed : 0 as * mut sys :: godot_method_bind , is_joy_known : 0 as * mut sys :: godot_method_bind , is_key_pressed : 0 as * mut sys :: godot_method_bind , is_mouse_button_pressed : 0 as * mut sys :: godot_method_bind , joy_connection_changed : 0 as * mut sys :: godot_method_bind , parse_input_event : 0 as * mut sys :: godot_method_bind , remove_joy_mapping : 0 as * mut sys :: godot_method_bind , set_custom_mouse_cursor : 0 as * mut sys :: godot_method_bind , set_default_cursor_shape : 0 as * mut sys :: godot_method_bind , set_mouse_mode : 0 as * mut sys :: godot_method_bind , set_use_accumulated_input : 0 as * mut sys :: godot_method_bind , start_joy_vibration : 0 as * mut sys :: godot_method_bind , stop_joy_vibration : 0 as * mut sys :: godot_method_bind , vibrate_handheld : 0 as * mut sys :: godot_method_bind , warp_mouse_position : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Input\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . action_press = (gd_api . godot_method_bind_get_method) (class_name , "action_press\0" . as_ptr () as * const c_char) ; table . action_release = (gd_api . godot_method_bind_get_method) (class_name , "action_release\0" . as_ptr () as * const c_char) ; table . add_joy_mapping = (gd_api . godot_method_bind_get_method) (class_name , "add_joy_mapping\0" . as_ptr () as * const c_char) ; table . get_accelerometer = (gd_api . godot_method_bind_get_method) (class_name , "get_accelerometer\0" . as_ptr () as * const c_char) ; table . get_action_strength = (gd_api . godot_method_bind_get_method) (class_name , "get_action_strength\0" . as_ptr () as * const c_char) ; table . get_connected_joypads = (gd_api . godot_method_bind_get_method) (class_name , "get_connected_joypads\0" . as_ptr () as * const c_char) ; table . get_current_cursor_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_current_cursor_shape\0" . as_ptr () as * const c_char) ; table . get_gravity = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity\0" . as_ptr () as * const c_char) ; table . get_gyroscope = (gd_api . godot_method_bind_get_method) (class_name , "get_gyroscope\0" . as_ptr () as * const c_char) ; table . get_joy_axis = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_axis\0" . as_ptr () as * const c_char) ; table . get_joy_axis_index_from_string = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_axis_index_from_string\0" . as_ptr () as * const c_char) ; table . get_joy_axis_string = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_axis_string\0" . as_ptr () as * const c_char) ; table . get_joy_button_index_from_string = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_button_index_from_string\0" . as_ptr () as * const c_char) ; table . get_joy_button_string = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_button_string\0" . as_ptr () as * const c_char) ; table . get_joy_guid = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_guid\0" . as_ptr () as * const c_char) ; table . get_joy_name = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_name\0" . as_ptr () as * const c_char) ; table . get_joy_vibration_duration = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_vibration_duration\0" . as_ptr () as * const c_char) ; table . get_joy_vibration_strength = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_vibration_strength\0" . as_ptr () as * const c_char) ; table . get_last_mouse_speed = (gd_api . godot_method_bind_get_method) (class_name , "get_last_mouse_speed\0" . as_ptr () as * const c_char) ; table . get_magnetometer = (gd_api . godot_method_bind_get_method) (class_name , "get_magnetometer\0" . as_ptr () as * const c_char) ; table . get_mouse_button_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_mouse_button_mask\0" . as_ptr () as * const c_char) ; table . get_mouse_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_mouse_mode\0" . as_ptr () as * const c_char) ; table . is_action_just_pressed = (gd_api . godot_method_bind_get_method) (class_name , "is_action_just_pressed\0" . as_ptr () as * const c_char) ; table . is_action_just_released = (gd_api . godot_method_bind_get_method) (class_name , "is_action_just_released\0" . as_ptr () as * const c_char) ; table . is_action_pressed = (gd_api . godot_method_bind_get_method) (class_name , "is_action_pressed\0" . as_ptr () as * const c_char) ; table . is_joy_button_pressed = (gd_api . godot_method_bind_get_method) (class_name , "is_joy_button_pressed\0" . as_ptr () as * const c_char) ; table . is_joy_known = (gd_api . godot_method_bind_get_method) (class_name , "is_joy_known\0" . as_ptr () as * const c_char) ; table . is_key_pressed = (gd_api . godot_method_bind_get_method) (class_name , "is_key_pressed\0" . as_ptr () as * const c_char) ; table . is_mouse_button_pressed = (gd_api . godot_method_bind_get_method) (class_name , "is_mouse_button_pressed\0" . as_ptr () as * const c_char) ; table . joy_connection_changed = (gd_api . godot_method_bind_get_method) (class_name , "joy_connection_changed\0" . as_ptr () as * const c_char) ; table . parse_input_event = (gd_api . godot_method_bind_get_method) (class_name , "parse_input_event\0" . as_ptr () as * const c_char) ; table . remove_joy_mapping = (gd_api . godot_method_bind_get_method) (class_name , "remove_joy_mapping\0" . as_ptr () as * const c_char) ; table . set_custom_mouse_cursor = (gd_api . godot_method_bind_get_method) (class_name , "set_custom_mouse_cursor\0" . as_ptr () as * const c_char) ; table . set_default_cursor_shape = (gd_api . godot_method_bind_get_method) (class_name , "set_default_cursor_shape\0" . as_ptr () as * const c_char) ; table . set_mouse_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_mouse_mode\0" . as_ptr () as * const c_char) ; table . set_use_accumulated_input = (gd_api . godot_method_bind_get_method) (class_name , "set_use_accumulated_input\0" . as_ptr () as * const c_char) ; table . start_joy_vibration = (gd_api . godot_method_bind_get_method) (class_name , "start_joy_vibration\0" . as_ptr () as * const c_char) ; table . stop_joy_vibration = (gd_api . godot_method_bind_get_method) (class_name , "stop_joy_vibration\0" . as_ptr () as * const c_char) ; table . vibrate_handheld = (gd_api . godot_method_bind_get_method) (class_name , "vibrate_handheld\0" . as_ptr () as * const c_char) ; table . warp_mouse_position = (gd_api . godot_method_bind_get_method) (class_name , "warp_mouse_position\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:322:5960 [INFO] [stdout] | [INFO] [stdout] 322 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 322 | # [doc = "`core class VisualShaderNodeColorOp` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodecolorop.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeColorOp inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeColorOp { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Operator (pub i64) ; impl Operator { pub const SCREEN : Operator = Operator (0i64) ; pub const DIFFERENCE : Operator = Operator (1i64) ; pub const DARKEN : Operator = Operator (2i64) ; pub const LIGHTEN : Operator = Operator (3i64) ; pub const OVERLAY : Operator = Operator (4i64) ; pub const DODGE : Operator = Operator (5i64) ; pub const BURN : Operator = Operator (6i64) ; pub const SOFT_LIGHT : Operator = Operator (7i64) ; pub const HARD_LIGHT : Operator = Operator (8i64) ; } impl From < i64 > for Operator { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Operator > for i64 { # [inline] fn from (v : Operator) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShaderNodeColorOp { pub const OP_BURN : i64 = 6i64 ; pub const OP_DARKEN : i64 = 2i64 ; pub const OP_DIFFERENCE : i64 = 1i64 ; pub const OP_DODGE : i64 = 5i64 ; pub const OP_HARD_LIGHT : i64 = 8i64 ; pub const OP_LIGHTEN : i64 = 3i64 ; pub const OP_OVERLAY : i64 = 4i64 ; pub const OP_SCREEN : i64 = 0i64 ; pub const OP_SOFT_LIGHT : i64 = 7i64 ; } impl VisualShaderNodeColorOp { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeColorOpMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "An operator to be applied to the inputs. See [enum Operator] for options."] # [doc = ""] # [inline] pub fn operator (& self) -> crate :: generated :: visual_shader_node_color_op :: Operator { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeColorOpMethodTable :: get (get_api ()) . get_operator ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_color_op :: Operator (ret) } } # [doc = "An operator to be applied to the inputs. See [enum Operator] for options."] # [doc = ""] # [inline] pub fn set_operator (& self , op : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeColorOpMethodTable :: get (get_api ()) . set_operator ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , op) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeColorOp { } unsafe impl GodotObject for VisualShaderNodeColorOp { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeColorOp" } } impl std :: ops :: Deref for VisualShaderNodeColorOp { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeColorOp { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeColorOp { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeColorOp { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeColorOp { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeColorOp { } impl Instanciable for VisualShaderNodeColorOp { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeColorOp :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeColorOpMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_operator : * mut sys :: godot_method_bind , pub set_operator : * mut sys :: godot_method_bind } impl VisualShaderNodeColorOpMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeColorOpMethodTable = VisualShaderNodeColorOpMethodTable { class_constructor : None , get_operator : 0 as * mut sys :: godot_method_bind , set_operator : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeColorOpMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeColorOp\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_operator = (gd_api . godot_method_bind_get_method) (class_name , "get_operator\0" . as_ptr () as * const c_char) ; table . set_operator = (gd_api . godot_method_bind_get_method) (class_name , "set_operator\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:328:4661 [INFO] [stdout] | [INFO] [stdout] 328 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 328 | # [doc = "`core class AudioEffectAmplify` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectamplify.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectAmplify inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectAmplify { this : RawObject < Self > , } impl AudioEffectAmplify { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectAmplifyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Amount of amplification in decibels. Positive values make the sound louder, negative values make it quieter. Value can range from -80 to 24."] # [doc = ""] # [inline] pub fn volume_db (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectAmplifyMethodTable :: get (get_api ()) . get_volume_db ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of amplification in decibels. Positive values make the sound louder, negative values make it quieter. Value can range from -80 to 24."] # [doc = ""] # [inline] pub fn set_volume_db (& self , volume : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectAmplifyMethodTable :: get (get_api ()) . set_volume_db ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , volume) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectAmplify { } unsafe impl GodotObject for AudioEffectAmplify { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectAmplify" } } impl std :: ops :: Deref for AudioEffectAmplify { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectAmplify { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectAmplify { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectAmplify { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectAmplify { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectAmplify { } impl Instanciable for AudioEffectAmplify { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectAmplify :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectAmplifyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_volume_db : * mut sys :: godot_method_bind , pub set_volume_db : * mut sys :: godot_method_bind } impl AudioEffectAmplifyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectAmplifyMethodTable = AudioEffectAmplifyMethodTable { class_constructor : None , get_volume_db : 0 as * mut sys :: godot_method_bind , set_volume_db : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectAmplifyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectAmplify\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_volume_db = (gd_api . godot_method_bind_get_method) (class_name , "get_volume_db\0" . as_ptr () as * const c_char) ; table . set_volume_db = (gd_api . godot_method_bind_get_method) (class_name , "set_volume_db\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:334:28818 [INFO] [stdout] | [INFO] [stdout] 334 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 334 | # [doc = "`core singleton class AudioServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioserver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nAudioServer inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioServer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SpeakerMode (pub i64) ; impl SpeakerMode { pub const MODE_STEREO : SpeakerMode = SpeakerMode (0i64) ; pub const SURROUND_31 : SpeakerMode = SpeakerMode (1i64) ; pub const SURROUND_51 : SpeakerMode = SpeakerMode (2i64) ; pub const SURROUND_71 : SpeakerMode = SpeakerMode (3i64) ; } impl From < i64 > for SpeakerMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SpeakerMode > for i64 { # [inline] fn from (v : SpeakerMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AudioServer { pub const SPEAKER_MODE_STEREO : i64 = 0i64 ; pub const SPEAKER_SURROUND_31 : i64 = 1i64 ; pub const SPEAKER_SURROUND_51 : i64 = 2i64 ; pub const SPEAKER_SURROUND_71 : i64 = 3i64 ; } impl AudioServer { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("AudioServer\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Adds a bus at `at_position`.\n# Default Arguments\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_bus (& self , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . add_bus ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , at_position) ; } } # [doc = "Adds an [AudioEffect] effect to the bus `bus_idx` at `at_position`.\n# Default Arguments\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_bus_effect (& self , bus_idx : i64 , effect : impl AsArg < crate :: generated :: audio_effect :: AudioEffect > , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . add_bus_effect ; let ret = crate :: icalls :: icallptr_void_i64_obj_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect . as_arg_ptr () , at_position) ; } } # [doc = "Name of the current device for audio input (see [method capture_get_device_list])."] # [doc = ""] # [inline] pub fn capture_get_device (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . capture_get_device ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the names of all audio input devices detected on the system."] # [doc = ""] # [inline] pub fn capture_get_device_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . capture_get_device_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Sets which audio input device is used for audio capture."] # [doc = ""] # [inline] pub fn capture_set_device (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . capture_set_device ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Generates an [AudioBusLayout] using the available buses and effects."] # [doc = ""] # [inline] pub fn generate_bus_layout (& self) -> Option < Ref < crate :: generated :: audio_bus_layout :: AudioBusLayout , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . generate_bus_layout ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: audio_bus_layout :: AudioBusLayout , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the amount of channels of the bus at index `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_channels (& self , bus_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_channels ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Number of available audio buses."] # [doc = ""] # [inline] pub fn bus_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the [AudioEffect] at position `effect_idx` in bus `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_effect (& self , bus_idx : i64 , effect_idx : i64) -> Option < Ref < crate :: generated :: audio_effect :: AudioEffect , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_effect ; let ret = crate :: icalls :: icallptr_obj_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: audio_effect :: AudioEffect , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of effects on the bus at `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_effect_count (& self , bus_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_effect_count ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Returns the [AudioEffectInstance] assigned to the given bus and effect indices (and optionally channel).\n# Default Arguments\n* `channel` - `0`"] # [doc = ""] # [inline] pub fn get_bus_effect_instance (& self , bus_idx : i64 , effect_idx : i64 , channel : i64) -> Option < Ref < crate :: generated :: audio_effect_instance :: AudioEffectInstance , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_effect_instance ; let ret = crate :: icalls :: icallptr_obj_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx , channel) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: audio_effect_instance :: AudioEffectInstance , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the index of the bus with the name `bus_name`."] # [doc = ""] # [inline] pub fn get_bus_index (& self , bus_name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_index ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , bus_name . into ()) ; ret as _ } } # [doc = "Returns the name of the bus with the index `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_name (& self , bus_idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the peak volume of the left speaker at bus index `bus_idx` and channel index `channel`."] # [doc = ""] # [inline] pub fn get_bus_peak_volume_left_db (& self , bus_idx : i64 , channel : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_peak_volume_left_db ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , channel) ; ret as _ } } # [doc = "Returns the peak volume of the right speaker at bus index `bus_idx` and channel index `channel`."] # [doc = ""] # [inline] pub fn get_bus_peak_volume_right_db (& self , bus_idx : i64 , channel : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_peak_volume_right_db ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , channel) ; ret as _ } } # [doc = "Returns the name of the bus that the bus at index `bus_idx` sends to."] # [doc = ""] # [inline] pub fn get_bus_send (& self , bus_idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_send ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the volume of the bus at index `bus_idx` in dB."] # [doc = ""] # [inline] pub fn get_bus_volume_db (& self , bus_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_volume_db ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Name of the current device for audio output (see [method get_device_list])."] # [doc = ""] # [inline] pub fn device (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_device ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the names of all audio devices detected on the system."] # [doc = ""] # [inline] pub fn get_device_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_device_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Scales the rate at which audio is played (i.e. setting it to `0.5` will make the audio be played twice as fast)."] # [doc = ""] # [inline] pub fn global_rate_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_global_rate_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the sample rate at the output of the [AudioServer]."] # [doc = ""] # [inline] pub fn get_mix_rate (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_mix_rate ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the audio driver's output latency."] # [doc = ""] # [inline] pub fn get_output_latency (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_output_latency ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the speaker configuration."] # [doc = ""] # [inline] pub fn get_speaker_mode (& self) -> crate :: generated :: audio_server :: SpeakerMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_speaker_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: audio_server :: SpeakerMode (ret) } } # [doc = "Returns the relative time since the last mix occurred."] # [doc = ""] # [inline] pub fn get_time_since_last_mix (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_time_since_last_mix ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the relative time until the next mix occurs."] # [doc = ""] # [inline] pub fn get_time_to_next_mix (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_time_to_next_mix ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the bus at index `bus_idx` is bypassing effects."] # [doc = ""] # [inline] pub fn is_bus_bypassing_effects (& self , bus_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_bypassing_effects ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "If `true`, the effect at index `effect_idx` on the bus at index `bus_idx` is enabled."] # [doc = ""] # [inline] pub fn is_bus_effect_enabled (& self , bus_idx : i64 , effect_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_effect_enabled ; let ret = crate :: icalls :: icallptr_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx) ; ret as _ } } # [doc = "If `true`, the bus at index `bus_idx` is muted."] # [doc = ""] # [inline] pub fn is_bus_mute (& self , bus_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_mute ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "If `true`, the bus at index `bus_idx` is in solo mode."] # [doc = ""] # [inline] pub fn is_bus_solo (& self , bus_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_solo ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Locks the audio driver's main loop.\n**Note:** Remember to unlock it afterwards."] # [doc = ""] # [inline] pub fn lock (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . lock ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Moves the bus from index `index` to index `to_index`."] # [doc = ""] # [inline] pub fn move_bus (& self , index : i64 , to_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . move_bus ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , index , to_index) ; } } # [doc = "Removes the bus at index `index`."] # [doc = ""] # [inline] pub fn remove_bus (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . remove_bus ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "Removes the effect at index `effect_idx` from the bus at index `bus_idx`."] # [doc = ""] # [inline] pub fn remove_bus_effect (& self , bus_idx : i64 , effect_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . remove_bus_effect ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx) ; } } # [doc = "If `true`, the bus at index `bus_idx` is bypassing effects."] # [doc = ""] # [inline] pub fn set_bus_bypass_effects (& self , bus_idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_bypass_effects ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , enable) ; } } # [doc = "Number of available audio buses."] # [doc = ""] # [inline] pub fn set_bus_count (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_count ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "If `true`, the effect at index `effect_idx` on the bus at index `bus_idx` is enabled."] # [doc = ""] # [inline] pub fn set_bus_effect_enabled (& self , bus_idx : i64 , effect_idx : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_effect_enabled ; let ret = crate :: icalls :: icallptr_void_i64_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx , enabled) ; } } # [doc = "Overwrites the currently used [AudioBusLayout]."] # [doc = ""] # [inline] pub fn set_bus_layout (& self , bus_layout : impl AsArg < crate :: generated :: audio_bus_layout :: AudioBusLayout >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_layout ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , bus_layout . as_arg_ptr ()) ; } } # [doc = "If `true`, the bus at index `bus_idx` is muted."] # [doc = ""] # [inline] pub fn set_bus_mute (& self , bus_idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_mute ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , enable) ; } } # [doc = "Sets the name of the bus at index `bus_idx` to `name`."] # [doc = ""] # [inline] pub fn set_bus_name (& self , bus_idx : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , bus_idx , name . into ()) ; } } # [doc = "Connects the output of the bus at `bus_idx` to the bus named `send`."] # [doc = ""] # [inline] pub fn set_bus_send (& self , bus_idx : i64 , send : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_send ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , bus_idx , send . into ()) ; } } # [doc = "If `true`, the bus at index `bus_idx` is in solo mode."] # [doc = ""] # [inline] pub fn set_bus_solo (& self , bus_idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_solo ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , enable) ; } } # [doc = "Sets the volume of the bus at index `bus_idx` to `volume_db`."] # [doc = ""] # [inline] pub fn set_bus_volume_db (& self , bus_idx : i64 , volume_db : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_volume_db ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , bus_idx , volume_db) ; } } # [doc = "Name of the current device for audio output (see [method get_device_list])."] # [doc = ""] # [inline] pub fn set_device (& self , device : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_device ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , device . into ()) ; } } # [doc = "Scales the rate at which audio is played (i.e. setting it to `0.5` will make the audio be played twice as fast)."] # [doc = ""] # [inline] pub fn set_global_rate_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_global_rate_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Swaps the position of two effects in bus `bus_idx`."] # [doc = ""] # [inline] pub fn swap_bus_effects (& self , bus_idx : i64 , effect_idx : i64 , by_effect_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . swap_bus_effects ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx , by_effect_idx) ; } } # [doc = "Unlocks the audio driver's main loop. (After locking it, you should always unlock it.)"] # [doc = ""] # [inline] pub fn unlock (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . unlock ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioServer { } unsafe impl GodotObject for AudioServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "AudioServer" } } impl std :: ops :: Deref for AudioServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioServer { } unsafe impl Send for AudioServer { } unsafe impl Sync for AudioServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_bus : * mut sys :: godot_method_bind , pub add_bus_effect : * mut sys :: godot_method_bind , pub capture_get_device : * mut sys :: godot_method_bind , pub capture_get_device_list : * mut sys :: godot_method_bind , pub capture_set_device : * mut sys :: godot_method_bind , pub generate_bus_layout : * mut sys :: godot_method_bind , pub get_bus_channels : * mut sys :: godot_method_bind , pub get_bus_count : * mut sys :: godot_method_bind , pub get_bus_effect : * mut sys :: godot_method_bind , pub get_bus_effect_count : * mut sys :: godot_method_bind , pub get_bus_effect_instance : * mut sys :: godot_method_bind , pub get_bus_index : * mut sys :: godot_method_bind , pub get_bus_name : * mut sys :: godot_method_bind , pub get_bus_peak_volume_left_db : * mut sys :: godot_method_bind , pub get_bus_peak_volume_right_db : * mut sys :: godot_method_bind , pub get_bus_send : * mut sys :: godot_method_bind , pub get_bus_volume_db : * mut sys :: godot_method_bind , pub get_device : * mut sys :: godot_method_bind , pub get_device_list : * mut sys :: godot_method_bind , pub get_global_rate_scale : * mut sys :: godot_method_bind , pub get_mix_rate : * mut sys :: godot_method_bind , pub get_output_latency : * mut sys :: godot_method_bind , pub get_speaker_mode : * mut sys :: godot_method_bind , pub get_time_since_last_mix : * mut sys :: godot_method_bind , pub get_time_to_next_mix : * mut sys :: godot_method_bind , pub is_bus_bypassing_effects : * mut sys :: godot_method_bind , pub is_bus_effect_enabled : * mut sys :: godot_method_bind , pub is_bus_mute : * mut sys :: godot_method_bind , pub is_bus_solo : * mut sys :: godot_method_bind , pub lock : * mut sys :: godot_method_bind , pub move_bus : * mut sys :: godot_method_bind , pub remove_bus : * mut sys :: godot_method_bind , pub remove_bus_effect : * mut sys :: godot_method_bind , pub set_bus_bypass_effects : * mut sys :: godot_method_bind , pub set_bus_count : * mut sys :: godot_method_bind , pub set_bus_effect_enabled : * mut sys :: godot_method_bind , pub set_bus_layout : * mut sys :: godot_method_bind , pub set_bus_mute : * mut sys :: godot_method_bind , pub set_bus_name : * mut sys :: godot_method_bind , pub set_bus_send : * mut sys :: godot_method_bind , pub set_bus_solo : * mut sys :: godot_method_bind , pub set_bus_volume_db : * mut sys :: godot_method_bind , pub set_device : * mut sys :: godot_method_bind , pub set_global_rate_scale : * mut sys :: godot_method_bind , pub swap_bus_effects : * mut sys :: godot_method_bind , pub unlock : * mut sys :: godot_method_bind } impl AudioServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioServerMethodTable = AudioServerMethodTable { class_constructor : None , add_bus : 0 as * mut sys :: godot_method_bind , add_bus_effect : 0 as * mut sys :: godot_method_bind , capture_get_device : 0 as * mut sys :: godot_method_bind , capture_get_device_list : 0 as * mut sys :: godot_method_bind , capture_set_device : 0 as * mut sys :: godot_method_bind , generate_bus_layout : 0 as * mut sys :: godot_method_bind , get_bus_channels : 0 as * mut sys :: godot_method_bind , get_bus_count : 0 as * mut sys :: godot_method_bind , get_bus_effect : 0 as * mut sys :: godot_method_bind , get_bus_effect_count : 0 as * mut sys :: godot_method_bind , get_bus_effect_instance : 0 as * mut sys :: godot_method_bind , get_bus_index : 0 as * mut sys :: godot_method_bind , get_bus_name : 0 as * mut sys :: godot_method_bind , get_bus_peak_volume_left_db : 0 as * mut sys :: godot_method_bind , get_bus_peak_volume_right_db : 0 as * mut sys :: godot_method_bind , get_bus_send : 0 as * mut sys :: godot_method_bind , get_bus_volume_db : 0 as * mut sys :: godot_method_bind , get_device : 0 as * mut sys :: godot_method_bind , get_device_list : 0 as * mut sys :: godot_method_bind , get_global_rate_scale : 0 as * mut sys :: godot_method_bind , get_mix_rate : 0 as * mut sys :: godot_method_bind , get_output_latency : 0 as * mut sys :: godot_method_bind , get_speaker_mode : 0 as * mut sys :: godot_method_bind , get_time_since_last_mix : 0 as * mut sys :: godot_method_bind , get_time_to_next_mix : 0 as * mut sys :: godot_method_bind , is_bus_bypassing_effects : 0 as * mut sys :: godot_method_bind , is_bus_effect_enabled : 0 as * mut sys :: godot_method_bind , is_bus_mute : 0 as * mut sys :: godot_method_bind , is_bus_solo : 0 as * mut sys :: godot_method_bind , lock : 0 as * mut sys :: godot_method_bind , move_bus : 0 as * mut sys :: godot_method_bind , remove_bus : 0 as * mut sys :: godot_method_bind , remove_bus_effect : 0 as * mut sys :: godot_method_bind , set_bus_bypass_effects : 0 as * mut sys :: godot_method_bind , set_bus_count : 0 as * mut sys :: godot_method_bind , set_bus_effect_enabled : 0 as * mut sys :: godot_method_bind , set_bus_layout : 0 as * mut sys :: godot_method_bind , set_bus_mute : 0 as * mut sys :: godot_method_bind , set_bus_name : 0 as * mut sys :: godot_method_bind , set_bus_send : 0 as * mut sys :: godot_method_bind , set_bus_solo : 0 as * mut sys :: godot_method_bind , set_bus_volume_db : 0 as * mut sys :: godot_method_bind , set_device : 0 as * mut sys :: godot_method_bind , set_global_rate_scale : 0 as * mut sys :: godot_method_bind , swap_bus_effects : 0 as * mut sys :: godot_method_bind , unlock : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_bus = (gd_api . godot_method_bind_get_method) (class_name , "add_bus\0" . as_ptr () as * const c_char) ; table . add_bus_effect = (gd_api . godot_method_bind_get_method) (class_name , "add_bus_effect\0" . as_ptr () as * const c_char) ; table . capture_get_device = (gd_api . godot_method_bind_get_method) (class_name , "capture_get_device\0" . as_ptr () as * const c_char) ; table . capture_get_device_list = (gd_api . godot_method_bind_get_method) (class_name , "capture_get_device_list\0" . as_ptr () as * const c_char) ; table . capture_set_device = (gd_api . godot_method_bind_get_method) (class_name , "capture_set_device\0" . as_ptr () as * const c_char) ; table . generate_bus_layout = (gd_api . godot_method_bind_get_method) (class_name , "generate_bus_layout\0" . as_ptr () as * const c_char) ; table . get_bus_channels = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_channels\0" . as_ptr () as * const c_char) ; table . get_bus_count = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_count\0" . as_ptr () as * const c_char) ; table . get_bus_effect = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_effect\0" . as_ptr () as * const c_char) ; table . get_bus_effect_count = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_effect_count\0" . as_ptr () as * const c_char) ; table . get_bus_effect_instance = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_effect_instance\0" . as_ptr () as * const c_char) ; table . get_bus_index = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_index\0" . as_ptr () as * const c_char) ; table . get_bus_name = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_name\0" . as_ptr () as * const c_char) ; table . get_bus_peak_volume_left_db = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_peak_volume_left_db\0" . as_ptr () as * const c_char) ; table . get_bus_peak_volume_right_db = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_peak_volume_right_db\0" . as_ptr () as * const c_char) ; table . get_bus_send = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_send\0" . as_ptr () as * const c_char) ; table . get_bus_volume_db = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_volume_db\0" . as_ptr () as * const c_char) ; table . get_device = (gd_api . godot_method_bind_get_method) (class_name , "get_device\0" . as_ptr () as * const c_char) ; table . get_device_list = (gd_api . godot_method_bind_get_method) (class_name , "get_device_list\0" . as_ptr () as * const c_char) ; table . get_global_rate_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_global_rate_scale\0" . as_ptr () as * const c_char) ; table . get_mix_rate = (gd_api . godot_method_bind_get_method) (class_name , "get_mix_rate\0" . as_ptr () as * const c_char) ; table . get_output_latency = (gd_api . godot_method_bind_get_method) (class_name , "get_output_latency\0" . as_ptr () as * const c_char) ; table . get_speaker_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_speaker_mode\0" . as_ptr () as * const c_char) ; table . get_time_since_last_mix = (gd_api . godot_method_bind_get_method) (class_name , "get_time_since_last_mix\0" . as_ptr () as * const c_char) ; table . get_time_to_next_mix = (gd_api . godot_method_bind_get_method) (class_name , "get_time_to_next_mix\0" . as_ptr () as * const c_char) ; table . is_bus_bypassing_effects = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_bypassing_effects\0" . as_ptr () as * const c_char) ; table . is_bus_effect_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_effect_enabled\0" . as_ptr () as * const c_char) ; table . is_bus_mute = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_mute\0" . as_ptr () as * const c_char) ; table . is_bus_solo = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_solo\0" . as_ptr () as * const c_char) ; table . lock = (gd_api . godot_method_bind_get_method) (class_name , "lock\0" . as_ptr () as * const c_char) ; table . move_bus = (gd_api . godot_method_bind_get_method) (class_name , "move_bus\0" . as_ptr () as * const c_char) ; table . remove_bus = (gd_api . godot_method_bind_get_method) (class_name , "remove_bus\0" . as_ptr () as * const c_char) ; table . remove_bus_effect = (gd_api . godot_method_bind_get_method) (class_name , "remove_bus_effect\0" . as_ptr () as * const c_char) ; table . set_bus_bypass_effects = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_bypass_effects\0" . as_ptr () as * const c_char) ; table . set_bus_count = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_count\0" . as_ptr () as * const c_char) ; table . set_bus_effect_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_effect_enabled\0" . as_ptr () as * const c_char) ; table . set_bus_layout = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_layout\0" . as_ptr () as * const c_char) ; table . set_bus_mute = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_mute\0" . as_ptr () as * const c_char) ; table . set_bus_name = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_name\0" . as_ptr () as * const c_char) ; table . set_bus_send = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_send\0" . as_ptr () as * const c_char) ; table . set_bus_solo = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_solo\0" . as_ptr () as * const c_char) ; table . set_bus_volume_db = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_volume_db\0" . as_ptr () as * const c_char) ; table . set_device = (gd_api . godot_method_bind_get_method) (class_name , "set_device\0" . as_ptr () as * const c_char) ; table . set_global_rate_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_global_rate_scale\0" . as_ptr () as * const c_char) ; table . swap_bus_effects = (gd_api . godot_method_bind_get_method) (class_name , "swap_bus_effects\0" . as_ptr () as * const c_char) ; table . unlock = (gd_api . godot_method_bind_get_method) (class_name , "unlock\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:340:16095 [INFO] [stdout] | [INFO] [stdout] 340 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 340 | # [doc = "`core class AudioEffectDelay` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectdelay.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectDelay inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectDelay { this : RawObject < Self > , } impl AudioEffectDelay { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectDelayMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Output percent of original sound. At 0, only delayed sounds are output. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn dry (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_dry ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Feedback delay time in milliseconds."] # [doc = ""] # [inline] pub fn feedback_delay_ms (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_feedback_delay_ms ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sound level for `tap1`."] # [doc = ""] # [inline] pub fn feedback_level_db (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_feedback_level_db ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Low-pass filter for feedback, in Hz. Frequencies below this value are filtered out of the source signal."] # [doc = ""] # [inline] pub fn feedback_lowpass (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_feedback_lowpass ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "`tap1` delay time in milliseconds."] # [doc = ""] # [inline] pub fn tap1_delay_ms (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_tap1_delay_ms ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sound level for `tap1`."] # [doc = ""] # [inline] pub fn tap1_level_db (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_tap1_level_db ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Pan position for `tap1`. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn tap1_pan (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_tap1_pan ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "**Tap2** delay time in milliseconds."] # [doc = ""] # [inline] pub fn tap2_delay_ms (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_tap2_delay_ms ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sound level for `tap2`."] # [doc = ""] # [inline] pub fn tap2_level_db (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_tap2_level_db ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Pan position for `tap2`. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn tap2_pan (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . get_tap2_pan ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, feedback is enabled."] # [doc = ""] # [inline] pub fn is_feedback_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . is_feedback_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, `tap1` will be enabled."] # [doc = ""] # [inline] pub fn is_tap1_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . is_tap1_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, `tap2` will be enabled."] # [doc = ""] # [inline] pub fn is_tap2_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . is_tap2_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Output percent of original sound. At 0, only delayed sounds are output. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_dry (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_dry ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "If `true`, feedback is enabled."] # [doc = ""] # [inline] pub fn set_feedback_active (& self , amount : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_feedback_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Feedback delay time in milliseconds."] # [doc = ""] # [inline] pub fn set_feedback_delay_ms (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_feedback_delay_ms ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Sound level for `tap1`."] # [doc = ""] # [inline] pub fn set_feedback_level_db (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_feedback_level_db ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Low-pass filter for feedback, in Hz. Frequencies below this value are filtered out of the source signal."] # [doc = ""] # [inline] pub fn set_feedback_lowpass (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_feedback_lowpass ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "If `true`, `tap1` will be enabled."] # [doc = ""] # [inline] pub fn set_tap1_active (& self , amount : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap1_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "`tap1` delay time in milliseconds."] # [doc = ""] # [inline] pub fn set_tap1_delay_ms (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap1_delay_ms ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Sound level for `tap1`."] # [doc = ""] # [inline] pub fn set_tap1_level_db (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap1_level_db ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Pan position for `tap1`. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn set_tap1_pan (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap1_pan ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "If `true`, `tap2` will be enabled."] # [doc = ""] # [inline] pub fn set_tap2_active (& self , amount : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap2_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "**Tap2** delay time in milliseconds."] # [doc = ""] # [inline] pub fn set_tap2_delay_ms (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap2_delay_ms ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Sound level for `tap2`."] # [doc = ""] # [inline] pub fn set_tap2_level_db (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap2_level_db ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Pan position for `tap2`. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn set_tap2_pan (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDelayMethodTable :: get (get_api ()) . set_tap2_pan ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectDelay { } unsafe impl GodotObject for AudioEffectDelay { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectDelay" } } impl std :: ops :: Deref for AudioEffectDelay { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectDelay { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectDelay { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectDelay { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectDelay { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectDelay { } impl Instanciable for AudioEffectDelay { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectDelay :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectDelayMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_dry : * mut sys :: godot_method_bind , pub get_feedback_delay_ms : * mut sys :: godot_method_bind , pub get_feedback_level_db : * mut sys :: godot_method_bind , pub get_feedback_lowpass : * mut sys :: godot_method_bind , pub get_tap1_delay_ms : * mut sys :: godot_method_bind , pub get_tap1_level_db : * mut sys :: godot_method_bind , pub get_tap1_pan : * mut sys :: godot_method_bind , pub get_tap2_delay_ms : * mut sys :: godot_method_bind , pub get_tap2_level_db : * mut sys :: godot_method_bind , pub get_tap2_pan : * mut sys :: godot_method_bind , pub is_feedback_active : * mut sys :: godot_method_bind , pub is_tap1_active : * mut sys :: godot_method_bind , pub is_tap2_active : * mut sys :: godot_method_bind , pub set_dry : * mut sys :: godot_method_bind , pub set_feedback_active : * mut sys :: godot_method_bind , pub set_feedback_delay_ms : * mut sys :: godot_method_bind , pub set_feedback_level_db : * mut sys :: godot_method_bind , pub set_feedback_lowpass : * mut sys :: godot_method_bind , pub set_tap1_active : * mut sys :: godot_method_bind , pub set_tap1_delay_ms : * mut sys :: godot_method_bind , pub set_tap1_level_db : * mut sys :: godot_method_bind , pub set_tap1_pan : * mut sys :: godot_method_bind , pub set_tap2_active : * mut sys :: godot_method_bind , pub set_tap2_delay_ms : * mut sys :: godot_method_bind , pub set_tap2_level_db : * mut sys :: godot_method_bind , pub set_tap2_pan : * mut sys :: godot_method_bind } impl AudioEffectDelayMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectDelayMethodTable = AudioEffectDelayMethodTable { class_constructor : None , get_dry : 0 as * mut sys :: godot_method_bind , get_feedback_delay_ms : 0 as * mut sys :: godot_method_bind , get_feedback_level_db : 0 as * mut sys :: godot_method_bind , get_feedback_lowpass : 0 as * mut sys :: godot_method_bind , get_tap1_delay_ms : 0 as * mut sys :: godot_method_bind , get_tap1_level_db : 0 as * mut sys :: godot_method_bind , get_tap1_pan : 0 as * mut sys :: godot_method_bind , get_tap2_delay_ms : 0 as * mut sys :: godot_method_bind , get_tap2_level_db : 0 as * mut sys :: godot_method_bind , get_tap2_pan : 0 as * mut sys :: godot_method_bind , is_feedback_active : 0 as * mut sys :: godot_method_bind , is_tap1_active : 0 as * mut sys :: godot_method_bind , is_tap2_active : 0 as * mut sys :: godot_method_bind , set_dry : 0 as * mut sys :: godot_method_bind , set_feedback_active : 0 as * mut sys :: godot_method_bind , set_feedback_delay_ms : 0 as * mut sys :: godot_method_bind , set_feedback_level_db : 0 as * mut sys :: godot_method_bind , set_feedback_lowpass : 0 as * mut sys :: godot_method_bind , set_tap1_active : 0 as * mut sys :: godot_method_bind , set_tap1_delay_ms : 0 as * mut sys :: godot_method_bind , set_tap1_level_db : 0 as * mut sys :: godot_method_bind , set_tap1_pan : 0 as * mut sys :: godot_method_bind , set_tap2_active : 0 as * mut sys :: godot_method_bind , set_tap2_delay_ms : 0 as * mut sys :: godot_method_bind , set_tap2_level_db : 0 as * mut sys :: godot_method_bind , set_tap2_pan : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectDelayMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectDelay\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_dry = (gd_api . godot_method_bind_get_method) (class_name , "get_dry\0" . as_ptr () as * const c_char) ; table . get_feedback_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "get_feedback_delay_ms\0" . as_ptr () as * const c_char) ; table . get_feedback_level_db = (gd_api . godot_method_bind_get_method) (class_name , "get_feedback_level_db\0" . as_ptr () as * const c_char) ; table . get_feedback_lowpass = (gd_api . godot_method_bind_get_method) (class_name , "get_feedback_lowpass\0" . as_ptr () as * const c_char) ; table . get_tap1_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "get_tap1_delay_ms\0" . as_ptr () as * const c_char) ; table . get_tap1_level_db = (gd_api . godot_method_bind_get_method) (class_name , "get_tap1_level_db\0" . as_ptr () as * const c_char) ; table . get_tap1_pan = (gd_api . godot_method_bind_get_method) (class_name , "get_tap1_pan\0" . as_ptr () as * const c_char) ; table . get_tap2_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "get_tap2_delay_ms\0" . as_ptr () as * const c_char) ; table . get_tap2_level_db = (gd_api . godot_method_bind_get_method) (class_name , "get_tap2_level_db\0" . as_ptr () as * const c_char) ; table . get_tap2_pan = (gd_api . godot_method_bind_get_method) (class_name , "get_tap2_pan\0" . as_ptr () as * const c_char) ; table . is_feedback_active = (gd_api . godot_method_bind_get_method) (class_name , "is_feedback_active\0" . as_ptr () as * const c_char) ; table . is_tap1_active = (gd_api . godot_method_bind_get_method) (class_name , "is_tap1_active\0" . as_ptr () as * const c_char) ; table . is_tap2_active = (gd_api . godot_method_bind_get_method) (class_name , "is_tap2_active\0" . as_ptr () as * const c_char) ; table . set_dry = (gd_api . godot_method_bind_get_method) (class_name , "set_dry\0" . as_ptr () as * const c_char) ; table . set_feedback_active = (gd_api . godot_method_bind_get_method) (class_name , "set_feedback_active\0" . as_ptr () as * const c_char) ; table . set_feedback_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "set_feedback_delay_ms\0" . as_ptr () as * const c_char) ; table . set_feedback_level_db = (gd_api . godot_method_bind_get_method) (class_name , "set_feedback_level_db\0" . as_ptr () as * const c_char) ; table . set_feedback_lowpass = (gd_api . godot_method_bind_get_method) (class_name , "set_feedback_lowpass\0" . as_ptr () as * const c_char) ; table . set_tap1_active = (gd_api . godot_method_bind_get_method) (class_name , "set_tap1_active\0" . as_ptr () as * const c_char) ; table . set_tap1_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "set_tap1_delay_ms\0" . as_ptr () as * const c_char) ; table . set_tap1_level_db = (gd_api . godot_method_bind_get_method) (class_name , "set_tap1_level_db\0" . as_ptr () as * const c_char) ; table . set_tap1_pan = (gd_api . godot_method_bind_get_method) (class_name , "set_tap1_pan\0" . as_ptr () as * const c_char) ; table . set_tap2_active = (gd_api . godot_method_bind_get_method) (class_name , "set_tap2_active\0" . as_ptr () as * const c_char) ; table . set_tap2_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "set_tap2_delay_ms\0" . as_ptr () as * const c_char) ; table . set_tap2_level_db = (gd_api . godot_method_bind_get_method) (class_name , "set_tap2_level_db\0" . as_ptr () as * const c_char) ; table . set_tap2_pan = (gd_api . godot_method_bind_get_method) (class_name , "set_tap2_pan\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:346:9738 [INFO] [stdout] | [INFO] [stdout] 346 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 346 | # [doc = "`core class ImmediateGeometry` inherits `GeometryInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_immediategeometry.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ImmediateGeometry` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nImmediateGeometry inherits methods from:\n - [GeometryInstance](struct.GeometryInstance.html)\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ImmediateGeometry { this : RawObject < Self > , } impl ImmediateGeometry { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ImmediateGeometryMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Simple helper to draw an UV sphere with given latitude, longitude and radius.\n# Default Arguments\n* `add_uv` - `true`"] # [doc = ""] # [inline] pub fn add_sphere (& self , lats : i64 , lons : i64 , radius : f64 , add_uv : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . add_sphere ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64_bool (method_bind , self . this . sys () . as_ptr () , lats , lons , radius , add_uv) ; } } # [doc = "Adds a vertex in local coordinate space with the currently set color/uv/etc."] # [doc = ""] # [inline] pub fn add_vertex (& self , position : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . add_vertex ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "Begin drawing (and optionally pass a texture override). When done call [method end]. For more information on how this works, search for `glBegin()` and `glEnd()` references.\nFor the type of primitive, see the [enum Mesh.PrimitiveType] enum.\n# Default Arguments\n* `texture` - `null`"] # [doc = ""] # [inline] pub fn begin (& self , primitive : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . begin ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , primitive , texture . as_arg_ptr ()) ; } } # [doc = "Clears everything that was drawn using begin/end."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Ends a drawing context and displays the results."] # [doc = ""] # [inline] pub fn end (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . end ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The current drawing color."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The next vertex's normal."] # [doc = ""] # [inline] pub fn set_normal (& self , normal : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . set_normal ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , normal) ; } } # [doc = "The next vertex's tangent (and binormal facing)."] # [doc = ""] # [inline] pub fn set_tangent (& self , tangent : Plane) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . set_tangent ; let ret = crate :: icalls :: icallptr_void_plane (method_bind , self . this . sys () . as_ptr () , tangent) ; } } # [doc = "The next vertex's UV."] # [doc = ""] # [inline] pub fn set_uv (& self , uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . set_uv ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , uv) ; } } # [doc = "The next vertex's second layer UV."] # [doc = ""] # [inline] pub fn set_uv2 (& self , uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImmediateGeometryMethodTable :: get (get_api ()) . set_uv2 ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , uv) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ImmediateGeometry { } unsafe impl GodotObject for ImmediateGeometry { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ImmediateGeometry" } } impl QueueFree for ImmediateGeometry { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ImmediateGeometry { type Target = crate :: generated :: geometry_instance :: GeometryInstance ; # [inline] fn deref (& self) -> & crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ImmediateGeometry { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for ImmediateGeometry { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for ImmediateGeometry { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ImmediateGeometry { } unsafe impl SubClass < crate :: generated :: node :: Node > for ImmediateGeometry { } unsafe impl SubClass < crate :: generated :: object :: Object > for ImmediateGeometry { } impl Instanciable for ImmediateGeometry { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ImmediateGeometry :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ImmediateGeometryMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_sphere : * mut sys :: godot_method_bind , pub add_vertex : * mut sys :: godot_method_bind , pub begin : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub end : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_normal : * mut sys :: godot_method_bind , pub set_tangent : * mut sys :: godot_method_bind , pub set_uv : * mut sys :: godot_method_bind , pub set_uv2 : * mut sys :: godot_method_bind } impl ImmediateGeometryMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ImmediateGeometryMethodTable = ImmediateGeometryMethodTable { class_constructor : None , add_sphere : 0 as * mut sys :: godot_method_bind , add_vertex : 0 as * mut sys :: godot_method_bind , begin : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , end : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_normal : 0 as * mut sys :: godot_method_bind , set_tangent : 0 as * mut sys :: godot_method_bind , set_uv : 0 as * mut sys :: godot_method_bind , set_uv2 : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ImmediateGeometryMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ImmediateGeometry\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_sphere = (gd_api . godot_method_bind_get_method) (class_name , "add_sphere\0" . as_ptr () as * const c_char) ; table . add_vertex = (gd_api . godot_method_bind_get_method) (class_name , "add_vertex\0" . as_ptr () as * const c_char) ; table . begin = (gd_api . godot_method_bind_get_method) (class_name , "begin\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . end = (gd_api . godot_method_bind_get_method) (class_name , "end\0" . as_ptr () as * const c_char) ; table . set_color = (gd_api . godot_method_bind_get_method) (class_name , "set_color\0" . as_ptr () as * const c_char) ; table . set_normal = (gd_api . godot_method_bind_get_method) (class_name , "set_normal\0" . as_ptr () as * const c_char) ; table . set_tangent = (gd_api . godot_method_bind_get_method) (class_name , "set_tangent\0" . as_ptr () as * const c_char) ; table . set_uv = (gd_api . godot_method_bind_get_method) (class_name , "set_uv\0" . as_ptr () as * const c_char) ; table . set_uv2 = (gd_api . godot_method_bind_get_method) (class_name , "set_uv2\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:352:6738 [INFO] [stdout] | [INFO] [stdout] 352 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 352 | # [doc = "`core class MeshTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_meshtexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nMeshTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct MeshTexture { this : RawObject < Self > , } impl MeshTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = MeshTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Sets the base texture that the Mesh will use to draw."] # [doc = ""] # [inline] pub fn base_texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshTextureMethodTable :: get (get_api ()) . get_base_texture ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Sets the size of the image, needed for reference."] # [doc = ""] # [inline] pub fn image_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshTextureMethodTable :: get (get_api ()) . get_image_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Sets the mesh used to draw. It must be a mesh using 2D vertices."] # [doc = ""] # [inline] pub fn mesh (& self) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshTextureMethodTable :: get (get_api ()) . get_mesh ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Sets the base texture that the Mesh will use to draw."] # [doc = ""] # [inline] pub fn set_base_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshTextureMethodTable :: get (get_api ()) . set_base_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "Sets the size of the image, needed for reference."] # [doc = ""] # [inline] pub fn set_image_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshTextureMethodTable :: get (get_api ()) . set_image_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Sets the mesh used to draw. It must be a mesh using 2D vertices."] # [doc = ""] # [inline] pub fn set_mesh (& self , mesh : impl AsArg < crate :: generated :: mesh :: Mesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshTextureMethodTable :: get (get_api ()) . set_mesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , mesh . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for MeshTexture { } unsafe impl GodotObject for MeshTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "MeshTexture" } } impl std :: ops :: Deref for MeshTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for MeshTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for MeshTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for MeshTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for MeshTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for MeshTexture { } impl Instanciable for MeshTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MeshTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MeshTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_base_texture : * mut sys :: godot_method_bind , pub get_image_size : * mut sys :: godot_method_bind , pub get_mesh : * mut sys :: godot_method_bind , pub set_base_texture : * mut sys :: godot_method_bind , pub set_image_size : * mut sys :: godot_method_bind , pub set_mesh : * mut sys :: godot_method_bind } impl MeshTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MeshTextureMethodTable = MeshTextureMethodTable { class_constructor : None , get_base_texture : 0 as * mut sys :: godot_method_bind , get_image_size : 0 as * mut sys :: godot_method_bind , get_mesh : 0 as * mut sys :: godot_method_bind , set_base_texture : 0 as * mut sys :: godot_method_bind , set_image_size : 0 as * mut sys :: godot_method_bind , set_mesh : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { MeshTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MeshTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_base_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_base_texture\0" . as_ptr () as * const c_char) ; table . get_image_size = (gd_api . godot_method_bind_get_method) (class_name , "get_image_size\0" . as_ptr () as * const c_char) ; table . get_mesh = (gd_api . godot_method_bind_get_method) (class_name , "get_mesh\0" . as_ptr () as * const c_char) ; table . set_base_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_base_texture\0" . as_ptr () as * const c_char) ; table . set_image_size = (gd_api . godot_method_bind_get_method) (class_name , "set_image_size\0" . as_ptr () as * const c_char) ; table . set_mesh = (gd_api . godot_method_bind_get_method) (class_name , "set_mesh\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:358:20850 [INFO] [stdout] | [INFO] [stdout] 358 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 358 | # [doc = "`core class Physics2DDirectBodyState` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physics2ddirectbodystate.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nPhysics2DDirectBodyState inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Physics2DDirectBodyState { this : RawObject < Self > , } impl Physics2DDirectBodyState { # [doc = "Adds a constant directional force without affecting rotation."] # [doc = ""] # [inline] pub fn add_central_force (& self , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . add_central_force ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , force) ; } } # [doc = "Adds a positioned force to the body. Both the force and the offset from the body origin are in global coordinates."] # [doc = ""] # [inline] pub fn add_force (& self , offset : Vector2 , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . add_force ; let ret = crate :: icalls :: icallptr_void_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , offset , force) ; } } # [doc = "Adds a constant rotational force."] # [doc = ""] # [inline] pub fn add_torque (& self , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . add_torque ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Applies a directional impulse without affecting rotation."] # [doc = ""] # [inline] pub fn apply_central_impulse (& self , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . apply_central_impulse ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , impulse) ; } } # [doc = "Applies a positioned impulse to the body. An impulse is time-independent! Applying an impulse every frame would result in a framerate-dependent force. For this reason, it should only be used when simulating one-time impacts (use the \"_force\" functions otherwise). The offset uses the rotation of the global coordinate system, but is centered at the object's origin."] # [doc = ""] # [inline] pub fn apply_impulse (& self , offset : Vector2 , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . apply_impulse ; let ret = crate :: icalls :: icallptr_void_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , offset , impulse) ; } } # [doc = "Applies a rotational impulse to the body."] # [doc = ""] # [inline] pub fn apply_torque_impulse (& self , impulse : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . apply_torque_impulse ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , impulse) ; } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn angular_velocity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_angular_velocity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the collider's [RID]."] # [doc = ""] # [inline] pub fn get_contact_collider (& self , contact_idx : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider ; let ret = crate :: icalls :: icallptr_rid_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; Rid :: from_sys (ret) } } # [doc = "Returns the collider's object id."] # [doc = ""] # [inline] pub fn get_contact_collider_id (& self , contact_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_id ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ret as _ } } # [doc = "Returns the collider object. This depends on how it was created (will return a scene node if such was used to create it)."] # [doc = ""] # [inline] pub fn get_contact_collider_object (& self , contact_idx : i64) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_object ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the contact position in the collider."] # [doc = ""] # [inline] pub fn get_contact_collider_position (& self , contact_idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the collider's shape index."] # [doc = ""] # [inline] pub fn get_contact_collider_shape (& self , contact_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_shape ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ret as _ } } # [doc = "Returns the collided shape's metadata. This metadata is different from [method Object.get_meta], and is set with [method Physics2DServer.shape_set_data]."] # [doc = ""] # [inline] pub fn get_contact_collider_shape_metadata (& self , contact_idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_shape_metadata ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; Variant :: from_sys (ret) } } # [doc = "Returns the linear velocity vector at the collider's contact point."] # [doc = ""] # [inline] pub fn get_contact_collider_velocity_at_position (& self , contact_idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_velocity_at_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the number of contacts this body has with other bodies.\n**Note:** By default, this returns 0 unless bodies are configured to monitor contacts. See [member RigidBody2D.contact_monitor]."] # [doc = ""] # [inline] pub fn get_contact_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the local normal at the contact point."] # [doc = ""] # [inline] pub fn get_contact_local_normal (& self , contact_idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_local_normal ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the local position of the contact point."] # [doc = ""] # [inline] pub fn get_contact_local_position (& self , contact_idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_local_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the local shape index of the collision."] # [doc = ""] # [inline] pub fn get_contact_local_shape (& self , contact_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_contact_local_shape ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ret as _ } } # [doc = "The inverse of the inertia of the body."] # [doc = ""] # [inline] pub fn inverse_inertia (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_inverse_inertia ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The inverse of the mass of the body."] # [doc = ""] # [inline] pub fn inverse_mass (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_inverse_mass ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn linear_velocity (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_linear_velocity ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the current state of the space, useful for queries."] # [doc = ""] # [inline] pub fn get_space_state (& self) -> Option < Ref < crate :: generated :: physics_2d_direct_space_state :: Physics2DDirectSpaceState , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_space_state ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_2d_direct_space_state :: Physics2DDirectSpaceState , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The timestep (delta) used for the simulation."] # [doc = ""] # [inline] pub fn step (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_step ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The rate at which the body stops rotating, if there are not any other forces moving it."] # [doc = ""] # [inline] pub fn total_angular_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_total_angular_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The total gravity vector being currently applied to this body."] # [doc = ""] # [inline] pub fn total_gravity (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_total_gravity ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The rate at which the body stops moving, if there are not any other forces moving it."] # [doc = ""] # [inline] pub fn total_linear_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_total_linear_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's transformation matrix."] # [doc = ""] # [inline] pub fn transform (& self) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . get_transform ; let ret = crate :: icalls :: icallptr_trans2D (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Calls the built-in force integration code."] # [doc = ""] # [inline] pub fn integrate_forces (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . integrate_forces ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, this body is currently sleeping (not active)."] # [doc = ""] # [inline] pub fn is_sleeping (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . is_sleeping ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn set_angular_velocity (& self , velocity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . set_angular_velocity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , velocity) ; } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn set_linear_velocity (& self , velocity : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . set_linear_velocity ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , velocity) ; } } # [doc = "If `true`, this body is currently sleeping (not active)."] # [doc = ""] # [inline] pub fn set_sleep_state (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . set_sleep_state ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The body's transformation matrix."] # [doc = ""] # [inline] pub fn set_transform (& self , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectBodyStateMethodTable :: get (get_api ()) . set_transform ; let ret = crate :: icalls :: icallptr_void_trans2D (method_bind , self . this . sys () . as_ptr () , transform) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Physics2DDirectBodyState { } unsafe impl GodotObject for Physics2DDirectBodyState { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Physics2DDirectBodyState" } } impl std :: ops :: Deref for Physics2DDirectBodyState { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Physics2DDirectBodyState { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for Physics2DDirectBodyState { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Physics2DDirectBodyStateMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_central_force : * mut sys :: godot_method_bind , pub add_force : * mut sys :: godot_method_bind , pub add_torque : * mut sys :: godot_method_bind , pub apply_central_impulse : * mut sys :: godot_method_bind , pub apply_impulse : * mut sys :: godot_method_bind , pub apply_torque_impulse : * mut sys :: godot_method_bind , pub get_angular_velocity : * mut sys :: godot_method_bind , pub get_contact_collider : * mut sys :: godot_method_bind , pub get_contact_collider_id : * mut sys :: godot_method_bind , pub get_contact_collider_object : * mut sys :: godot_method_bind , pub get_contact_collider_position : * mut sys :: godot_method_bind , pub get_contact_collider_shape : * mut sys :: godot_method_bind , pub get_contact_collider_shape_metadata : * mut sys :: godot_method_bind , pub get_contact_collider_velocity_at_position : * mut sys :: godot_method_bind , pub get_contact_count : * mut sys :: godot_method_bind , pub get_contact_local_normal : * mut sys :: godot_method_bind , pub get_contact_local_position : * mut sys :: godot_method_bind , pub get_contact_local_shape : * mut sys :: godot_method_bind , pub get_inverse_inertia : * mut sys :: godot_method_bind , pub get_inverse_mass : * mut sys :: godot_method_bind , pub get_linear_velocity : * mut sys :: godot_method_bind , pub get_space_state : * mut sys :: godot_method_bind , pub get_step : * mut sys :: godot_method_bind , pub get_total_angular_damp : * mut sys :: godot_method_bind , pub get_total_gravity : * mut sys :: godot_method_bind , pub get_total_linear_damp : * mut sys :: godot_method_bind , pub get_transform : * mut sys :: godot_method_bind , pub integrate_forces : * mut sys :: godot_method_bind , pub is_sleeping : * mut sys :: godot_method_bind , pub set_angular_velocity : * mut sys :: godot_method_bind , pub set_linear_velocity : * mut sys :: godot_method_bind , pub set_sleep_state : * mut sys :: godot_method_bind , pub set_transform : * mut sys :: godot_method_bind } impl Physics2DDirectBodyStateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Physics2DDirectBodyStateMethodTable = Physics2DDirectBodyStateMethodTable { class_constructor : None , add_central_force : 0 as * mut sys :: godot_method_bind , add_force : 0 as * mut sys :: godot_method_bind , add_torque : 0 as * mut sys :: godot_method_bind , apply_central_impulse : 0 as * mut sys :: godot_method_bind , apply_impulse : 0 as * mut sys :: godot_method_bind , apply_torque_impulse : 0 as * mut sys :: godot_method_bind , get_angular_velocity : 0 as * mut sys :: godot_method_bind , get_contact_collider : 0 as * mut sys :: godot_method_bind , get_contact_collider_id : 0 as * mut sys :: godot_method_bind , get_contact_collider_object : 0 as * mut sys :: godot_method_bind , get_contact_collider_position : 0 as * mut sys :: godot_method_bind , get_contact_collider_shape : 0 as * mut sys :: godot_method_bind , get_contact_collider_shape_metadata : 0 as * mut sys :: godot_method_bind , get_contact_collider_velocity_at_position : 0 as * mut sys :: godot_method_bind , get_contact_count : 0 as * mut sys :: godot_method_bind , get_contact_local_normal : 0 as * mut sys :: godot_method_bind , get_contact_local_position : 0 as * mut sys :: godot_method_bind , get_contact_local_shape : 0 as * mut sys :: godot_method_bind , get_inverse_inertia : 0 as * mut sys :: godot_method_bind , get_inverse_mass : 0 as * mut sys :: godot_method_bind , get_linear_velocity : 0 as * mut sys :: godot_method_bind , get_space_state : 0 as * mut sys :: godot_method_bind , get_step : 0 as * mut sys :: godot_method_bind , get_total_angular_damp : 0 as * mut sys :: godot_method_bind , get_total_gravity : 0 as * mut sys :: godot_method_bind , get_total_linear_damp : 0 as * mut sys :: godot_method_bind , get_transform : 0 as * mut sys :: godot_method_bind , integrate_forces : 0 as * mut sys :: godot_method_bind , is_sleeping : 0 as * mut sys :: godot_method_bind , set_angular_velocity : 0 as * mut sys :: godot_method_bind , set_linear_velocity : 0 as * mut sys :: godot_method_bind , set_sleep_state : 0 as * mut sys :: godot_method_bind , set_transform : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Physics2DDirectBodyStateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Physics2DDirectBodyState\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_central_force = (gd_api . godot_method_bind_get_method) (class_name , "add_central_force\0" . as_ptr () as * const c_char) ; table . add_force = (gd_api . godot_method_bind_get_method) (class_name , "add_force\0" . as_ptr () as * const c_char) ; table . add_torque = (gd_api . godot_method_bind_get_method) (class_name , "add_torque\0" . as_ptr () as * const c_char) ; table . apply_central_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_central_impulse\0" . as_ptr () as * const c_char) ; table . apply_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_impulse\0" . as_ptr () as * const c_char) ; table . apply_torque_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_torque_impulse\0" . as_ptr () as * const c_char) ; table . get_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_angular_velocity\0" . as_ptr () as * const c_char) ; table . get_contact_collider = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider\0" . as_ptr () as * const c_char) ; table . get_contact_collider_id = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_id\0" . as_ptr () as * const c_char) ; table . get_contact_collider_object = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_object\0" . as_ptr () as * const c_char) ; table . get_contact_collider_position = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_position\0" . as_ptr () as * const c_char) ; table . get_contact_collider_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_shape\0" . as_ptr () as * const c_char) ; table . get_contact_collider_shape_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_shape_metadata\0" . as_ptr () as * const c_char) ; table . get_contact_collider_velocity_at_position = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_velocity_at_position\0" . as_ptr () as * const c_char) ; table . get_contact_count = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_count\0" . as_ptr () as * const c_char) ; table . get_contact_local_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_local_normal\0" . as_ptr () as * const c_char) ; table . get_contact_local_position = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_local_position\0" . as_ptr () as * const c_char) ; table . get_contact_local_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_local_shape\0" . as_ptr () as * const c_char) ; table . get_inverse_inertia = (gd_api . godot_method_bind_get_method) (class_name , "get_inverse_inertia\0" . as_ptr () as * const c_char) ; table . get_inverse_mass = (gd_api . godot_method_bind_get_method) (class_name , "get_inverse_mass\0" . as_ptr () as * const c_char) ; table . get_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_linear_velocity\0" . as_ptr () as * const c_char) ; table . get_space_state = (gd_api . godot_method_bind_get_method) (class_name , "get_space_state\0" . as_ptr () as * const c_char) ; table . get_step = (gd_api . godot_method_bind_get_method) (class_name , "get_step\0" . as_ptr () as * const c_char) ; table . get_total_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_total_angular_damp\0" . as_ptr () as * const c_char) ; table . get_total_gravity = (gd_api . godot_method_bind_get_method) (class_name , "get_total_gravity\0" . as_ptr () as * const c_char) ; table . get_total_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_total_linear_damp\0" . as_ptr () as * const c_char) ; table . get_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_transform\0" . as_ptr () as * const c_char) ; table . integrate_forces = (gd_api . godot_method_bind_get_method) (class_name , "integrate_forces\0" . as_ptr () as * const c_char) ; table . is_sleeping = (gd_api . godot_method_bind_get_method) (class_name , "is_sleeping\0" . as_ptr () as * const c_char) ; table . set_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_angular_velocity\0" . as_ptr () as * const c_char) ; table . set_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_linear_velocity\0" . as_ptr () as * const c_char) ; table . set_sleep_state = (gd_api . godot_method_bind_get_method) (class_name , "set_sleep_state\0" . as_ptr () as * const c_char) ; table . set_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_transform\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:364:4437 [INFO] [stdout] | [INFO] [stdout] 364 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 364 | # [doc = "`core class ProxyTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_proxytexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nProxyTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ProxyTexture { this : RawObject < Self > , } impl ProxyTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ProxyTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn base (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ProxyTextureMethodTable :: get (get_api ()) . get_base ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_base (& self , base : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProxyTextureMethodTable :: get (get_api ()) . set_base ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , base . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ProxyTexture { } unsafe impl GodotObject for ProxyTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ProxyTexture" } } impl std :: ops :: Deref for ProxyTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ProxyTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for ProxyTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ProxyTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ProxyTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for ProxyTexture { } impl Instanciable for ProxyTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ProxyTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ProxyTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_base : * mut sys :: godot_method_bind , pub set_base : * mut sys :: godot_method_bind } impl ProxyTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ProxyTextureMethodTable = ProxyTextureMethodTable { class_constructor : None , get_base : 0 as * mut sys :: godot_method_bind , set_base : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ProxyTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ProxyTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_base = (gd_api . godot_method_bind_get_method) (class_name , "get_base\0" . as_ptr () as * const c_char) ; table . set_base = (gd_api . godot_method_bind_get_method) (class_name , "set_base\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:370:4704 [INFO] [stdout] | [INFO] [stdout] 370 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 370 | # [doc = "`core class VisualScriptEngineSingleton` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptenginesingleton.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptEngineSingleton inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptEngineSingleton { this : RawObject < Self > , } impl VisualScriptEngineSingleton { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptEngineSingletonMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn singleton (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptEngineSingletonMethodTable :: get (get_api ()) . get_singleton ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_singleton (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptEngineSingletonMethodTable :: get (get_api ()) . set_singleton ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptEngineSingleton { } unsafe impl GodotObject for VisualScriptEngineSingleton { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptEngineSingleton" } } impl std :: ops :: Deref for VisualScriptEngineSingleton { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptEngineSingleton { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptEngineSingleton { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptEngineSingleton { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptEngineSingleton { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptEngineSingleton { } impl Instanciable for VisualScriptEngineSingleton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptEngineSingleton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptEngineSingletonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_singleton : * mut sys :: godot_method_bind , pub set_singleton : * mut sys :: godot_method_bind } impl VisualScriptEngineSingletonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptEngineSingletonMethodTable = VisualScriptEngineSingletonMethodTable { class_constructor : None , get_singleton : 0 as * mut sys :: godot_method_bind , set_singleton : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptEngineSingletonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptEngineSingleton\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_singleton = (gd_api . godot_method_bind_get_method) (class_name , "get_singleton\0" . as_ptr () as * const c_char) ; table . set_singleton = (gd_api . godot_method_bind_get_method) (class_name , "set_singleton\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:376:7629 [INFO] [stdout] | [INFO] [stdout] 376 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 376 | # [doc = "`core class LargeTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_largetexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nLargeTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct LargeTexture { this : RawObject < Self > , } impl LargeTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = LargeTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds `texture` to this [LargeTexture], starting on offset `ofs`."] # [doc = ""] # [inline] pub fn add_piece (& self , ofs : Vector2 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . add_piece ; let ret = crate :: icalls :: icallptr_i64_vec2_obj (method_bind , self . this . sys () . as_ptr () , ofs , texture . as_arg_ptr ()) ; ret as _ } } # [doc = "Clears the [LargeTexture]."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the number of pieces currently in this [LargeTexture]."] # [doc = ""] # [inline] pub fn get_piece_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . get_piece_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the offset of the piece with the index `idx`."] # [doc = ""] # [inline] pub fn get_piece_offset (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . get_piece_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the [Texture] of the piece with the index `idx`."] # [doc = ""] # [inline] pub fn get_piece_texture (& self , idx : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . get_piece_texture ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Sets the offset of the piece with the index `idx` to `ofs`."] # [doc = ""] # [inline] pub fn set_piece_offset (& self , idx : i64 , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . set_piece_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , idx , ofs) ; } } # [doc = "Sets the [Texture] of the piece with index `idx` to `texture`."] # [doc = ""] # [inline] pub fn set_piece_texture (& self , idx : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . set_piece_texture ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , idx , texture . as_arg_ptr ()) ; } } # [doc = "Sets the size of this [LargeTexture]."] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . set_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for LargeTexture { } unsafe impl GodotObject for LargeTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "LargeTexture" } } impl std :: ops :: Deref for LargeTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for LargeTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for LargeTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for LargeTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for LargeTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for LargeTexture { } impl Instanciable for LargeTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { LargeTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct LargeTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_piece : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_piece_count : * mut sys :: godot_method_bind , pub get_piece_offset : * mut sys :: godot_method_bind , pub get_piece_texture : * mut sys :: godot_method_bind , pub set_piece_offset : * mut sys :: godot_method_bind , pub set_piece_texture : * mut sys :: godot_method_bind , pub set_size : * mut sys :: godot_method_bind } impl LargeTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : LargeTextureMethodTable = LargeTextureMethodTable { class_constructor : None , add_piece : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_piece_count : 0 as * mut sys :: godot_method_bind , get_piece_offset : 0 as * mut sys :: godot_method_bind , get_piece_texture : 0 as * mut sys :: godot_method_bind , set_piece_offset : 0 as * mut sys :: godot_method_bind , set_piece_texture : 0 as * mut sys :: godot_method_bind , set_size : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { LargeTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "LargeTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_piece = (gd_api . godot_method_bind_get_method) (class_name , "add_piece\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . get_piece_count = (gd_api . godot_method_bind_get_method) (class_name , "get_piece_count\0" . as_ptr () as * const c_char) ; table . get_piece_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_piece_offset\0" . as_ptr () as * const c_char) ; table . get_piece_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_piece_texture\0" . as_ptr () as * const c_char) ; table . set_piece_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_piece_offset\0" . as_ptr () as * const c_char) ; table . set_piece_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_piece_texture\0" . as_ptr () as * const c_char) ; table . set_size = (gd_api . godot_method_bind_get_method) (class_name , "set_size\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:388:3398 [INFO] [stdout] | [INFO] [stdout] 388 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 388 | # [doc = "`core class StyleBoxEmpty` inherits `StyleBox` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_styleboxempty.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nStyleBoxEmpty inherits methods from:\n - [StyleBox](struct.StyleBox.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct StyleBoxEmpty { this : RawObject < Self > , } impl StyleBoxEmpty { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = StyleBoxEmptyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for StyleBoxEmpty { } unsafe impl GodotObject for StyleBoxEmpty { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StyleBoxEmpty" } } impl std :: ops :: Deref for StyleBoxEmpty { type Target = crate :: generated :: style_box :: StyleBox ; # [inline] fn deref (& self) -> & crate :: generated :: style_box :: StyleBox { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for StyleBoxEmpty { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: style_box :: StyleBox { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: style_box :: StyleBox > for StyleBoxEmpty { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for StyleBoxEmpty { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StyleBoxEmpty { } unsafe impl SubClass < crate :: generated :: object :: Object > for StyleBoxEmpty { } impl Instanciable for StyleBoxEmpty { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StyleBoxEmpty :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StyleBoxEmptyMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl StyleBoxEmptyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StyleBoxEmptyMethodTable = StyleBoxEmptyMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { StyleBoxEmptyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StyleBoxEmpty\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:394:5720 [INFO] [stdout] | [INFO] [stdout] 394 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 394 | # [doc = "`tools class EditorSpinSlider` inherits `Range` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorspinslider.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nEditorSpinSlider inherits methods from:\n - [Range](struct.Range.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorSpinSlider { this : RawObject < Self > , } impl EditorSpinSlider { # [doc = ""] # [doc = ""] # [inline] pub fn label (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpinSliderMethodTable :: get (get_api ()) . get_label ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_flat (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpinSliderMethodTable :: get (get_api ()) . is_flat ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_read_only (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpinSliderMethodTable :: get (get_api ()) . is_read_only ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_flat (& self , flat : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpinSliderMethodTable :: get (get_api ()) . set_flat ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , flat) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_label (& self , label : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpinSliderMethodTable :: get (get_api ()) . set_label ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , label . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_read_only (& self , read_only : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpinSliderMethodTable :: get (get_api ()) . set_read_only ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , read_only) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorSpinSlider { } unsafe impl GodotObject for EditorSpinSlider { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorSpinSlider" } } impl QueueFree for EditorSpinSlider { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for EditorSpinSlider { type Target = crate :: generated :: range :: Range ; # [inline] fn deref (& self) -> & crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorSpinSlider { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: range :: Range > for EditorSpinSlider { } unsafe impl SubClass < crate :: generated :: control :: Control > for EditorSpinSlider { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for EditorSpinSlider { } unsafe impl SubClass < crate :: generated :: node :: Node > for EditorSpinSlider { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorSpinSlider { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorSpinSliderMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_label : * mut sys :: godot_method_bind , pub is_flat : * mut sys :: godot_method_bind , pub is_read_only : * mut sys :: godot_method_bind , pub set_flat : * mut sys :: godot_method_bind , pub set_label : * mut sys :: godot_method_bind , pub set_read_only : * mut sys :: godot_method_bind } impl EditorSpinSliderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorSpinSliderMethodTable = EditorSpinSliderMethodTable { class_constructor : None , get_label : 0 as * mut sys :: godot_method_bind , is_flat : 0 as * mut sys :: godot_method_bind , is_read_only : 0 as * mut sys :: godot_method_bind , set_flat : 0 as * mut sys :: godot_method_bind , set_label : 0 as * mut sys :: godot_method_bind , set_read_only : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorSpinSliderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorSpinSlider\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_label = (gd_api . godot_method_bind_get_method) (class_name , "get_label\0" . as_ptr () as * const c_char) ; table . is_flat = (gd_api . godot_method_bind_get_method) (class_name , "is_flat\0" . as_ptr () as * const c_char) ; table . is_read_only = (gd_api . godot_method_bind_get_method) (class_name , "is_read_only\0" . as_ptr () as * const c_char) ; table . set_flat = (gd_api . godot_method_bind_get_method) (class_name , "set_flat\0" . as_ptr () as * const c_char) ; table . set_label = (gd_api . godot_method_bind_get_method) (class_name , "set_label\0" . as_ptr () as * const c_char) ; table . set_read_only = (gd_api . godot_method_bind_get_method) (class_name , "set_read_only\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:400:4429 [INFO] [stdout] | [INFO] [stdout] 400 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 400 | # [doc = "`core class ConcavePolygonShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_concavepolygonshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nConcavePolygonShape inherits methods from:\n - [Shape](struct.Shape.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ConcavePolygonShape { this : RawObject < Self > , } impl ConcavePolygonShape { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ConcavePolygonShapeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Returns the faces (an array of triangles)."] # [doc = ""] # [inline] pub fn faces (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = ConcavePolygonShapeMethodTable :: get (get_api ()) . get_faces ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = "Sets the faces (an array of triangles)."] # [doc = ""] # [inline] pub fn set_faces (& self , faces : Vector3Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ConcavePolygonShapeMethodTable :: get (get_api ()) . set_faces ; let ret = crate :: icalls :: icallptr_void_vec3arr (method_bind , self . this . sys () . as_ptr () , faces) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ConcavePolygonShape { } unsafe impl GodotObject for ConcavePolygonShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ConcavePolygonShape" } } impl std :: ops :: Deref for ConcavePolygonShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ConcavePolygonShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for ConcavePolygonShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ConcavePolygonShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ConcavePolygonShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for ConcavePolygonShape { } impl Instanciable for ConcavePolygonShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ConcavePolygonShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ConcavePolygonShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_faces : * mut sys :: godot_method_bind , pub set_faces : * mut sys :: godot_method_bind } impl ConcavePolygonShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ConcavePolygonShapeMethodTable = ConcavePolygonShapeMethodTable { class_constructor : None , get_faces : 0 as * mut sys :: godot_method_bind , set_faces : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ConcavePolygonShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ConcavePolygonShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_faces = (gd_api . godot_method_bind_get_method) (class_name , "get_faces\0" . as_ptr () as * const c_char) ; table . set_faces = (gd_api . godot_method_bind_get_method) (class_name , "set_faces\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:406:3889 [INFO] [stdout] | [INFO] [stdout] 406 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 406 | # [doc = "`core class VisualShaderNodeVectorScalarStep` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorscalarstep.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorScalarStep inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarStep { this : RawObject < Self > , } impl VisualShaderNodeVectorScalarStep { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeVectorScalarStepMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVectorScalarStep { } unsafe impl GodotObject for VisualShaderNodeVectorScalarStep { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorScalarStep" } } impl std :: ops :: Deref for VisualShaderNodeVectorScalarStep { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeVectorScalarStep { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeVectorScalarStep { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorScalarStep { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorScalarStep { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorScalarStep { } impl Instanciable for VisualShaderNodeVectorScalarStep { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorScalarStep :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorScalarStepMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorScalarStepMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorScalarStepMethodTable = VisualShaderNodeVectorScalarStepMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeVectorScalarStepMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorScalarStep\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:412:21299 [INFO] [stdout] | [INFO] [stdout] 412 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 412 | # [doc = "`core class Node2D` inherits `CanvasItem` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_node2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Node2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nNode2D inherits methods from:\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Node2D { this : RawObject < Self > , } impl Node2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = Node2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Multiplies the current scale by the `ratio` vector."] # [doc = ""] # [inline] pub fn apply_scale (& self , ratio : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . apply_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , ratio) ; } } # [doc = "Returns the angle between the node and the `point` in radians."] # [doc = ""] # [inline] pub fn get_angle_to (& self , point : Vector2) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_angle_to ; let ret = crate :: icalls :: icallptr_f64_vec2 (method_bind , self . this . sys () . as_ptr () , point) ; ret as _ } } # [doc = "Global position."] # [doc = ""] # [inline] pub fn global_position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_global_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Global rotation in radians."] # [doc = ""] # [inline] pub fn global_rotation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_global_rotation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Global rotation in degrees."] # [doc = ""] # [inline] pub fn global_rotation_degrees (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_global_rotation_degrees ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Global scale."] # [doc = ""] # [inline] pub fn global_scale (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_global_scale ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Position, relative to the node's parent."] # [doc = ""] # [inline] pub fn position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the [Transform2D] relative to this node's parent."] # [doc = ""] # [inline] pub fn get_relative_transform_to_parent (& self , parent : impl AsArg < crate :: generated :: node :: Node >) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_relative_transform_to_parent ; let ret = crate :: icalls :: icallptr_trans2D_obj (method_bind , self . this . sys () . as_ptr () , parent . as_arg_ptr ()) ; mem :: transmute (ret) } } # [doc = "Rotation in radians, relative to the node's parent."] # [doc = ""] # [inline] pub fn rotation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_rotation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Rotation in degrees, relative to the node's parent."] # [doc = ""] # [inline] pub fn rotation_degrees (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_rotation_degrees ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The node's scale. Unscaled value: `(1, 1)`."] # [doc = ""] # [inline] pub fn scale (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_scale ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Z index. Controls the order in which the nodes render. A node with a higher Z index will display in front of others."] # [doc = ""] # [inline] pub fn z_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . get_z_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Adds the `offset` vector to the node's global position."] # [doc = ""] # [inline] pub fn global_translate (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . global_translate ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "If `true`, the node's Z index is relative to its parent's Z index. If this node's Z index is 2 and its parent's effective Z index is 3, then this node's effective Z index will be 2 + 3 = 5."] # [doc = ""] # [inline] pub fn is_z_relative (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . is_z_relative ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Rotates the node so it points towards the `point`, which is expected to use global coordinates."] # [doc = ""] # [inline] pub fn look_at (& self , point : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . look_at ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , point) ; } } # [doc = "Applies a local translation on the node's X axis based on the [method Node._process]'s `delta`. If `scaled` is `false`, normalizes the movement.\n# Default Arguments\n* `scaled` - `false`"] # [doc = ""] # [inline] pub fn move_local_x (& self , delta : f64 , scaled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . move_local_x ; let ret = crate :: icalls :: icallptr_void_f64_bool (method_bind , self . this . sys () . as_ptr () , delta , scaled) ; } } # [doc = "Applies a local translation on the node's Y axis based on the [method Node._process]'s `delta`. If `scaled` is `false`, normalizes the movement.\n# Default Arguments\n* `scaled` - `false`"] # [doc = ""] # [inline] pub fn move_local_y (& self , delta : f64 , scaled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . move_local_y ; let ret = crate :: icalls :: icallptr_void_f64_bool (method_bind , self . this . sys () . as_ptr () , delta , scaled) ; } } # [doc = "Applies a rotation to the node, in radians, starting from its current rotation."] # [doc = ""] # [inline] pub fn rotate (& self , radians : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . rotate ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radians) ; } } # [doc = "Global position."] # [doc = ""] # [inline] pub fn set_global_position (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_global_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "Global rotation in radians."] # [doc = ""] # [inline] pub fn set_global_rotation (& self , radians : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_global_rotation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radians) ; } } # [doc = "Global rotation in degrees."] # [doc = ""] # [inline] pub fn set_global_rotation_degrees (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_global_rotation_degrees ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "Global scale."] # [doc = ""] # [inline] pub fn set_global_scale (& self , scale : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_global_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Global [Transform2D]."] # [doc = ""] # [inline] pub fn set_global_transform (& self , xform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_global_transform ; let ret = crate :: icalls :: icallptr_void_trans2D (method_bind , self . this . sys () . as_ptr () , xform) ; } } # [doc = "Position, relative to the node's parent."] # [doc = ""] # [inline] pub fn set_position (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "Rotation in radians, relative to the node's parent."] # [doc = ""] # [inline] pub fn set_rotation (& self , radians : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_rotation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radians) ; } } # [doc = "Rotation in degrees, relative to the node's parent."] # [doc = ""] # [inline] pub fn set_rotation_degrees (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_rotation_degrees ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "The node's scale. Unscaled value: `(1, 1)`."] # [doc = ""] # [inline] pub fn set_scale (& self , scale : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Local [Transform2D]."] # [doc = ""] # [inline] pub fn set_transform (& self , xform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_transform ; let ret = crate :: icalls :: icallptr_void_trans2D (method_bind , self . this . sys () . as_ptr () , xform) ; } } # [doc = "If `true`, the node's Z index is relative to its parent's Z index. If this node's Z index is 2 and its parent's effective Z index is 3, then this node's effective Z index will be 2 + 3 = 5."] # [doc = ""] # [inline] pub fn set_z_as_relative (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_z_as_relative ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Z index. Controls the order in which the nodes render. A node with a higher Z index will display in front of others."] # [doc = ""] # [inline] pub fn set_z_index (& self , z_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . set_z_index ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , z_index) ; } } # [doc = "Transforms the provided local position into a position in global coordinate space. The input is expected to be local relative to the [Node2D] it is called on. e.g. Applying this method to the positions of child nodes will correctly transform their positions into the global coordinate space, but applying it to a node's own position will give an incorrect result, as it will incorporate the node's own transformation into its global position."] # [doc = ""] # [inline] pub fn to_global (& self , local_point : Vector2) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . to_global ; let ret = crate :: icalls :: icallptr_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , local_point) ; mem :: transmute (ret) } } # [doc = "Transforms the provided global position into a position in local coordinate space. The output will be local relative to the [Node2D] it is called on. e.g. It is appropriate for determining the positions of child nodes, but it is not appropriate for determining its own position relative to its parent."] # [doc = ""] # [inline] pub fn to_local (& self , global_point : Vector2) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . to_local ; let ret = crate :: icalls :: icallptr_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , global_point) ; mem :: transmute (ret) } } # [doc = "Translates the node by the given `offset` in local coordinates."] # [doc = ""] # [inline] pub fn translate (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Node2DMethodTable :: get (get_api ()) . translate ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Node2D { } unsafe impl GodotObject for Node2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Node2D" } } impl QueueFree for Node2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Node2D { type Target = crate :: generated :: canvas_item :: CanvasItem ; # [inline] fn deref (& self) -> & crate :: generated :: canvas_item :: CanvasItem { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Node2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: canvas_item :: CanvasItem { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Node2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Node2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Node2D { } impl Instanciable for Node2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Node2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Node2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub apply_scale : * mut sys :: godot_method_bind , pub get_angle_to : * mut sys :: godot_method_bind , pub get_global_position : * mut sys :: godot_method_bind , pub get_global_rotation : * mut sys :: godot_method_bind , pub get_global_rotation_degrees : * mut sys :: godot_method_bind , pub get_global_scale : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub get_relative_transform_to_parent : * mut sys :: godot_method_bind , pub get_rotation : * mut sys :: godot_method_bind , pub get_rotation_degrees : * mut sys :: godot_method_bind , pub get_scale : * mut sys :: godot_method_bind , pub get_z_index : * mut sys :: godot_method_bind , pub global_translate : * mut sys :: godot_method_bind , pub is_z_relative : * mut sys :: godot_method_bind , pub look_at : * mut sys :: godot_method_bind , pub move_local_x : * mut sys :: godot_method_bind , pub move_local_y : * mut sys :: godot_method_bind , pub rotate : * mut sys :: godot_method_bind , pub set_global_position : * mut sys :: godot_method_bind , pub set_global_rotation : * mut sys :: godot_method_bind , pub set_global_rotation_degrees : * mut sys :: godot_method_bind , pub set_global_scale : * mut sys :: godot_method_bind , pub set_global_transform : * mut sys :: godot_method_bind , pub set_position : * mut sys :: godot_method_bind , pub set_rotation : * mut sys :: godot_method_bind , pub set_rotation_degrees : * mut sys :: godot_method_bind , pub set_scale : * mut sys :: godot_method_bind , pub set_transform : * mut sys :: godot_method_bind , pub set_z_as_relative : * mut sys :: godot_method_bind , pub set_z_index : * mut sys :: godot_method_bind , pub to_global : * mut sys :: godot_method_bind , pub to_local : * mut sys :: godot_method_bind , pub translate : * mut sys :: godot_method_bind } impl Node2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Node2DMethodTable = Node2DMethodTable { class_constructor : None , apply_scale : 0 as * mut sys :: godot_method_bind , get_angle_to : 0 as * mut sys :: godot_method_bind , get_global_position : 0 as * mut sys :: godot_method_bind , get_global_rotation : 0 as * mut sys :: godot_method_bind , get_global_rotation_degrees : 0 as * mut sys :: godot_method_bind , get_global_scale : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , get_relative_transform_to_parent : 0 as * mut sys :: godot_method_bind , get_rotation : 0 as * mut sys :: godot_method_bind , get_rotation_degrees : 0 as * mut sys :: godot_method_bind , get_scale : 0 as * mut sys :: godot_method_bind , get_z_index : 0 as * mut sys :: godot_method_bind , global_translate : 0 as * mut sys :: godot_method_bind , is_z_relative : 0 as * mut sys :: godot_method_bind , look_at : 0 as * mut sys :: godot_method_bind , move_local_x : 0 as * mut sys :: godot_method_bind , move_local_y : 0 as * mut sys :: godot_method_bind , rotate : 0 as * mut sys :: godot_method_bind , set_global_position : 0 as * mut sys :: godot_method_bind , set_global_rotation : 0 as * mut sys :: godot_method_bind , set_global_rotation_degrees : 0 as * mut sys :: godot_method_bind , set_global_scale : 0 as * mut sys :: godot_method_bind , set_global_transform : 0 as * mut sys :: godot_method_bind , set_position : 0 as * mut sys :: godot_method_bind , set_rotation : 0 as * mut sys :: godot_method_bind , set_rotation_degrees : 0 as * mut sys :: godot_method_bind , set_scale : 0 as * mut sys :: godot_method_bind , set_transform : 0 as * mut sys :: godot_method_bind , set_z_as_relative : 0 as * mut sys :: godot_method_bind , set_z_index : 0 as * mut sys :: godot_method_bind , to_global : 0 as * mut sys :: godot_method_bind , to_local : 0 as * mut sys :: godot_method_bind , translate : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Node2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Node2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . apply_scale = (gd_api . godot_method_bind_get_method) (class_name , "apply_scale\0" . as_ptr () as * const c_char) ; table . get_angle_to = (gd_api . godot_method_bind_get_method) (class_name , "get_angle_to\0" . as_ptr () as * const c_char) ; table . get_global_position = (gd_api . godot_method_bind_get_method) (class_name , "get_global_position\0" . as_ptr () as * const c_char) ; table . get_global_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_global_rotation\0" . as_ptr () as * const c_char) ; table . get_global_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_global_rotation_degrees\0" . as_ptr () as * const c_char) ; table . get_global_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_global_scale\0" . as_ptr () as * const c_char) ; table . get_position = (gd_api . godot_method_bind_get_method) (class_name , "get_position\0" . as_ptr () as * const c_char) ; table . get_relative_transform_to_parent = (gd_api . godot_method_bind_get_method) (class_name , "get_relative_transform_to_parent\0" . as_ptr () as * const c_char) ; table . get_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_rotation\0" . as_ptr () as * const c_char) ; table . get_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_rotation_degrees\0" . as_ptr () as * const c_char) ; table . get_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_scale\0" . as_ptr () as * const c_char) ; table . get_z_index = (gd_api . godot_method_bind_get_method) (class_name , "get_z_index\0" . as_ptr () as * const c_char) ; table . global_translate = (gd_api . godot_method_bind_get_method) (class_name , "global_translate\0" . as_ptr () as * const c_char) ; table . is_z_relative = (gd_api . godot_method_bind_get_method) (class_name , "is_z_relative\0" . as_ptr () as * const c_char) ; table . look_at = (gd_api . godot_method_bind_get_method) (class_name , "look_at\0" . as_ptr () as * const c_char) ; table . move_local_x = (gd_api . godot_method_bind_get_method) (class_name , "move_local_x\0" . as_ptr () as * const c_char) ; table . move_local_y = (gd_api . godot_method_bind_get_method) (class_name , "move_local_y\0" . as_ptr () as * const c_char) ; table . rotate = (gd_api . godot_method_bind_get_method) (class_name , "rotate\0" . as_ptr () as * const c_char) ; table . set_global_position = (gd_api . godot_method_bind_get_method) (class_name , "set_global_position\0" . as_ptr () as * const c_char) ; table . set_global_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_global_rotation\0" . as_ptr () as * const c_char) ; table . set_global_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_global_rotation_degrees\0" . as_ptr () as * const c_char) ; table . set_global_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_global_scale\0" . as_ptr () as * const c_char) ; table . set_global_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_global_transform\0" . as_ptr () as * const c_char) ; table . set_position = (gd_api . godot_method_bind_get_method) (class_name , "set_position\0" . as_ptr () as * const c_char) ; table . set_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_rotation\0" . as_ptr () as * const c_char) ; table . set_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_rotation_degrees\0" . as_ptr () as * const c_char) ; table . set_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_scale\0" . as_ptr () as * const c_char) ; table . set_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_transform\0" . as_ptr () as * const c_char) ; table . set_z_as_relative = (gd_api . godot_method_bind_get_method) (class_name , "set_z_as_relative\0" . as_ptr () as * const c_char) ; table . set_z_index = (gd_api . godot_method_bind_get_method) (class_name , "set_z_index\0" . as_ptr () as * const c_char) ; table . to_global = (gd_api . godot_method_bind_get_method) (class_name , "to_global\0" . as_ptr () as * const c_char) ; table . to_local = (gd_api . godot_method_bind_get_method) (class_name , "to_local\0" . as_ptr () as * const c_char) ; table . translate = (gd_api . godot_method_bind_get_method) (class_name , "translate\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:418:10056 [INFO] [stdout] | [INFO] [stdout] 418 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 418 | # [doc = "`core class AspectRatioContainer` inherits `Container` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_aspectratiocontainer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`AspectRatioContainer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nAspectRatioContainer inherits methods from:\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AspectRatioContainer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AlignMode (pub i64) ; impl AlignMode { pub const BEGIN : AlignMode = AlignMode (0i64) ; pub const CENTER : AlignMode = AlignMode (1i64) ; pub const END : AlignMode = AlignMode (2i64) ; } impl From < i64 > for AlignMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AlignMode > for i64 { # [inline] fn from (v : AlignMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct StretchMode (pub i64) ; impl StretchMode { pub const WIDTH_CONTROLS_HEIGHT : StretchMode = StretchMode (0i64) ; pub const HEIGHT_CONTROLS_WIDTH : StretchMode = StretchMode (1i64) ; pub const FIT : StretchMode = StretchMode (2i64) ; pub const COVER : StretchMode = StretchMode (3i64) ; } impl From < i64 > for StretchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < StretchMode > for i64 { # [inline] fn from (v : StretchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AspectRatioContainer { pub const ALIGN_BEGIN : i64 = 0i64 ; pub const ALIGN_CENTER : i64 = 1i64 ; pub const ALIGN_END : i64 = 2i64 ; pub const STRETCH_COVER : i64 = 3i64 ; pub const STRETCH_FIT : i64 = 2i64 ; pub const STRETCH_HEIGHT_CONTROLS_WIDTH : i64 = 1i64 ; pub const STRETCH_WIDTH_CONTROLS_HEIGHT : i64 = 0i64 ; } impl AspectRatioContainer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AspectRatioContainerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn alignment_horizontal (& self) -> crate :: generated :: aspect_ratio_container :: AlignMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . get_alignment_horizontal ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: aspect_ratio_container :: AlignMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn alignment_vertical (& self) -> crate :: generated :: aspect_ratio_container :: AlignMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . get_alignment_vertical ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: aspect_ratio_container :: AlignMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . get_ratio ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn stretch_mode (& self) -> crate :: generated :: aspect_ratio_container :: StretchMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . get_stretch_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: aspect_ratio_container :: StretchMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_alignment_horizontal (& self , alignment_horizontal : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . set_alignment_horizontal ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , alignment_horizontal) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_alignment_vertical (& self , alignment_vertical : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . set_alignment_vertical ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , alignment_vertical) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_ratio (& self , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . set_ratio ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ratio) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_stretch_mode (& self , stretch_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AspectRatioContainerMethodTable :: get (get_api ()) . set_stretch_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , stretch_mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AspectRatioContainer { } unsafe impl GodotObject for AspectRatioContainer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "AspectRatioContainer" } } impl QueueFree for AspectRatioContainer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for AspectRatioContainer { type Target = crate :: generated :: container :: Container ; # [inline] fn deref (& self) -> & crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AspectRatioContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: container :: Container > for AspectRatioContainer { } unsafe impl SubClass < crate :: generated :: control :: Control > for AspectRatioContainer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for AspectRatioContainer { } unsafe impl SubClass < crate :: generated :: node :: Node > for AspectRatioContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for AspectRatioContainer { } impl Instanciable for AspectRatioContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AspectRatioContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AspectRatioContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_alignment_horizontal : * mut sys :: godot_method_bind , pub get_alignment_vertical : * mut sys :: godot_method_bind , pub get_ratio : * mut sys :: godot_method_bind , pub get_stretch_mode : * mut sys :: godot_method_bind , pub set_alignment_horizontal : * mut sys :: godot_method_bind , pub set_alignment_vertical : * mut sys :: godot_method_bind , pub set_ratio : * mut sys :: godot_method_bind , pub set_stretch_mode : * mut sys :: godot_method_bind } impl AspectRatioContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AspectRatioContainerMethodTable = AspectRatioContainerMethodTable { class_constructor : None , get_alignment_horizontal : 0 as * mut sys :: godot_method_bind , get_alignment_vertical : 0 as * mut sys :: godot_method_bind , get_ratio : 0 as * mut sys :: godot_method_bind , get_stretch_mode : 0 as * mut sys :: godot_method_bind , set_alignment_horizontal : 0 as * mut sys :: godot_method_bind , set_alignment_vertical : 0 as * mut sys :: godot_method_bind , set_ratio : 0 as * mut sys :: godot_method_bind , set_stretch_mode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AspectRatioContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AspectRatioContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_alignment_horizontal = (gd_api . godot_method_bind_get_method) (class_name , "get_alignment_horizontal\0" . as_ptr () as * const c_char) ; table . get_alignment_vertical = (gd_api . godot_method_bind_get_method) (class_name , "get_alignment_vertical\0" . as_ptr () as * const c_char) ; table . get_ratio = (gd_api . godot_method_bind_get_method) (class_name , "get_ratio\0" . as_ptr () as * const c_char) ; table . get_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_stretch_mode\0" . as_ptr () as * const c_char) ; table . set_alignment_horizontal = (gd_api . godot_method_bind_get_method) (class_name , "set_alignment_horizontal\0" . as_ptr () as * const c_char) ; table . set_alignment_vertical = (gd_api . godot_method_bind_get_method) (class_name , "set_alignment_vertical\0" . as_ptr () as * const c_char) ; table . set_ratio = (gd_api . godot_method_bind_get_method) (class_name , "set_ratio\0" . as_ptr () as * const c_char) ; table . set_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch_mode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:424:4604 [INFO] [stdout] | [INFO] [stdout] 424 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 424 | # [doc = "`core class VisualScriptVariableSet` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptvariableset.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptVariableSet inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptVariableSet { this : RawObject < Self > , } impl VisualScriptVariableSet { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptVariableSetMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn variable (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptVariableSetMethodTable :: get (get_api ()) . get_variable ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptVariableSetMethodTable :: get (get_api ()) . set_variable ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptVariableSet { } unsafe impl GodotObject for VisualScriptVariableSet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptVariableSet" } } impl std :: ops :: Deref for VisualScriptVariableSet { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptVariableSet { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptVariableSet { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptVariableSet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptVariableSet { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptVariableSet { } impl Instanciable for VisualScriptVariableSet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptVariableSet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptVariableSetMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_variable : * mut sys :: godot_method_bind , pub set_variable : * mut sys :: godot_method_bind } impl VisualScriptVariableSetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptVariableSetMethodTable = VisualScriptVariableSetMethodTable { class_constructor : None , get_variable : 0 as * mut sys :: godot_method_bind , set_variable : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptVariableSetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptVariableSet\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_variable = (gd_api . godot_method_bind_get_method) (class_name , "get_variable\0" . as_ptr () as * const c_char) ; table . set_variable = (gd_api . godot_method_bind_get_method) (class_name , "set_variable\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:430:11944 [INFO] [stdout] | [INFO] [stdout] 430 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 430 | # [doc = "`core class NinePatchRect` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_ninepatchrect.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`NinePatchRect` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nNinePatchRect inherits methods from:\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct NinePatchRect { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AxisStretchMode (pub i64) ; impl AxisStretchMode { pub const STRETCH : AxisStretchMode = AxisStretchMode (0i64) ; pub const TILE : AxisStretchMode = AxisStretchMode (1i64) ; pub const TILE_FIT : AxisStretchMode = AxisStretchMode (2i64) ; } impl From < i64 > for AxisStretchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AxisStretchMode > for i64 { # [inline] fn from (v : AxisStretchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl NinePatchRect { pub const AXIS_STRETCH_MODE_STRETCH : i64 = 0i64 ; pub const AXIS_STRETCH_MODE_TILE : i64 = 1i64 ; pub const AXIS_STRETCH_MODE_TILE_FIT : i64 = 2i64 ; } impl NinePatchRect { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = NinePatchRectMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Doesn't do anything at the time of writing."] # [doc = ""] # [inline] pub fn h_axis_stretch_mode (& self) -> crate :: generated :: nine_patch_rect :: AxisStretchMode { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . get_h_axis_stretch_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: nine_patch_rect :: AxisStretchMode (ret) } } # [doc = "The height of the 9-slice's top row."] # [doc = ""] # [inline] pub fn patch_margin (& self , margin : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . get_patch_margin ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "Rectangular region of the texture to sample from. If you're working with an atlas, use this property to define the area the 9-slice should use. All other properties are relative to this one. If the rect is empty, NinePatchRect will use the whole texture."] # [doc = ""] # [inline] pub fn region_rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . get_region_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The node's texture resource."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . get_texture ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Doesn't do anything at the time of writing."] # [doc = ""] # [inline] pub fn v_axis_stretch_mode (& self) -> crate :: generated :: nine_patch_rect :: AxisStretchMode { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . get_v_axis_stretch_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: nine_patch_rect :: AxisStretchMode (ret) } } # [doc = "If `true`, draw the panel's center. Else, only draw the 9-slice's borders."] # [doc = ""] # [inline] pub fn is_draw_center_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . is_draw_center_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, draw the panel's center. Else, only draw the 9-slice's borders."] # [doc = ""] # [inline] pub fn set_draw_center (& self , draw_center : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . set_draw_center ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , draw_center) ; } } # [doc = "Doesn't do anything at the time of writing."] # [doc = ""] # [inline] pub fn set_h_axis_stretch_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . set_h_axis_stretch_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The height of the 9-slice's top row."] # [doc = ""] # [inline] pub fn set_patch_margin (& self , margin : i64 , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . set_patch_margin ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin , value) ; } } # [doc = "Rectangular region of the texture to sample from. If you're working with an atlas, use this property to define the area the 9-slice should use. All other properties are relative to this one. If the rect is empty, NinePatchRect will use the whole texture."] # [doc = ""] # [inline] pub fn set_region_rect (& self , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . set_region_rect ; let ret = crate :: icalls :: icallptr_void_rect2 (method_bind , self . this . sys () . as_ptr () , rect) ; } } # [doc = "The node's texture resource."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "Doesn't do anything at the time of writing."] # [doc = ""] # [inline] pub fn set_v_axis_stretch_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NinePatchRectMethodTable :: get (get_api ()) . set_v_axis_stretch_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for NinePatchRect { } unsafe impl GodotObject for NinePatchRect { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "NinePatchRect" } } impl QueueFree for NinePatchRect { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for NinePatchRect { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for NinePatchRect { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for NinePatchRect { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for NinePatchRect { } unsafe impl SubClass < crate :: generated :: node :: Node > for NinePatchRect { } unsafe impl SubClass < crate :: generated :: object :: Object > for NinePatchRect { } impl Instanciable for NinePatchRect { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { NinePatchRect :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct NinePatchRectMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_h_axis_stretch_mode : * mut sys :: godot_method_bind , pub get_patch_margin : * mut sys :: godot_method_bind , pub get_region_rect : * mut sys :: godot_method_bind , pub get_texture : * mut sys :: godot_method_bind , pub get_v_axis_stretch_mode : * mut sys :: godot_method_bind , pub is_draw_center_enabled : * mut sys :: godot_method_bind , pub set_draw_center : * mut sys :: godot_method_bind , pub set_h_axis_stretch_mode : * mut sys :: godot_method_bind , pub set_patch_margin : * mut sys :: godot_method_bind , pub set_region_rect : * mut sys :: godot_method_bind , pub set_texture : * mut sys :: godot_method_bind , pub set_v_axis_stretch_mode : * mut sys :: godot_method_bind } impl NinePatchRectMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : NinePatchRectMethodTable = NinePatchRectMethodTable { class_constructor : None , get_h_axis_stretch_mode : 0 as * mut sys :: godot_method_bind , get_patch_margin : 0 as * mut sys :: godot_method_bind , get_region_rect : 0 as * mut sys :: godot_method_bind , get_texture : 0 as * mut sys :: godot_method_bind , get_v_axis_stretch_mode : 0 as * mut sys :: godot_method_bind , is_draw_center_enabled : 0 as * mut sys :: godot_method_bind , set_draw_center : 0 as * mut sys :: godot_method_bind , set_h_axis_stretch_mode : 0 as * mut sys :: godot_method_bind , set_patch_margin : 0 as * mut sys :: godot_method_bind , set_region_rect : 0 as * mut sys :: godot_method_bind , set_texture : 0 as * mut sys :: godot_method_bind , set_v_axis_stretch_mode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { NinePatchRectMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "NinePatchRect\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_h_axis_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_h_axis_stretch_mode\0" . as_ptr () as * const c_char) ; table . get_patch_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_patch_margin\0" . as_ptr () as * const c_char) ; table . get_region_rect = (gd_api . godot_method_bind_get_method) (class_name , "get_region_rect\0" . as_ptr () as * const c_char) ; table . get_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_texture\0" . as_ptr () as * const c_char) ; table . get_v_axis_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_v_axis_stretch_mode\0" . as_ptr () as * const c_char) ; table . is_draw_center_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_draw_center_enabled\0" . as_ptr () as * const c_char) ; table . set_draw_center = (gd_api . godot_method_bind_get_method) (class_name , "set_draw_center\0" . as_ptr () as * const c_char) ; table . set_h_axis_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_h_axis_stretch_mode\0" . as_ptr () as * const c_char) ; table . set_patch_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_patch_margin\0" . as_ptr () as * const c_char) ; table . set_region_rect = (gd_api . godot_method_bind_get_method) (class_name , "set_region_rect\0" . as_ptr () as * const c_char) ; table . set_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_texture\0" . as_ptr () as * const c_char) ; table . set_v_axis_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_v_axis_stretch_mode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:436:10159 [INFO] [stdout] | [INFO] [stdout] 436 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 436 | # [doc = "`core class RemoteTransform` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_remotetransform.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RemoteTransform` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRemoteTransform inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RemoteTransform { this : RawObject < Self > , } impl RemoteTransform { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RemoteTransformMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "[RemoteTransform] caches the remote node. It may not notice if the remote node disappears; [method force_update_cache] forces it to update the cache again."] # [doc = ""] # [inline] pub fn force_update_cache (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . force_update_cache ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The [NodePath] to the remote node, relative to the RemoteTransform's position in the scene."] # [doc = ""] # [inline] pub fn remote_node (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . get_remote_node ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "If `true`, the remote node's position is updated."] # [doc = ""] # [inline] pub fn update_position (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . get_update_position ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the remote node's rotation is updated."] # [doc = ""] # [inline] pub fn update_rotation (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . get_update_rotation ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the remote node's scale is updated."] # [doc = ""] # [inline] pub fn update_scale (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . get_update_scale ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, global coordinates are used. If `false`, local coordinates are used."] # [doc = ""] # [inline] pub fn use_global_coordinates (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . get_use_global_coordinates ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [NodePath] to the remote node, relative to the RemoteTransform's position in the scene."] # [doc = ""] # [inline] pub fn set_remote_node (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . set_remote_node ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "If `true`, the remote node's position is updated."] # [doc = ""] # [inline] pub fn set_update_position (& self , update_remote_position : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . set_update_position ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_position) ; } } # [doc = "If `true`, the remote node's rotation is updated."] # [doc = ""] # [inline] pub fn set_update_rotation (& self , update_remote_rotation : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . set_update_rotation ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_rotation) ; } } # [doc = "If `true`, the remote node's scale is updated."] # [doc = ""] # [inline] pub fn set_update_scale (& self , update_remote_scale : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . set_update_scale ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_scale) ; } } # [doc = "If `true`, global coordinates are used. If `false`, local coordinates are used."] # [doc = ""] # [inline] pub fn set_use_global_coordinates (& self , use_global_coordinates : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransformMethodTable :: get (get_api ()) . set_use_global_coordinates ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , use_global_coordinates) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RemoteTransform { } unsafe impl GodotObject for RemoteTransform { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RemoteTransform" } } impl QueueFree for RemoteTransform { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RemoteTransform { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RemoteTransform { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for RemoteTransform { } unsafe impl SubClass < crate :: generated :: node :: Node > for RemoteTransform { } unsafe impl SubClass < crate :: generated :: object :: Object > for RemoteTransform { } impl Instanciable for RemoteTransform { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RemoteTransform :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RemoteTransformMethodTable { pub class_constructor : sys :: godot_class_constructor , pub force_update_cache : * mut sys :: godot_method_bind , pub get_remote_node : * mut sys :: godot_method_bind , pub get_update_position : * mut sys :: godot_method_bind , pub get_update_rotation : * mut sys :: godot_method_bind , pub get_update_scale : * mut sys :: godot_method_bind , pub get_use_global_coordinates : * mut sys :: godot_method_bind , pub set_remote_node : * mut sys :: godot_method_bind , pub set_update_position : * mut sys :: godot_method_bind , pub set_update_rotation : * mut sys :: godot_method_bind , pub set_update_scale : * mut sys :: godot_method_bind , pub set_use_global_coordinates : * mut sys :: godot_method_bind } impl RemoteTransformMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RemoteTransformMethodTable = RemoteTransformMethodTable { class_constructor : None , force_update_cache : 0 as * mut sys :: godot_method_bind , get_remote_node : 0 as * mut sys :: godot_method_bind , get_update_position : 0 as * mut sys :: godot_method_bind , get_update_rotation : 0 as * mut sys :: godot_method_bind , get_update_scale : 0 as * mut sys :: godot_method_bind , get_use_global_coordinates : 0 as * mut sys :: godot_method_bind , set_remote_node : 0 as * mut sys :: godot_method_bind , set_update_position : 0 as * mut sys :: godot_method_bind , set_update_rotation : 0 as * mut sys :: godot_method_bind , set_update_scale : 0 as * mut sys :: godot_method_bind , set_use_global_coordinates : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RemoteTransformMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RemoteTransform\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . force_update_cache = (gd_api . godot_method_bind_get_method) (class_name , "force_update_cache\0" . as_ptr () as * const c_char) ; table . get_remote_node = (gd_api . godot_method_bind_get_method) (class_name , "get_remote_node\0" . as_ptr () as * const c_char) ; table . get_update_position = (gd_api . godot_method_bind_get_method) (class_name , "get_update_position\0" . as_ptr () as * const c_char) ; table . get_update_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_update_rotation\0" . as_ptr () as * const c_char) ; table . get_update_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_update_scale\0" . as_ptr () as * const c_char) ; table . get_use_global_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "get_use_global_coordinates\0" . as_ptr () as * const c_char) ; table . set_remote_node = (gd_api . godot_method_bind_get_method) (class_name , "set_remote_node\0" . as_ptr () as * const c_char) ; table . set_update_position = (gd_api . godot_method_bind_get_method) (class_name , "set_update_position\0" . as_ptr () as * const c_char) ; table . set_update_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_update_rotation\0" . as_ptr () as * const c_char) ; table . set_update_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_update_scale\0" . as_ptr () as * const c_char) ; table . set_use_global_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "set_use_global_coordinates\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:442:12074 [INFO] [stdout] | [INFO] [stdout] 442 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 442 | # [doc = "`core class AnimationNodeStateMachineTransition` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodestatemachinetransition.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeStateMachineTransition inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AnimationNodeStateMachineTransition { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SwitchMode (pub i64) ; impl SwitchMode { pub const IMMEDIATE : SwitchMode = SwitchMode (0i64) ; pub const SYNC : SwitchMode = SwitchMode (1i64) ; pub const AT_END : SwitchMode = SwitchMode (2i64) ; } impl From < i64 > for SwitchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SwitchMode > for i64 { # [inline] fn from (v : SwitchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationNodeStateMachineTransition { pub const SWITCH_MODE_AT_END : i64 = 2i64 ; pub const SWITCH_MODE_IMMEDIATE : i64 = 0i64 ; pub const SWITCH_MODE_SYNC : i64 = 1i64 ; } impl AnimationNodeStateMachineTransition { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AnimationNodeStateMachineTransitionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nTurn on auto advance when this condition is set. The provided name will become a boolean parameter on the [AnimationTree] that can be controlled from code (see [url=https://docs.godotengine.org/en/latest/tutorials/animation/animation_tree.html#controlling-from-code][/url]). For example, if [member AnimationTree.tree_root] is an [AnimationNodeStateMachine] and [member advance_condition] is set to `\"idle\"`:\n```gdscript\n$animation_tree[\"parameters/conditions/idle\"] = is_on_floor and (linear_velocity.x == 0)\n```"] # [doc = ""] # [inline] pub fn advance_condition (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_advance_condition ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Lower priority transitions are preferred when travelling through the tree via [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn priority (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_priority ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The transition type."] # [doc = ""] # [inline] pub fn switch_mode (& self) -> crate :: generated :: animation_node_state_machine_transition :: SwitchMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_switch_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: animation_node_state_machine_transition :: SwitchMode (ret) } } # [doc = "The time to cross-fade between this state and the next."] # [doc = ""] # [inline] pub fn xfade_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_xfade_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Turn on the transition automatically when this state is reached. This works best with [constant SWITCH_MODE_AT_END]."] # [doc = ""] # [inline] pub fn has_auto_advance (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . has_auto_advance ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Don't use this transition during [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn is_disabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . is_disabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nTurn on auto advance when this condition is set. The provided name will become a boolean parameter on the [AnimationTree] that can be controlled from code (see [url=https://docs.godotengine.org/en/latest/tutorials/animation/animation_tree.html#controlling-from-code][/url]). For example, if [member AnimationTree.tree_root] is an [AnimationNodeStateMachine] and [member advance_condition] is set to `\"idle\"`:\n```gdscript\n$animation_tree[\"parameters/conditions/idle\"] = is_on_floor and (linear_velocity.x == 0)\n```"] # [doc = ""] # [inline] pub fn set_advance_condition (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_advance_condition ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Turn on the transition automatically when this state is reached. This works best with [constant SWITCH_MODE_AT_END]."] # [doc = ""] # [inline] pub fn set_auto_advance (& self , auto_advance : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_auto_advance ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , auto_advance) ; } } # [doc = "Don't use this transition during [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn set_disabled (& self , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_disabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , disabled) ; } } # [doc = "Lower priority transitions are preferred when travelling through the tree via [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn set_priority (& self , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_priority ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , priority) ; } } # [doc = "The transition type."] # [doc = ""] # [inline] pub fn set_switch_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_switch_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The time to cross-fade between this state and the next."] # [doc = ""] # [inline] pub fn set_xfade_time (& self , secs : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_xfade_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , secs) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeStateMachineTransition { } unsafe impl GodotObject for AnimationNodeStateMachineTransition { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeStateMachineTransition" } } impl std :: ops :: Deref for AnimationNodeStateMachineTransition { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationNodeStateMachineTransition { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeStateMachineTransition { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeStateMachineTransition { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeStateMachineTransition { } impl Instanciable for AnimationNodeStateMachineTransition { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeStateMachineTransition :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeStateMachineTransitionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_advance_condition : * mut sys :: godot_method_bind , pub get_priority : * mut sys :: godot_method_bind , pub get_switch_mode : * mut sys :: godot_method_bind , pub get_xfade_time : * mut sys :: godot_method_bind , pub has_auto_advance : * mut sys :: godot_method_bind , pub is_disabled : * mut sys :: godot_method_bind , pub set_advance_condition : * mut sys :: godot_method_bind , pub set_auto_advance : * mut sys :: godot_method_bind , pub set_disabled : * mut sys :: godot_method_bind , pub set_priority : * mut sys :: godot_method_bind , pub set_switch_mode : * mut sys :: godot_method_bind , pub set_xfade_time : * mut sys :: godot_method_bind } impl AnimationNodeStateMachineTransitionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeStateMachineTransitionMethodTable = AnimationNodeStateMachineTransitionMethodTable { class_constructor : None , get_advance_condition : 0 as * mut sys :: godot_method_bind , get_priority : 0 as * mut sys :: godot_method_bind , get_switch_mode : 0 as * mut sys :: godot_method_bind , get_xfade_time : 0 as * mut sys :: godot_method_bind , has_auto_advance : 0 as * mut sys :: godot_method_bind , is_disabled : 0 as * mut sys :: godot_method_bind , set_advance_condition : 0 as * mut sys :: godot_method_bind , set_auto_advance : 0 as * mut sys :: godot_method_bind , set_disabled : 0 as * mut sys :: godot_method_bind , set_priority : 0 as * mut sys :: godot_method_bind , set_switch_mode : 0 as * mut sys :: godot_method_bind , set_xfade_time : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeStateMachineTransitionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeStateMachineTransition\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_advance_condition = (gd_api . godot_method_bind_get_method) (class_name , "get_advance_condition\0" . as_ptr () as * const c_char) ; table . get_priority = (gd_api . godot_method_bind_get_method) (class_name , "get_priority\0" . as_ptr () as * const c_char) ; table . get_switch_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_switch_mode\0" . as_ptr () as * const c_char) ; table . get_xfade_time = (gd_api . godot_method_bind_get_method) (class_name , "get_xfade_time\0" . as_ptr () as * const c_char) ; table . has_auto_advance = (gd_api . godot_method_bind_get_method) (class_name , "has_auto_advance\0" . as_ptr () as * const c_char) ; table . is_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_disabled\0" . as_ptr () as * const c_char) ; table . set_advance_condition = (gd_api . godot_method_bind_get_method) (class_name , "set_advance_condition\0" . as_ptr () as * const c_char) ; table . set_auto_advance = (gd_api . godot_method_bind_get_method) (class_name , "set_auto_advance\0" . as_ptr () as * const c_char) ; table . set_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_disabled\0" . as_ptr () as * const c_char) ; table . set_priority = (gd_api . godot_method_bind_get_method) (class_name , "set_priority\0" . as_ptr () as * const c_char) ; table . set_switch_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_switch_mode\0" . as_ptr () as * const c_char) ; table . set_xfade_time = (gd_api . godot_method_bind_get_method) (class_name , "set_xfade_time\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:448:3805 [INFO] [stdout] | [INFO] [stdout] 448 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 448 | # [doc = "`core class VisualShaderNodeScalarInterp` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodescalarinterp.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeScalarInterp inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarInterp { this : RawObject < Self > , } impl VisualShaderNodeScalarInterp { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeScalarInterpMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeScalarInterp { } unsafe impl GodotObject for VisualShaderNodeScalarInterp { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeScalarInterp" } } impl std :: ops :: Deref for VisualShaderNodeScalarInterp { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeScalarInterp { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeScalarInterp { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeScalarInterp { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeScalarInterp { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeScalarInterp { } impl Instanciable for VisualShaderNodeScalarInterp { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeScalarInterp :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeScalarInterpMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeScalarInterpMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeScalarInterpMethodTable = VisualShaderNodeScalarInterpMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeScalarInterpMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeScalarInterp\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:454:4743 [INFO] [stdout] | [INFO] [stdout] 454 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 454 | # [doc = "`core class VisualScriptPreload` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptpreload.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptPreload inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptPreload { this : RawObject < Self > , } impl VisualScriptPreload { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptPreloadMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn preload (& self) -> Option < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPreloadMethodTable :: get (get_api ()) . get_preload ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_preload (& self , resource : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPreloadMethodTable :: get (get_api ()) . set_preload ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , resource . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptPreload { } unsafe impl GodotObject for VisualScriptPreload { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptPreload" } } impl std :: ops :: Deref for VisualScriptPreload { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptPreload { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptPreload { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptPreload { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptPreload { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptPreload { } impl Instanciable for VisualScriptPreload { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptPreload :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptPreloadMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_preload : * mut sys :: godot_method_bind , pub set_preload : * mut sys :: godot_method_bind } impl VisualScriptPreloadMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptPreloadMethodTable = VisualScriptPreloadMethodTable { class_constructor : None , get_preload : 0 as * mut sys :: godot_method_bind , set_preload : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptPreloadMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptPreload\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_preload = (gd_api . godot_method_bind_get_method) (class_name , "get_preload\0" . as_ptr () as * const c_char) ; table . set_preload = (gd_api . godot_method_bind_get_method) (class_name , "set_preload\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:460:22273 [INFO] [stdout] | [INFO] [stdout] 460 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 460 | # [doc = "`core class GraphNode` inherits `Container` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_graphnode.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`GraphNode` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nGraphNode inherits methods from:\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct GraphNode { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Overlay (pub i64) ; impl Overlay { pub const DISABLED : Overlay = Overlay (0i64) ; pub const BREAKPOINT : Overlay = Overlay (1i64) ; pub const POSITION : Overlay = Overlay (2i64) ; } impl From < i64 > for Overlay { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Overlay > for i64 { # [inline] fn from (v : Overlay) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl GraphNode { pub const OVERLAY_BREAKPOINT : i64 = 1i64 ; pub const OVERLAY_DISABLED : i64 = 0i64 ; pub const OVERLAY_POSITION : i64 = 2i64 ; } impl GraphNode { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = GraphNodeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Disables all input and output slots of the GraphNode."] # [doc = ""] # [inline] pub fn clear_all_slots (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . clear_all_slots ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Disables input and output slot whose index is `idx`."] # [doc = ""] # [inline] pub fn clear_slot (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . clear_slot ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Returns the color of the input connection `idx`."] # [doc = ""] # [inline] pub fn get_connection_input_color (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_input_color ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the number of enabled input slots (connections) to the GraphNode."] # [doc = ""] # [inline] pub fn get_connection_input_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_input_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the position of the input connection `idx`."] # [doc = ""] # [inline] pub fn get_connection_input_position (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_input_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the type of the input connection `idx`."] # [doc = ""] # [inline] pub fn get_connection_input_type (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_input_type ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the color of the output connection `idx`."] # [doc = ""] # [inline] pub fn get_connection_output_color (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_output_color ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the number of enabled output slots (connections) of the GraphNode."] # [doc = ""] # [inline] pub fn get_connection_output_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_output_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the position of the output connection `idx`."] # [doc = ""] # [inline] pub fn get_connection_output_position (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_output_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the type of the output connection `idx`."] # [doc = ""] # [inline] pub fn get_connection_output_type (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_connection_output_type ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "The offset of the GraphNode, relative to the scroll offset of the [GraphEdit].\n**Note:** You cannot use position directly, as [GraphEdit] is a [Container]."] # [doc = ""] # [inline] pub fn offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Sets the overlay shown above the GraphNode. See [enum Overlay]."] # [doc = ""] # [inline] pub fn overlay (& self) -> crate :: generated :: graph_node :: Overlay { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_overlay ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: graph_node :: Overlay (ret) } } # [doc = "Returns the color set to `idx` left (input) slot."] # [doc = ""] # [inline] pub fn get_slot_color_left (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_slot_color_left ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the color set to `idx` right (output) slot."] # [doc = ""] # [inline] pub fn get_slot_color_right (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_slot_color_right ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the (integer) type of left (input) `idx` slot."] # [doc = ""] # [inline] pub fn get_slot_type_left (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_slot_type_left ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the (integer) type of right (output) `idx` slot."] # [doc = ""] # [inline] pub fn get_slot_type_right (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_slot_type_right ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "The text displayed in the GraphNode's title bar."] # [doc = ""] # [inline] pub fn title (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . get_title ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "If `true`, the close button will be visible.\n**Note:** Pressing it will only emit the [signal close_request] signal, the GraphNode needs to be removed manually."] # [doc = ""] # [inline] pub fn is_close_button_visible (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . is_close_button_visible ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the GraphNode is a comment node."] # [doc = ""] # [inline] pub fn is_comment (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . is_comment ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the user can resize the GraphNode.\n**Note:** Dragging the handle will only emit the [signal resize_request] signal, the GraphNode needs to be resized manually."] # [doc = ""] # [inline] pub fn is_resizable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . is_resizable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the GraphNode is selected."] # [doc = ""] # [inline] pub fn is_selected (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . is_selected ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if left (input) slot `idx` is enabled, `false` otherwise."] # [doc = ""] # [inline] pub fn is_slot_enabled_left (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . is_slot_enabled_left ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if right (output) slot `idx` is enabled, `false` otherwise."] # [doc = ""] # [inline] pub fn is_slot_enabled_right (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . is_slot_enabled_right ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "If `true`, the GraphNode is a comment node."] # [doc = ""] # [inline] pub fn set_comment (& self , comment : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_comment ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , comment) ; } } # [doc = "The offset of the GraphNode, relative to the scroll offset of the [GraphEdit].\n**Note:** You cannot use position directly, as [GraphEdit] is a [Container]."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Sets the overlay shown above the GraphNode. See [enum Overlay]."] # [doc = ""] # [inline] pub fn set_overlay (& self , overlay : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_overlay ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , overlay) ; } } # [doc = "If `true`, the user can resize the GraphNode.\n**Note:** Dragging the handle will only emit the [signal resize_request] signal, the GraphNode needs to be resized manually."] # [doc = ""] # [inline] pub fn set_resizable (& self , resizable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_resizable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , resizable) ; } } # [doc = "If `true`, the GraphNode is selected."] # [doc = ""] # [inline] pub fn set_selected (& self , selected : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_selected ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , selected) ; } } # [doc = "If `true`, the close button will be visible.\n**Note:** Pressing it will only emit the [signal close_request] signal, the GraphNode needs to be removed manually."] # [doc = ""] # [inline] pub fn set_show_close_button (& self , show : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_show_close_button ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , show) ; } } # [doc = "Sets properties of the slot with ID `idx`.\nIf `enable_left`/`right`, a port will appear and the slot will be able to be connected from this side.\n`type_left`/`right` is an arbitrary type of the port. Only ports with the same type values can be connected.\n`color_left`/`right` is the tint of the port's icon on this side.\n`custom_left`/`right` is a custom texture for this side's port.\n**Note:** This method only sets properties of the slot. To create the slot, add a [Control]-derived child to the GraphNode.\n# Default Arguments\n* `custom_left` - `null`\n* `custom_right` - `null`"] # [doc = ""] # [inline] pub fn set_slot (& self , idx : i64 , enable_left : bool , type_left : i64 , color_left : Color , enable_right : bool , type_right : i64 , color_right : Color , custom_left : impl AsArg < crate :: generated :: texture :: Texture > , custom_right : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_slot ; let ret = crate :: icalls :: icallptr_void_i64_bool_i64_color_bool_i64_color_obj_obj (method_bind , self . this . sys () . as_ptr () , idx , enable_left , type_left , color_left , enable_right , type_right , color_right , custom_left . as_arg_ptr () , custom_right . as_arg_ptr ()) ; } } # [doc = "The text displayed in the GraphNode's title bar."] # [doc = ""] # [inline] pub fn set_title (& self , title : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GraphNodeMethodTable :: get (get_api ()) . set_title ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , title . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for GraphNode { } unsafe impl GodotObject for GraphNode { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "GraphNode" } } impl QueueFree for GraphNode { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for GraphNode { type Target = crate :: generated :: container :: Container ; # [inline] fn deref (& self) -> & crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GraphNode { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: container :: Container > for GraphNode { } unsafe impl SubClass < crate :: generated :: control :: Control > for GraphNode { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for GraphNode { } unsafe impl SubClass < crate :: generated :: node :: Node > for GraphNode { } unsafe impl SubClass < crate :: generated :: object :: Object > for GraphNode { } impl Instanciable for GraphNode { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GraphNode :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GraphNodeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub clear_all_slots : * mut sys :: godot_method_bind , pub clear_slot : * mut sys :: godot_method_bind , pub get_connection_input_color : * mut sys :: godot_method_bind , pub get_connection_input_count : * mut sys :: godot_method_bind , pub get_connection_input_position : * mut sys :: godot_method_bind , pub get_connection_input_type : * mut sys :: godot_method_bind , pub get_connection_output_color : * mut sys :: godot_method_bind , pub get_connection_output_count : * mut sys :: godot_method_bind , pub get_connection_output_position : * mut sys :: godot_method_bind , pub get_connection_output_type : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_overlay : * mut sys :: godot_method_bind , pub get_slot_color_left : * mut sys :: godot_method_bind , pub get_slot_color_right : * mut sys :: godot_method_bind , pub get_slot_type_left : * mut sys :: godot_method_bind , pub get_slot_type_right : * mut sys :: godot_method_bind , pub get_title : * mut sys :: godot_method_bind , pub is_close_button_visible : * mut sys :: godot_method_bind , pub is_comment : * mut sys :: godot_method_bind , pub is_resizable : * mut sys :: godot_method_bind , pub is_selected : * mut sys :: godot_method_bind , pub is_slot_enabled_left : * mut sys :: godot_method_bind , pub is_slot_enabled_right : * mut sys :: godot_method_bind , pub set_comment : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_overlay : * mut sys :: godot_method_bind , pub set_resizable : * mut sys :: godot_method_bind , pub set_selected : * mut sys :: godot_method_bind , pub set_show_close_button : * mut sys :: godot_method_bind , pub set_slot : * mut sys :: godot_method_bind , pub set_title : * mut sys :: godot_method_bind } impl GraphNodeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GraphNodeMethodTable = GraphNodeMethodTable { class_constructor : None , clear_all_slots : 0 as * mut sys :: godot_method_bind , clear_slot : 0 as * mut sys :: godot_method_bind , get_connection_input_color : 0 as * mut sys :: godot_method_bind , get_connection_input_count : 0 as * mut sys :: godot_method_bind , get_connection_input_position : 0 as * mut sys :: godot_method_bind , get_connection_input_type : 0 as * mut sys :: godot_method_bind , get_connection_output_color : 0 as * mut sys :: godot_method_bind , get_connection_output_count : 0 as * mut sys :: godot_method_bind , get_connection_output_position : 0 as * mut sys :: godot_method_bind , get_connection_output_type : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_overlay : 0 as * mut sys :: godot_method_bind , get_slot_color_left : 0 as * mut sys :: godot_method_bind , get_slot_color_right : 0 as * mut sys :: godot_method_bind , get_slot_type_left : 0 as * mut sys :: godot_method_bind , get_slot_type_right : 0 as * mut sys :: godot_method_bind , get_title : 0 as * mut sys :: godot_method_bind , is_close_button_visible : 0 as * mut sys :: godot_method_bind , is_comment : 0 as * mut sys :: godot_method_bind , is_resizable : 0 as * mut sys :: godot_method_bind , is_selected : 0 as * mut sys :: godot_method_bind , is_slot_enabled_left : 0 as * mut sys :: godot_method_bind , is_slot_enabled_right : 0 as * mut sys :: godot_method_bind , set_comment : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_overlay : 0 as * mut sys :: godot_method_bind , set_resizable : 0 as * mut sys :: godot_method_bind , set_selected : 0 as * mut sys :: godot_method_bind , set_show_close_button : 0 as * mut sys :: godot_method_bind , set_slot : 0 as * mut sys :: godot_method_bind , set_title : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { GraphNodeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GraphNode\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . clear_all_slots = (gd_api . godot_method_bind_get_method) (class_name , "clear_all_slots\0" . as_ptr () as * const c_char) ; table . clear_slot = (gd_api . godot_method_bind_get_method) (class_name , "clear_slot\0" . as_ptr () as * const c_char) ; table . get_connection_input_color = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_input_color\0" . as_ptr () as * const c_char) ; table . get_connection_input_count = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_input_count\0" . as_ptr () as * const c_char) ; table . get_connection_input_position = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_input_position\0" . as_ptr () as * const c_char) ; table . get_connection_input_type = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_input_type\0" . as_ptr () as * const c_char) ; table . get_connection_output_color = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_output_color\0" . as_ptr () as * const c_char) ; table . get_connection_output_count = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_output_count\0" . as_ptr () as * const c_char) ; table . get_connection_output_position = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_output_position\0" . as_ptr () as * const c_char) ; table . get_connection_output_type = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_output_type\0" . as_ptr () as * const c_char) ; table . get_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_offset\0" . as_ptr () as * const c_char) ; table . get_overlay = (gd_api . godot_method_bind_get_method) (class_name , "get_overlay\0" . as_ptr () as * const c_char) ; table . get_slot_color_left = (gd_api . godot_method_bind_get_method) (class_name , "get_slot_color_left\0" . as_ptr () as * const c_char) ; table . get_slot_color_right = (gd_api . godot_method_bind_get_method) (class_name , "get_slot_color_right\0" . as_ptr () as * const c_char) ; table . get_slot_type_left = (gd_api . godot_method_bind_get_method) (class_name , "get_slot_type_left\0" . as_ptr () as * const c_char) ; table . get_slot_type_right = (gd_api . godot_method_bind_get_method) (class_name , "get_slot_type_right\0" . as_ptr () as * const c_char) ; table . get_title = (gd_api . godot_method_bind_get_method) (class_name , "get_title\0" . as_ptr () as * const c_char) ; table . is_close_button_visible = (gd_api . godot_method_bind_get_method) (class_name , "is_close_button_visible\0" . as_ptr () as * const c_char) ; table . is_comment = (gd_api . godot_method_bind_get_method) (class_name , "is_comment\0" . as_ptr () as * const c_char) ; table . is_resizable = (gd_api . godot_method_bind_get_method) (class_name , "is_resizable\0" . as_ptr () as * const c_char) ; table . is_selected = (gd_api . godot_method_bind_get_method) (class_name , "is_selected\0" . as_ptr () as * const c_char) ; table . is_slot_enabled_left = (gd_api . godot_method_bind_get_method) (class_name , "is_slot_enabled_left\0" . as_ptr () as * const c_char) ; table . is_slot_enabled_right = (gd_api . godot_method_bind_get_method) (class_name , "is_slot_enabled_right\0" . as_ptr () as * const c_char) ; table . set_comment = (gd_api . godot_method_bind_get_method) (class_name , "set_comment\0" . as_ptr () as * const c_char) ; table . set_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_offset\0" . as_ptr () as * const c_char) ; table . set_overlay = (gd_api . godot_method_bind_get_method) (class_name , "set_overlay\0" . as_ptr () as * const c_char) ; table . set_resizable = (gd_api . godot_method_bind_get_method) (class_name , "set_resizable\0" . as_ptr () as * const c_char) ; table . set_selected = (gd_api . godot_method_bind_get_method) (class_name , "set_selected\0" . as_ptr () as * const c_char) ; table . set_show_close_button = (gd_api . godot_method_bind_get_method) (class_name , "set_show_close_button\0" . as_ptr () as * const c_char) ; table . set_slot = (gd_api . godot_method_bind_get_method) (class_name , "set_slot\0" . as_ptr () as * const c_char) ; table . set_title = (gd_api . godot_method_bind_get_method) (class_name , "set_title\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:466:7737 [INFO] [stdout] | [INFO] [stdout] 466 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 466 | # [doc = "`core class PhysicsMaterial` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physicsmaterial.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPhysicsMaterial inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PhysicsMaterial { this : RawObject < Self > , } impl PhysicsMaterial { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PhysicsMaterialMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness)."] # [doc = ""] # [inline] pub fn bounce (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . get_bounce ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's friction. Values range from `0` (frictionless) to `1` (maximum friction)."] # [doc = ""] # [inline] pub fn friction (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . get_friction ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, subtracts the bounciness from the colliding object's bounciness instead of adding it."] # [doc = ""] # [inline] pub fn is_absorbent (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . is_absorbent ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the physics engine will use the friction of the object marked as \"rough\" when two objects collide. If `false`, the physics engine will use the lowest friction of all colliding objects instead. If `true` for both colliding objects, the physics engine will use the highest friction."] # [doc = ""] # [inline] pub fn is_rough (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . is_rough ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, subtracts the bounciness from the colliding object's bounciness instead of adding it."] # [doc = ""] # [inline] pub fn set_absorbent (& self , absorbent : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . set_absorbent ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , absorbent) ; } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness)."] # [doc = ""] # [inline] pub fn set_bounce (& self , bounce : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . set_bounce ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bounce) ; } } # [doc = "The body's friction. Values range from `0` (frictionless) to `1` (maximum friction)."] # [doc = ""] # [inline] pub fn set_friction (& self , friction : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . set_friction ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , friction) ; } } # [doc = "If `true`, the physics engine will use the friction of the object marked as \"rough\" when two objects collide. If `false`, the physics engine will use the lowest friction of all colliding objects instead. If `true` for both colliding objects, the physics engine will use the highest friction."] # [doc = ""] # [inline] pub fn set_rough (& self , rough : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsMaterialMethodTable :: get (get_api ()) . set_rough ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , rough) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PhysicsMaterial { } unsafe impl GodotObject for PhysicsMaterial { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PhysicsMaterial" } } impl std :: ops :: Deref for PhysicsMaterial { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PhysicsMaterial { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PhysicsMaterial { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PhysicsMaterial { } unsafe impl SubClass < crate :: generated :: object :: Object > for PhysicsMaterial { } impl Instanciable for PhysicsMaterial { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PhysicsMaterial :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PhysicsMaterialMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bounce : * mut sys :: godot_method_bind , pub get_friction : * mut sys :: godot_method_bind , pub is_absorbent : * mut sys :: godot_method_bind , pub is_rough : * mut sys :: godot_method_bind , pub set_absorbent : * mut sys :: godot_method_bind , pub set_bounce : * mut sys :: godot_method_bind , pub set_friction : * mut sys :: godot_method_bind , pub set_rough : * mut sys :: godot_method_bind } impl PhysicsMaterialMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PhysicsMaterialMethodTable = PhysicsMaterialMethodTable { class_constructor : None , get_bounce : 0 as * mut sys :: godot_method_bind , get_friction : 0 as * mut sys :: godot_method_bind , is_absorbent : 0 as * mut sys :: godot_method_bind , is_rough : 0 as * mut sys :: godot_method_bind , set_absorbent : 0 as * mut sys :: godot_method_bind , set_bounce : 0 as * mut sys :: godot_method_bind , set_friction : 0 as * mut sys :: godot_method_bind , set_rough : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PhysicsMaterialMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PhysicsMaterial\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bounce = (gd_api . godot_method_bind_get_method) (class_name , "get_bounce\0" . as_ptr () as * const c_char) ; table . get_friction = (gd_api . godot_method_bind_get_method) (class_name , "get_friction\0" . as_ptr () as * const c_char) ; table . is_absorbent = (gd_api . godot_method_bind_get_method) (class_name , "is_absorbent\0" . as_ptr () as * const c_char) ; table . is_rough = (gd_api . godot_method_bind_get_method) (class_name , "is_rough\0" . as_ptr () as * const c_char) ; table . set_absorbent = (gd_api . godot_method_bind_get_method) (class_name , "set_absorbent\0" . as_ptr () as * const c_char) ; table . set_bounce = (gd_api . godot_method_bind_get_method) (class_name , "set_bounce\0" . as_ptr () as * const c_char) ; table . set_friction = (gd_api . godot_method_bind_get_method) (class_name , "set_friction\0" . as_ptr () as * const c_char) ; table . set_rough = (gd_api . godot_method_bind_get_method) (class_name , "set_rough\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:472:27207 [INFO] [stdout] | [INFO] [stdout] 472 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 472 | # [doc = "`core class Area2D` inherits `CollisionObject2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_area2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Area2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nArea2D inherits methods from:\n - [CollisionObject2D](struct.CollisionObject2D.html)\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Area2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SpaceOverride (pub i64) ; impl SpaceOverride { pub const DISABLED : SpaceOverride = SpaceOverride (0i64) ; pub const COMBINE : SpaceOverride = SpaceOverride (1i64) ; pub const COMBINE_REPLACE : SpaceOverride = SpaceOverride (2i64) ; pub const REPLACE : SpaceOverride = SpaceOverride (3i64) ; pub const REPLACE_COMBINE : SpaceOverride = SpaceOverride (4i64) ; } impl From < i64 > for SpaceOverride { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SpaceOverride > for i64 { # [inline] fn from (v : SpaceOverride) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Area2D { pub const SPACE_OVERRIDE_COMBINE : i64 = 1i64 ; pub const SPACE_OVERRIDE_COMBINE_REPLACE : i64 = 2i64 ; pub const SPACE_OVERRIDE_DISABLED : i64 = 0i64 ; pub const SPACE_OVERRIDE_REPLACE : i64 = 3i64 ; pub const SPACE_OVERRIDE_REPLACE_COMBINE : i64 = 4i64 ; } impl Area2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = Area2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The rate at which objects stop spinning in this area. Represents the angular velocity lost per second. Values range from `0` (no damping) to `1` (full damping)."] # [doc = ""] # [inline] pub fn angular_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_angular_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The name of the area's audio bus."] # [doc = ""] # [inline] pub fn audio_bus_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_audio_bus_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The area's physics layer(s). Collidable objects can exist in any of 32 different layers. A contact is detected if object A is in any of the layers that object B scans, or object B is in any layers that object A scans. See also [member collision_mask]. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_layer (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_collision_layer ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an individual bit on the layer mask. Describes whether other areas will collide with this one on the given layer."] # [doc = ""] # [inline] pub fn get_collision_layer_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_collision_layer_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = "The physics layers this area scans to determine collision detection. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_collision_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an individual bit on the collision mask. Describes whether this area will collide with others on the given layer."] # [doc = ""] # [inline] pub fn get_collision_mask_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_collision_mask_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = "The area's gravity intensity (ranges from -1024 to 1024). This value multiplies the gravity vector. This is useful to alter the force of gravity without altering its direction."] # [doc = ""] # [inline] pub fn gravity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_gravity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The falloff factor for point gravity. The greater the value, the faster gravity decreases with distance."] # [doc = ""] # [inline] pub fn gravity_distance_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_gravity_distance_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The area's gravity vector (not normalized). If gravity is a point (see [member gravity_point]), this will be the point of attraction."] # [doc = ""] # [inline] pub fn gravity_vector (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_gravity_vector ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The rate at which objects stop moving in this area. Represents the linear velocity lost per second. Values range from `0` (no damping) to `1` (full damping)."] # [doc = ""] # [inline] pub fn linear_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_linear_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a list of intersecting [Area2D]s. For performance reasons (collisions are all processed at the same time) this list is modified once during the physics step, not immediately after objects are moved. Consider using signals instead."] # [doc = ""] # [inline] pub fn get_overlapping_areas (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_overlapping_areas ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns a list of intersecting [PhysicsBody2D]s. For performance reasons (collisions are all processed at the same time) this list is modified once during the physics step, not immediately after objects are moved. Consider using signals instead."] # [doc = ""] # [inline] pub fn get_overlapping_bodies (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_overlapping_bodies ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "The area's priority. Higher priority areas are processed first."] # [doc = ""] # [inline] pub fn priority (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_priority ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Override mode for gravity and damping calculations within this area. See [enum SpaceOverride] for possible values."] # [doc = ""] # [inline] pub fn space_override_mode (& self) -> crate :: generated :: area_2d :: SpaceOverride { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . get_space_override_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: area_2d :: SpaceOverride (ret) } } # [doc = "If `true`, gravity is calculated from a point (set via [member gravity_vec]). See also [member space_override]."] # [doc = ""] # [inline] pub fn is_gravity_a_point (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . is_gravity_a_point ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, other monitoring areas can detect this area."] # [doc = ""] # [inline] pub fn is_monitorable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . is_monitorable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the area detects bodies or areas entering and exiting it."] # [doc = ""] # [inline] pub fn is_monitoring (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . is_monitoring ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the area's audio bus overrides the default audio bus."] # [doc = ""] # [inline] pub fn is_overriding_audio_bus (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . is_overriding_audio_bus ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the given area overlaps the Area2D.\n**Note:** The result of this test is not immediate after moving objects. For performance, list of overlaps is updated once per frame and before the physics step. Consider using signals instead."] # [doc = ""] # [inline] pub fn overlaps_area (& self , area : impl AsArg < crate :: generated :: node :: Node >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . overlaps_area ; let ret = crate :: icalls :: icallptr_bool_obj (method_bind , self . this . sys () . as_ptr () , area . as_arg_ptr ()) ; ret as _ } } # [doc = "If `true`, the given physics body overlaps the Area2D.\n**Note:** The result of this test is not immediate after moving objects. For performance, list of overlaps is updated once per frame and before the physics step. Consider using signals instead.\nThe `body` argument can either be a [PhysicsBody2D] or a [TileMap] instance (while TileMaps are not physics body themselves, they register their tiles with collision shapes as a virtual physics body)."] # [doc = ""] # [inline] pub fn overlaps_body (& self , body : impl AsArg < crate :: generated :: node :: Node >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . overlaps_body ; let ret = crate :: icalls :: icallptr_bool_obj (method_bind , self . this . sys () . as_ptr () , body . as_arg_ptr ()) ; ret as _ } } # [doc = "The rate at which objects stop spinning in this area. Represents the angular velocity lost per second. Values range from `0` (no damping) to `1` (full damping)."] # [doc = ""] # [inline] pub fn set_angular_damp (& self , angular_damp : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_angular_damp ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angular_damp) ; } } # [doc = "The name of the area's audio bus."] # [doc = ""] # [inline] pub fn set_audio_bus_name (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_audio_bus_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "If `true`, the area's audio bus overrides the default audio bus."] # [doc = ""] # [inline] pub fn set_audio_bus_override (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_audio_bus_override ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The area's physics layer(s). Collidable objects can exist in any of 32 different layers. A contact is detected if object A is in any of the layers that object B scans, or object B is in any layers that object A scans. See also [member collision_mask]. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_layer (& self , collision_layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_collision_layer ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , collision_layer) ; } } # [doc = "Set/clear individual bits on the layer mask. This makes getting an area in/out of only one layer easier."] # [doc = ""] # [inline] pub fn set_collision_layer_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_collision_layer_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = "The physics layers this area scans to determine collision detection. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_mask (& self , collision_mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_collision_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , collision_mask) ; } } # [doc = "Set/clear individual bits on the collision mask. This makes selecting the areas scanned easier."] # [doc = ""] # [inline] pub fn set_collision_mask_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_collision_mask_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = "The area's gravity intensity (ranges from -1024 to 1024). This value multiplies the gravity vector. This is useful to alter the force of gravity without altering its direction."] # [doc = ""] # [inline] pub fn set_gravity (& self , gravity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_gravity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , gravity) ; } } # [doc = "The falloff factor for point gravity. The greater the value, the faster gravity decreases with distance."] # [doc = ""] # [inline] pub fn set_gravity_distance_scale (& self , distance_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_gravity_distance_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , distance_scale) ; } } # [doc = "If `true`, gravity is calculated from a point (set via [member gravity_vec]). See also [member space_override]."] # [doc = ""] # [inline] pub fn set_gravity_is_point (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_gravity_is_point ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The area's gravity vector (not normalized). If gravity is a point (see [member gravity_point]), this will be the point of attraction."] # [doc = ""] # [inline] pub fn set_gravity_vector (& self , vector : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_gravity_vector ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , vector) ; } } # [doc = "The rate at which objects stop moving in this area. Represents the linear velocity lost per second. Values range from `0` (no damping) to `1` (full damping)."] # [doc = ""] # [inline] pub fn set_linear_damp (& self , linear_damp : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_linear_damp ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , linear_damp) ; } } # [doc = "If `true`, other monitoring areas can detect this area."] # [doc = ""] # [inline] pub fn set_monitorable (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_monitorable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the area detects bodies or areas entering and exiting it."] # [doc = ""] # [inline] pub fn set_monitoring (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_monitoring ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The area's priority. Higher priority areas are processed first."] # [doc = ""] # [inline] pub fn set_priority (& self , priority : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_priority ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , priority) ; } } # [doc = "Override mode for gravity and damping calculations within this area. See [enum SpaceOverride] for possible values."] # [doc = ""] # [inline] pub fn set_space_override_mode (& self , space_override_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Area2DMethodTable :: get (get_api ()) . set_space_override_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , space_override_mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Area2D { } unsafe impl GodotObject for Area2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Area2D" } } impl QueueFree for Area2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Area2D { type Target = crate :: generated :: collision_object_2d :: CollisionObject2D ; # [inline] fn deref (& self) -> & crate :: generated :: collision_object_2d :: CollisionObject2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Area2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: collision_object_2d :: CollisionObject2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: collision_object_2d :: CollisionObject2D > for Area2D { } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for Area2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Area2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Area2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Area2D { } impl Instanciable for Area2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Area2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Area2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_angular_damp : * mut sys :: godot_method_bind , pub get_audio_bus_name : * mut sys :: godot_method_bind , pub get_collision_layer : * mut sys :: godot_method_bind , pub get_collision_layer_bit : * mut sys :: godot_method_bind , pub get_collision_mask : * mut sys :: godot_method_bind , pub get_collision_mask_bit : * mut sys :: godot_method_bind , pub get_gravity : * mut sys :: godot_method_bind , pub get_gravity_distance_scale : * mut sys :: godot_method_bind , pub get_gravity_vector : * mut sys :: godot_method_bind , pub get_linear_damp : * mut sys :: godot_method_bind , pub get_overlapping_areas : * mut sys :: godot_method_bind , pub get_overlapping_bodies : * mut sys :: godot_method_bind , pub get_priority : * mut sys :: godot_method_bind , pub get_space_override_mode : * mut sys :: godot_method_bind , pub is_gravity_a_point : * mut sys :: godot_method_bind , pub is_monitorable : * mut sys :: godot_method_bind , pub is_monitoring : * mut sys :: godot_method_bind , pub is_overriding_audio_bus : * mut sys :: godot_method_bind , pub overlaps_area : * mut sys :: godot_method_bind , pub overlaps_body : * mut sys :: godot_method_bind , pub set_angular_damp : * mut sys :: godot_method_bind , pub set_audio_bus_name : * mut sys :: godot_method_bind , pub set_audio_bus_override : * mut sys :: godot_method_bind , pub set_collision_layer : * mut sys :: godot_method_bind , pub set_collision_layer_bit : * mut sys :: godot_method_bind , pub set_collision_mask : * mut sys :: godot_method_bind , pub set_collision_mask_bit : * mut sys :: godot_method_bind , pub set_gravity : * mut sys :: godot_method_bind , pub set_gravity_distance_scale : * mut sys :: godot_method_bind , pub set_gravity_is_point : * mut sys :: godot_method_bind , pub set_gravity_vector : * mut sys :: godot_method_bind , pub set_linear_damp : * mut sys :: godot_method_bind , pub set_monitorable : * mut sys :: godot_method_bind , pub set_monitoring : * mut sys :: godot_method_bind , pub set_priority : * mut sys :: godot_method_bind , pub set_space_override_mode : * mut sys :: godot_method_bind } impl Area2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Area2DMethodTable = Area2DMethodTable { class_constructor : None , get_angular_damp : 0 as * mut sys :: godot_method_bind , get_audio_bus_name : 0 as * mut sys :: godot_method_bind , get_collision_layer : 0 as * mut sys :: godot_method_bind , get_collision_layer_bit : 0 as * mut sys :: godot_method_bind , get_collision_mask : 0 as * mut sys :: godot_method_bind , get_collision_mask_bit : 0 as * mut sys :: godot_method_bind , get_gravity : 0 as * mut sys :: godot_method_bind , get_gravity_distance_scale : 0 as * mut sys :: godot_method_bind , get_gravity_vector : 0 as * mut sys :: godot_method_bind , get_linear_damp : 0 as * mut sys :: godot_method_bind , get_overlapping_areas : 0 as * mut sys :: godot_method_bind , get_overlapping_bodies : 0 as * mut sys :: godot_method_bind , get_priority : 0 as * mut sys :: godot_method_bind , get_space_override_mode : 0 as * mut sys :: godot_method_bind , is_gravity_a_point : 0 as * mut sys :: godot_method_bind , is_monitorable : 0 as * mut sys :: godot_method_bind , is_monitoring : 0 as * mut sys :: godot_method_bind , is_overriding_audio_bus : 0 as * mut sys :: godot_method_bind , overlaps_area : 0 as * mut sys :: godot_method_bind , overlaps_body : 0 as * mut sys :: godot_method_bind , set_angular_damp : 0 as * mut sys :: godot_method_bind , set_audio_bus_name : 0 as * mut sys :: godot_method_bind , set_audio_bus_override : 0 as * mut sys :: godot_method_bind , set_collision_layer : 0 as * mut sys :: godot_method_bind , set_collision_layer_bit : 0 as * mut sys :: godot_method_bind , set_collision_mask : 0 as * mut sys :: godot_method_bind , set_collision_mask_bit : 0 as * mut sys :: godot_method_bind , set_gravity : 0 as * mut sys :: godot_method_bind , set_gravity_distance_scale : 0 as * mut sys :: godot_method_bind , set_gravity_is_point : 0 as * mut sys :: godot_method_bind , set_gravity_vector : 0 as * mut sys :: godot_method_bind , set_linear_damp : 0 as * mut sys :: godot_method_bind , set_monitorable : 0 as * mut sys :: godot_method_bind , set_monitoring : 0 as * mut sys :: godot_method_bind , set_priority : 0 as * mut sys :: godot_method_bind , set_space_override_mode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Area2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Area2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_angular_damp\0" . as_ptr () as * const c_char) ; table . get_audio_bus_name = (gd_api . godot_method_bind_get_method) (class_name , "get_audio_bus_name\0" . as_ptr () as * const c_char) ; table . get_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_layer\0" . as_ptr () as * const c_char) ; table . get_collision_layer_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_layer_bit\0" . as_ptr () as * const c_char) ; table . get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask\0" . as_ptr () as * const c_char) ; table . get_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . get_gravity = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity\0" . as_ptr () as * const c_char) ; table . get_gravity_distance_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity_distance_scale\0" . as_ptr () as * const c_char) ; table . get_gravity_vector = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity_vector\0" . as_ptr () as * const c_char) ; table . get_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_linear_damp\0" . as_ptr () as * const c_char) ; table . get_overlapping_areas = (gd_api . godot_method_bind_get_method) (class_name , "get_overlapping_areas\0" . as_ptr () as * const c_char) ; table . get_overlapping_bodies = (gd_api . godot_method_bind_get_method) (class_name , "get_overlapping_bodies\0" . as_ptr () as * const c_char) ; table . get_priority = (gd_api . godot_method_bind_get_method) (class_name , "get_priority\0" . as_ptr () as * const c_char) ; table . get_space_override_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_space_override_mode\0" . as_ptr () as * const c_char) ; table . is_gravity_a_point = (gd_api . godot_method_bind_get_method) (class_name , "is_gravity_a_point\0" . as_ptr () as * const c_char) ; table . is_monitorable = (gd_api . godot_method_bind_get_method) (class_name , "is_monitorable\0" . as_ptr () as * const c_char) ; table . is_monitoring = (gd_api . godot_method_bind_get_method) (class_name , "is_monitoring\0" . as_ptr () as * const c_char) ; table . is_overriding_audio_bus = (gd_api . godot_method_bind_get_method) (class_name , "is_overriding_audio_bus\0" . as_ptr () as * const c_char) ; table . overlaps_area = (gd_api . godot_method_bind_get_method) (class_name , "overlaps_area\0" . as_ptr () as * const c_char) ; table . overlaps_body = (gd_api . godot_method_bind_get_method) (class_name , "overlaps_body\0" . as_ptr () as * const c_char) ; table . set_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "set_angular_damp\0" . as_ptr () as * const c_char) ; table . set_audio_bus_name = (gd_api . godot_method_bind_get_method) (class_name , "set_audio_bus_name\0" . as_ptr () as * const c_char) ; table . set_audio_bus_override = (gd_api . godot_method_bind_get_method) (class_name , "set_audio_bus_override\0" . as_ptr () as * const c_char) ; table . set_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_layer\0" . as_ptr () as * const c_char) ; table . set_collision_layer_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_layer_bit\0" . as_ptr () as * const c_char) ; table . set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask\0" . as_ptr () as * const c_char) ; table . set_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . set_gravity = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity\0" . as_ptr () as * const c_char) ; table . set_gravity_distance_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity_distance_scale\0" . as_ptr () as * const c_char) ; table . set_gravity_is_point = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity_is_point\0" . as_ptr () as * const c_char) ; table . set_gravity_vector = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity_vector\0" . as_ptr () as * const c_char) ; table . set_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "set_linear_damp\0" . as_ptr () as * const c_char) ; table . set_monitorable = (gd_api . godot_method_bind_get_method) (class_name , "set_monitorable\0" . as_ptr () as * const c_char) ; table . set_monitoring = (gd_api . godot_method_bind_get_method) (class_name , "set_monitoring\0" . as_ptr () as * const c_char) ; table . set_priority = (gd_api . godot_method_bind_get_method) (class_name , "set_priority\0" . as_ptr () as * const c_char) ; table . set_space_override_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_space_override_mode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:478:10661 [INFO] [stdout] | [INFO] [stdout] 478 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 478 | # [doc = "`tools class EditorFileSystemDirectory` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorfilesystemdirectory.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nEditorFileSystemDirectory inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorFileSystemDirectory { this : RawObject < Self > , } impl EditorFileSystemDirectory { # [doc = "Returns the index of the directory with name `name` or `-1` if not found."] # [doc = ""] # [inline] pub fn find_dir_index (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . find_dir_index ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns the index of the file with name `name` or `-1` if not found."] # [doc = ""] # [inline] pub fn find_file_index (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . find_file_index ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns the name of the file at index `idx`."] # [doc = ""] # [inline] pub fn get_file (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_file ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the number of files in this directory."] # [doc = ""] # [inline] pub fn get_file_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_file_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the file at index `idx` imported properly."] # [doc = ""] # [inline] pub fn get_file_import_is_valid (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_file_import_is_valid ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the path to the file at index `idx`."] # [doc = ""] # [inline] pub fn get_file_path (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_file_path ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the base class of the script class defined in the file at index `idx`. If the file doesn't define a script class using the `class_name` syntax, this will return an empty string."] # [doc = ""] # [inline] pub fn get_file_script_class_extends (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_file_script_class_extends ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the name of the script class defined in the file at index `idx`. If the file doesn't define a script class using the `class_name` syntax, this will return an empty string."] # [doc = ""] # [inline] pub fn get_file_script_class_name (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_file_script_class_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the file extension of the file at index `idx`."] # [doc = ""] # [inline] pub fn get_file_type (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_file_type ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the name of this directory."] # [doc = ""] # [inline] pub fn get_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the parent directory for this directory or `null` if called on a directory at `res://` or `user://`."] # [doc = ""] # [inline] pub fn get_parent (& self) -> Option < Ref < crate :: generated :: editor_file_system_directory :: EditorFileSystemDirectory , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_parent ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_file_system_directory :: EditorFileSystemDirectory , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the path to this directory."] # [doc = ""] # [inline] pub fn get_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the subdirectory at index `idx`."] # [doc = ""] # [inline] pub fn get_subdir (& self , idx : i64) -> Option < Ref < crate :: generated :: editor_file_system_directory :: EditorFileSystemDirectory , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_subdir ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_file_system_directory :: EditorFileSystemDirectory , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of subdirectories in this directory."] # [doc = ""] # [inline] pub fn get_subdir_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorFileSystemDirectoryMethodTable :: get (get_api ()) . get_subdir_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorFileSystemDirectory { } unsafe impl GodotObject for EditorFileSystemDirectory { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorFileSystemDirectory" } } impl std :: ops :: Deref for EditorFileSystemDirectory { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorFileSystemDirectory { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorFileSystemDirectory { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorFileSystemDirectoryMethodTable { pub class_constructor : sys :: godot_class_constructor , pub find_dir_index : * mut sys :: godot_method_bind , pub find_file_index : * mut sys :: godot_method_bind , pub get_file : * mut sys :: godot_method_bind , pub get_file_count : * mut sys :: godot_method_bind , pub get_file_import_is_valid : * mut sys :: godot_method_bind , pub get_file_path : * mut sys :: godot_method_bind , pub get_file_script_class_extends : * mut sys :: godot_method_bind , pub get_file_script_class_name : * mut sys :: godot_method_bind , pub get_file_type : * mut sys :: godot_method_bind , pub get_name : * mut sys :: godot_method_bind , pub get_parent : * mut sys :: godot_method_bind , pub get_path : * mut sys :: godot_method_bind , pub get_subdir : * mut sys :: godot_method_bind , pub get_subdir_count : * mut sys :: godot_method_bind } impl EditorFileSystemDirectoryMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorFileSystemDirectoryMethodTable = EditorFileSystemDirectoryMethodTable { class_constructor : None , find_dir_index : 0 as * mut sys :: godot_method_bind , find_file_index : 0 as * mut sys :: godot_method_bind , get_file : 0 as * mut sys :: godot_method_bind , get_file_count : 0 as * mut sys :: godot_method_bind , get_file_import_is_valid : 0 as * mut sys :: godot_method_bind , get_file_path : 0 as * mut sys :: godot_method_bind , get_file_script_class_extends : 0 as * mut sys :: godot_method_bind , get_file_script_class_name : 0 as * mut sys :: godot_method_bind , get_file_type : 0 as * mut sys :: godot_method_bind , get_name : 0 as * mut sys :: godot_method_bind , get_parent : 0 as * mut sys :: godot_method_bind , get_path : 0 as * mut sys :: godot_method_bind , get_subdir : 0 as * mut sys :: godot_method_bind , get_subdir_count : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorFileSystemDirectoryMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorFileSystemDirectory\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . find_dir_index = (gd_api . godot_method_bind_get_method) (class_name , "find_dir_index\0" . as_ptr () as * const c_char) ; table . find_file_index = (gd_api . godot_method_bind_get_method) (class_name , "find_file_index\0" . as_ptr () as * const c_char) ; table . get_file = (gd_api . godot_method_bind_get_method) (class_name , "get_file\0" . as_ptr () as * const c_char) ; table . get_file_count = (gd_api . godot_method_bind_get_method) (class_name , "get_file_count\0" . as_ptr () as * const c_char) ; table . get_file_import_is_valid = (gd_api . godot_method_bind_get_method) (class_name , "get_file_import_is_valid\0" . as_ptr () as * const c_char) ; table . get_file_path = (gd_api . godot_method_bind_get_method) (class_name , "get_file_path\0" . as_ptr () as * const c_char) ; table . get_file_script_class_extends = (gd_api . godot_method_bind_get_method) (class_name , "get_file_script_class_extends\0" . as_ptr () as * const c_char) ; table . get_file_script_class_name = (gd_api . godot_method_bind_get_method) (class_name , "get_file_script_class_name\0" . as_ptr () as * const c_char) ; table . get_file_type = (gd_api . godot_method_bind_get_method) (class_name , "get_file_type\0" . as_ptr () as * const c_char) ; table . get_name = (gd_api . godot_method_bind_get_method) (class_name , "get_name\0" . as_ptr () as * const c_char) ; table . get_parent = (gd_api . godot_method_bind_get_method) (class_name , "get_parent\0" . as_ptr () as * const c_char) ; table . get_path = (gd_api . godot_method_bind_get_method) (class_name , "get_path\0" . as_ptr () as * const c_char) ; table . get_subdir = (gd_api . godot_method_bind_get_method) (class_name , "get_subdir\0" . as_ptr () as * const c_char) ; table . get_subdir_count = (gd_api . godot_method_bind_get_method) (class_name , "get_subdir_count\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:484:5473 [INFO] [stdout] | [INFO] [stdout] 484 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 484 | # [doc = "`core class ColorRect` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_colorrect.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ColorRect` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nColorRect inherits methods from:\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ColorRect { this : RawObject < Self > , } impl ColorRect { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ColorRectMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nThe fill color.\n```gdscript\n$ColorRect.color = Color(1, 0, 0, 1) # Set ColorRect's color to red.\n```"] # [doc = ""] # [inline] pub fn frame_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorRectMethodTable :: get (get_api ()) . get_frame_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nThe fill color.\n```gdscript\n$ColorRect.color = Color(1, 0, 0, 1) # Set ColorRect's color to red.\n```"] # [doc = ""] # [inline] pub fn set_frame_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorRectMethodTable :: get (get_api ()) . set_frame_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ColorRect { } unsafe impl GodotObject for ColorRect { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ColorRect" } } impl QueueFree for ColorRect { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ColorRect { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ColorRect { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for ColorRect { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ColorRect { } unsafe impl SubClass < crate :: generated :: node :: Node > for ColorRect { } unsafe impl SubClass < crate :: generated :: object :: Object > for ColorRect { } impl Instanciable for ColorRect { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ColorRect :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ColorRectMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_frame_color : * mut sys :: godot_method_bind , pub set_frame_color : * mut sys :: godot_method_bind } impl ColorRectMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ColorRectMethodTable = ColorRectMethodTable { class_constructor : None , get_frame_color : 0 as * mut sys :: godot_method_bind , set_frame_color : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ColorRectMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ColorRect\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_frame_color = (gd_api . godot_method_bind_get_method) (class_name , "get_frame_color\0" . as_ptr () as * const c_char) ; table . set_frame_color = (gd_api . godot_method_bind_get_method) (class_name , "set_frame_color\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:490:12584 [INFO] [stdout] | [INFO] [stdout] 490 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 490 | # [doc = "`core class GIProbeData` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_giprobedata.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nGIProbeData inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct GIProbeData { this : RawObject < Self > , } impl GIProbeData { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = GIProbeDataMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn bounds (& self) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_bounds ; let ret = crate :: icalls :: icallptr_aabb (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn cell_size (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_cell_size ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn dynamic_data (& self) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_dynamic_data ; let ret = crate :: icalls :: icallptr_i32arr (method_bind , self . this . sys () . as_ptr ()) ; Int32Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn dynamic_range (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_dynamic_range ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn normal_bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_normal_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn propagation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_propagation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn to_cell_xform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . get_to_cell_xform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_compressed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . is_compressed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_interior (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . is_interior ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_bias (& self , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bias) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_bounds (& self , bounds : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_bounds ; let ret = crate :: icalls :: icallptr_void_aabb (method_bind , self . this . sys () . as_ptr () , bounds) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_size (& self , cell_size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_cell_size ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , cell_size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_compress (& self , compress : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_compress ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , compress) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_dynamic_data (& self , dynamic_data : Int32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_dynamic_data ; let ret = crate :: icalls :: icallptr_void_i32arr (method_bind , self . this . sys () . as_ptr () , dynamic_data) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_dynamic_range (& self , dynamic_range : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_dynamic_range ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , dynamic_range) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_interior (& self , interior : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_interior ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , interior) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_normal_bias (& self , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_normal_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bias) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_propagation (& self , propagation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_propagation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , propagation) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_to_cell_xform (& self , to_cell_xform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeDataMethodTable :: get (get_api ()) . set_to_cell_xform ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , to_cell_xform) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for GIProbeData { } unsafe impl GodotObject for GIProbeData { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "GIProbeData" } } impl std :: ops :: Deref for GIProbeData { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GIProbeData { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for GIProbeData { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for GIProbeData { } unsafe impl SubClass < crate :: generated :: object :: Object > for GIProbeData { } impl Instanciable for GIProbeData { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GIProbeData :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GIProbeDataMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bias : * mut sys :: godot_method_bind , pub get_bounds : * mut sys :: godot_method_bind , pub get_cell_size : * mut sys :: godot_method_bind , pub get_dynamic_data : * mut sys :: godot_method_bind , pub get_dynamic_range : * mut sys :: godot_method_bind , pub get_energy : * mut sys :: godot_method_bind , pub get_normal_bias : * mut sys :: godot_method_bind , pub get_propagation : * mut sys :: godot_method_bind , pub get_to_cell_xform : * mut sys :: godot_method_bind , pub is_compressed : * mut sys :: godot_method_bind , pub is_interior : * mut sys :: godot_method_bind , pub set_bias : * mut sys :: godot_method_bind , pub set_bounds : * mut sys :: godot_method_bind , pub set_cell_size : * mut sys :: godot_method_bind , pub set_compress : * mut sys :: godot_method_bind , pub set_dynamic_data : * mut sys :: godot_method_bind , pub set_dynamic_range : * mut sys :: godot_method_bind , pub set_energy : * mut sys :: godot_method_bind , pub set_interior : * mut sys :: godot_method_bind , pub set_normal_bias : * mut sys :: godot_method_bind , pub set_propagation : * mut sys :: godot_method_bind , pub set_to_cell_xform : * mut sys :: godot_method_bind } impl GIProbeDataMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GIProbeDataMethodTable = GIProbeDataMethodTable { class_constructor : None , get_bias : 0 as * mut sys :: godot_method_bind , get_bounds : 0 as * mut sys :: godot_method_bind , get_cell_size : 0 as * mut sys :: godot_method_bind , get_dynamic_data : 0 as * mut sys :: godot_method_bind , get_dynamic_range : 0 as * mut sys :: godot_method_bind , get_energy : 0 as * mut sys :: godot_method_bind , get_normal_bias : 0 as * mut sys :: godot_method_bind , get_propagation : 0 as * mut sys :: godot_method_bind , get_to_cell_xform : 0 as * mut sys :: godot_method_bind , is_compressed : 0 as * mut sys :: godot_method_bind , is_interior : 0 as * mut sys :: godot_method_bind , set_bias : 0 as * mut sys :: godot_method_bind , set_bounds : 0 as * mut sys :: godot_method_bind , set_cell_size : 0 as * mut sys :: godot_method_bind , set_compress : 0 as * mut sys :: godot_method_bind , set_dynamic_data : 0 as * mut sys :: godot_method_bind , set_dynamic_range : 0 as * mut sys :: godot_method_bind , set_energy : 0 as * mut sys :: godot_method_bind , set_interior : 0 as * mut sys :: godot_method_bind , set_normal_bias : 0 as * mut sys :: godot_method_bind , set_propagation : 0 as * mut sys :: godot_method_bind , set_to_cell_xform : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { GIProbeDataMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GIProbeData\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_bias\0" . as_ptr () as * const c_char) ; table . get_bounds = (gd_api . godot_method_bind_get_method) (class_name , "get_bounds\0" . as_ptr () as * const c_char) ; table . get_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "get_cell_size\0" . as_ptr () as * const c_char) ; table . get_dynamic_data = (gd_api . godot_method_bind_get_method) (class_name , "get_dynamic_data\0" . as_ptr () as * const c_char) ; table . get_dynamic_range = (gd_api . godot_method_bind_get_method) (class_name , "get_dynamic_range\0" . as_ptr () as * const c_char) ; table . get_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_energy\0" . as_ptr () as * const c_char) ; table . get_normal_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_normal_bias\0" . as_ptr () as * const c_char) ; table . get_propagation = (gd_api . godot_method_bind_get_method) (class_name , "get_propagation\0" . as_ptr () as * const c_char) ; table . get_to_cell_xform = (gd_api . godot_method_bind_get_method) (class_name , "get_to_cell_xform\0" . as_ptr () as * const c_char) ; table . is_compressed = (gd_api . godot_method_bind_get_method) (class_name , "is_compressed\0" . as_ptr () as * const c_char) ; table . is_interior = (gd_api . godot_method_bind_get_method) (class_name , "is_interior\0" . as_ptr () as * const c_char) ; table . set_bias = (gd_api . godot_method_bind_get_method) (class_name , "set_bias\0" . as_ptr () as * const c_char) ; table . set_bounds = (gd_api . godot_method_bind_get_method) (class_name , "set_bounds\0" . as_ptr () as * const c_char) ; table . set_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "set_cell_size\0" . as_ptr () as * const c_char) ; table . set_compress = (gd_api . godot_method_bind_get_method) (class_name , "set_compress\0" . as_ptr () as * const c_char) ; table . set_dynamic_data = (gd_api . godot_method_bind_get_method) (class_name , "set_dynamic_data\0" . as_ptr () as * const c_char) ; table . set_dynamic_range = (gd_api . godot_method_bind_get_method) (class_name , "set_dynamic_range\0" . as_ptr () as * const c_char) ; table . set_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_energy\0" . as_ptr () as * const c_char) ; table . set_interior = (gd_api . godot_method_bind_get_method) (class_name , "set_interior\0" . as_ptr () as * const c_char) ; table . set_normal_bias = (gd_api . godot_method_bind_get_method) (class_name , "set_normal_bias\0" . as_ptr () as * const c_char) ; table . set_propagation = (gd_api . godot_method_bind_get_method) (class_name , "set_propagation\0" . as_ptr () as * const c_char) ; table . set_to_cell_xform = (gd_api . godot_method_bind_get_method) (class_name , "set_to_cell_xform\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:496:8140 [INFO] [stdout] | [INFO] [stdout] 496 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 496 | # [doc = "`core class ProximityGroup` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_proximitygroup.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ProximityGroup` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nProximityGroup inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ProximityGroup { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct DispatchMode (pub i64) ; impl DispatchMode { pub const PROXY : DispatchMode = DispatchMode (0i64) ; pub const SIGNAL : DispatchMode = DispatchMode (1i64) ; } impl From < i64 > for DispatchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < DispatchMode > for i64 { # [inline] fn from (v : DispatchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ProximityGroup { pub const MODE_PROXY : i64 = 0i64 ; pub const MODE_SIGNAL : i64 = 1i64 ; } impl ProximityGroup { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ProximityGroupMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn broadcast (& self , method : impl Into < GodotString > , parameters : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProximityGroupMethodTable :: get (get_api ()) . broadcast ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , method . into () , parameters . owned_to_variant ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn dispatch_mode (& self) -> crate :: generated :: proximity_group :: DispatchMode { unsafe { let method_bind : * mut sys :: godot_method_bind = ProximityGroupMethodTable :: get (get_api ()) . get_dispatch_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: proximity_group :: DispatchMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn grid_radius (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProximityGroupMethodTable :: get (get_api ()) . get_grid_radius ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn group_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ProximityGroupMethodTable :: get (get_api ()) . get_group_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_dispatch_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProximityGroupMethodTable :: get (get_api ()) . set_dispatch_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_grid_radius (& self , radius : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProximityGroupMethodTable :: get (get_api ()) . set_grid_radius ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_group_name (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProximityGroupMethodTable :: get (get_api ()) . set_group_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ProximityGroup { } unsafe impl GodotObject for ProximityGroup { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ProximityGroup" } } impl QueueFree for ProximityGroup { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ProximityGroup { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ProximityGroup { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ProximityGroup { } unsafe impl SubClass < crate :: generated :: node :: Node > for ProximityGroup { } unsafe impl SubClass < crate :: generated :: object :: Object > for ProximityGroup { } impl Instanciable for ProximityGroup { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ProximityGroup :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ProximityGroupMethodTable { pub class_constructor : sys :: godot_class_constructor , pub broadcast : * mut sys :: godot_method_bind , pub get_dispatch_mode : * mut sys :: godot_method_bind , pub get_grid_radius : * mut sys :: godot_method_bind , pub get_group_name : * mut sys :: godot_method_bind , pub set_dispatch_mode : * mut sys :: godot_method_bind , pub set_grid_radius : * mut sys :: godot_method_bind , pub set_group_name : * mut sys :: godot_method_bind } impl ProximityGroupMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ProximityGroupMethodTable = ProximityGroupMethodTable { class_constructor : None , broadcast : 0 as * mut sys :: godot_method_bind , get_dispatch_mode : 0 as * mut sys :: godot_method_bind , get_grid_radius : 0 as * mut sys :: godot_method_bind , get_group_name : 0 as * mut sys :: godot_method_bind , set_dispatch_mode : 0 as * mut sys :: godot_method_bind , set_grid_radius : 0 as * mut sys :: godot_method_bind , set_group_name : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ProximityGroupMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ProximityGroup\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . broadcast = (gd_api . godot_method_bind_get_method) (class_name , "broadcast\0" . as_ptr () as * const c_char) ; table . get_dispatch_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_dispatch_mode\0" . as_ptr () as * const c_char) ; table . get_grid_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_grid_radius\0" . as_ptr () as * const c_char) ; table . get_group_name = (gd_api . godot_method_bind_get_method) (class_name , "get_group_name\0" . as_ptr () as * const c_char) ; table . set_dispatch_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_dispatch_mode\0" . as_ptr () as * const c_char) ; table . set_grid_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_grid_radius\0" . as_ptr () as * const c_char) ; table . set_group_name = (gd_api . godot_method_bind_get_method) (class_name , "set_group_name\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:502:5749 [INFO] [stdout] | [INFO] [stdout] 502 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 502 | # [doc = "`tools class FileSystemDock` inherits `VBoxContainer` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_filesystemdock.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nFileSystemDock inherits methods from:\n - [VBoxContainer](struct.VBoxContainer.html)\n - [BoxContainer](struct.BoxContainer.html)\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct FileSystemDock { this : RawObject < Self > , } impl FileSystemDock { # [doc = ""] # [doc = ""] # [inline] pub fn can_drop_data_fw (& self , arg0 : Vector2 , arg1 : impl OwnedToVariant , arg2 : impl AsArg < crate :: generated :: control :: Control >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FileSystemDockMethodTable :: get (get_api ()) . can_drop_data_fw ; let ret = crate :: icalls :: icallptr_bool_vec2_var_obj (method_bind , self . this . sys () . as_ptr () , arg0 , arg1 . owned_to_variant () , arg2 . as_arg_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn drop_data_fw (& self , arg0 : Vector2 , arg1 : impl OwnedToVariant , arg2 : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileSystemDockMethodTable :: get (get_api ()) . drop_data_fw ; let ret = crate :: icalls :: icallptr_void_vec2_var_obj (method_bind , self . this . sys () . as_ptr () , arg0 , arg1 . owned_to_variant () , arg2 . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_drag_data_fw (& self , arg0 : Vector2 , arg1 : impl AsArg < crate :: generated :: control :: Control >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = FileSystemDockMethodTable :: get (get_api ()) . get_drag_data_fw ; let ret = crate :: icalls :: icallptr_var_vec2_obj (method_bind , self . this . sys () . as_ptr () , arg0 , arg1 . as_arg_ptr ()) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn navigate_to_path (& self , arg0 : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileSystemDockMethodTable :: get (get_api ()) . navigate_to_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , arg0 . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for FileSystemDock { } unsafe impl GodotObject for FileSystemDock { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "FileSystemDock" } } impl QueueFree for FileSystemDock { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for FileSystemDock { type Target = crate :: generated :: vbox_container :: VBoxContainer ; # [inline] fn deref (& self) -> & crate :: generated :: vbox_container :: VBoxContainer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for FileSystemDock { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: vbox_container :: VBoxContainer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: vbox_container :: VBoxContainer > for FileSystemDock { } unsafe impl SubClass < crate :: generated :: box_container :: BoxContainer > for FileSystemDock { } unsafe impl SubClass < crate :: generated :: container :: Container > for FileSystemDock { } unsafe impl SubClass < crate :: generated :: control :: Control > for FileSystemDock { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for FileSystemDock { } unsafe impl SubClass < crate :: generated :: node :: Node > for FileSystemDock { } unsafe impl SubClass < crate :: generated :: object :: Object > for FileSystemDock { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct FileSystemDockMethodTable { pub class_constructor : sys :: godot_class_constructor , pub can_drop_data_fw : * mut sys :: godot_method_bind , pub drop_data_fw : * mut sys :: godot_method_bind , pub get_drag_data_fw : * mut sys :: godot_method_bind , pub navigate_to_path : * mut sys :: godot_method_bind } impl FileSystemDockMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : FileSystemDockMethodTable = FileSystemDockMethodTable { class_constructor : None , can_drop_data_fw : 0 as * mut sys :: godot_method_bind , drop_data_fw : 0 as * mut sys :: godot_method_bind , get_drag_data_fw : 0 as * mut sys :: godot_method_bind , navigate_to_path : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { FileSystemDockMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "FileSystemDock\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . can_drop_data_fw = (gd_api . godot_method_bind_get_method) (class_name , "can_drop_data_fw\0" . as_ptr () as * const c_char) ; table . drop_data_fw = (gd_api . godot_method_bind_get_method) (class_name , "drop_data_fw\0" . as_ptr () as * const c_char) ; table . get_drag_data_fw = (gd_api . godot_method_bind_get_method) (class_name , "get_drag_data_fw\0" . as_ptr () as * const c_char) ; table . navigate_to_path = (gd_api . godot_method_bind_get_method) (class_name , "navigate_to_path\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:508:5076 [INFO] [stdout] | [INFO] [stdout] 508 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 508 | # [doc = "`core class RayShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_rayshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nRayShape inherits methods from:\n - [Shape](struct.Shape.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RayShape { this : RawObject < Self > , } impl RayShape { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RayShapeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The ray's length."] # [doc = ""] # [inline] pub fn length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . get_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, allow the shape to return the correct normal."] # [doc = ""] # [inline] pub fn slips_on_slope (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . get_slips_on_slope ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The ray's length."] # [doc = ""] # [inline] pub fn set_length (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . set_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "If `true`, allow the shape to return the correct normal."] # [doc = ""] # [inline] pub fn set_slips_on_slope (& self , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . set_slips_on_slope ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , active) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RayShape { } unsafe impl GodotObject for RayShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "RayShape" } } impl std :: ops :: Deref for RayShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RayShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for RayShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for RayShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for RayShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for RayShape { } impl Instanciable for RayShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RayShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RayShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_length : * mut sys :: godot_method_bind , pub get_slips_on_slope : * mut sys :: godot_method_bind , pub set_length : * mut sys :: godot_method_bind , pub set_slips_on_slope : * mut sys :: godot_method_bind } impl RayShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RayShapeMethodTable = RayShapeMethodTable { class_constructor : None , get_length : 0 as * mut sys :: godot_method_bind , get_slips_on_slope : 0 as * mut sys :: godot_method_bind , set_length : 0 as * mut sys :: godot_method_bind , set_slips_on_slope : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RayShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RayShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_length = (gd_api . godot_method_bind_get_method) (class_name , "get_length\0" . as_ptr () as * const c_char) ; table . get_slips_on_slope = (gd_api . godot_method_bind_get_method) (class_name , "get_slips_on_slope\0" . as_ptr () as * const c_char) ; table . set_length = (gd_api . godot_method_bind_get_method) (class_name , "set_length\0" . as_ptr () as * const c_char) ; table . set_slips_on_slope = (gd_api . godot_method_bind_get_method) (class_name , "set_slips_on_slope\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:514:7343 [INFO] [stdout] | [INFO] [stdout] 514 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 514 | # [doc = "`core class ReferenceRect` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_referencerect.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ReferenceRect` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nReferenceRect inherits methods from:\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ReferenceRect { this : RawObject < Self > , } impl ReferenceRect { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ReferenceRectMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Sets the border [Color] of the [ReferenceRect]."] # [doc = ""] # [inline] pub fn border_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ReferenceRectMethodTable :: get (get_api ()) . get_border_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn border_width (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReferenceRectMethodTable :: get (get_api ()) . get_border_width ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If set to `true`, the [ReferenceRect] will only be visible while in editor. Otherwise, [ReferenceRect] will be visible in game."] # [doc = ""] # [inline] pub fn editor_only (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ReferenceRectMethodTable :: get (get_api ()) . get_editor_only ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the border [Color] of the [ReferenceRect]."] # [doc = ""] # [inline] pub fn set_border_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReferenceRectMethodTable :: get (get_api ()) . set_border_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_border_width (& self , width : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReferenceRectMethodTable :: get (get_api ()) . set_border_width ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , width) ; } } # [doc = "If set to `true`, the [ReferenceRect] will only be visible while in editor. Otherwise, [ReferenceRect] will be visible in game."] # [doc = ""] # [inline] pub fn set_editor_only (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReferenceRectMethodTable :: get (get_api ()) . set_editor_only ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ReferenceRect { } unsafe impl GodotObject for ReferenceRect { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ReferenceRect" } } impl QueueFree for ReferenceRect { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ReferenceRect { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ReferenceRect { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for ReferenceRect { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ReferenceRect { } unsafe impl SubClass < crate :: generated :: node :: Node > for ReferenceRect { } unsafe impl SubClass < crate :: generated :: object :: Object > for ReferenceRect { } impl Instanciable for ReferenceRect { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ReferenceRect :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ReferenceRectMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_border_color : * mut sys :: godot_method_bind , pub get_border_width : * mut sys :: godot_method_bind , pub get_editor_only : * mut sys :: godot_method_bind , pub set_border_color : * mut sys :: godot_method_bind , pub set_border_width : * mut sys :: godot_method_bind , pub set_editor_only : * mut sys :: godot_method_bind } impl ReferenceRectMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ReferenceRectMethodTable = ReferenceRectMethodTable { class_constructor : None , get_border_color : 0 as * mut sys :: godot_method_bind , get_border_width : 0 as * mut sys :: godot_method_bind , get_editor_only : 0 as * mut sys :: godot_method_bind , set_border_color : 0 as * mut sys :: godot_method_bind , set_border_width : 0 as * mut sys :: godot_method_bind , set_editor_only : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ReferenceRectMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ReferenceRect\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_border_color = (gd_api . godot_method_bind_get_method) (class_name , "get_border_color\0" . as_ptr () as * const c_char) ; table . get_border_width = (gd_api . godot_method_bind_get_method) (class_name , "get_border_width\0" . as_ptr () as * const c_char) ; table . get_editor_only = (gd_api . godot_method_bind_get_method) (class_name , "get_editor_only\0" . as_ptr () as * const c_char) ; table . set_border_color = (gd_api . godot_method_bind_get_method) (class_name , "set_border_color\0" . as_ptr () as * const c_char) ; table . set_border_width = (gd_api . godot_method_bind_get_method) (class_name , "set_border_width\0" . as_ptr () as * const c_char) ; table . set_editor_only = (gd_api . godot_method_bind_get_method) (class_name , "set_editor_only\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:520:5847 [INFO] [stdout] | [INFO] [stdout] 520 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 520 | # [doc = "`core class VisualShaderNodeScalarOp` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodescalarop.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeScalarOp inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarOp { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Operator (pub i64) ; impl Operator { pub const ADD : Operator = Operator (0i64) ; pub const SUB : Operator = Operator (1i64) ; pub const MUL : Operator = Operator (2i64) ; pub const DIV : Operator = Operator (3i64) ; pub const MOD : Operator = Operator (4i64) ; pub const POW : Operator = Operator (5i64) ; pub const MAX : Operator = Operator (6i64) ; pub const MIN : Operator = Operator (7i64) ; pub const ATAN2 : Operator = Operator (8i64) ; pub const STEP : Operator = Operator (9i64) ; } impl From < i64 > for Operator { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Operator > for i64 { # [inline] fn from (v : Operator) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShaderNodeScalarOp { pub const OP_ADD : i64 = 0i64 ; pub const OP_ATAN2 : i64 = 8i64 ; pub const OP_DIV : i64 = 3i64 ; pub const OP_MAX : i64 = 6i64 ; pub const OP_MIN : i64 = 7i64 ; pub const OP_MOD : i64 = 4i64 ; pub const OP_MUL : i64 = 2i64 ; pub const OP_POW : i64 = 5i64 ; pub const OP_STEP : i64 = 9i64 ; pub const OP_SUB : i64 = 1i64 ; } impl VisualShaderNodeScalarOp { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeScalarOpMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn operator (& self) -> crate :: generated :: visual_shader_node_scalar_op :: Operator { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeScalarOpMethodTable :: get (get_api ()) . get_operator ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_scalar_op :: Operator (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_operator (& self , op : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeScalarOpMethodTable :: get (get_api ()) . set_operator ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , op) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeScalarOp { } unsafe impl GodotObject for VisualShaderNodeScalarOp { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeScalarOp" } } impl std :: ops :: Deref for VisualShaderNodeScalarOp { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeScalarOp { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeScalarOp { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeScalarOp { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeScalarOp { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeScalarOp { } impl Instanciable for VisualShaderNodeScalarOp { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeScalarOp :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeScalarOpMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_operator : * mut sys :: godot_method_bind , pub set_operator : * mut sys :: godot_method_bind } impl VisualShaderNodeScalarOpMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeScalarOpMethodTable = VisualShaderNodeScalarOpMethodTable { class_constructor : None , get_operator : 0 as * mut sys :: godot_method_bind , set_operator : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeScalarOpMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeScalarOp\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_operator = (gd_api . godot_method_bind_get_method) (class_name , "get_operator\0" . as_ptr () as * const c_char) ; table . set_operator = (gd_api . godot_method_bind_get_method) (class_name , "set_operator\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:526:7550 [INFO] [stdout] | [INFO] [stdout] 526 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 526 | # [doc = "`core class AudioEffectCapture` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectcapture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectCapture inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectCapture { this : RawObject < Self > , } impl AudioEffectCapture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectCaptureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn can_get_buffer (& self , frames : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . can_get_buffer ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , frames) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn clear_buffer (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . clear_buffer ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_buffer (& self , frames : i64) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_buffer ; let ret = crate :: icalls :: icallptr_vec2arr_i64 (method_bind , self . this . sys () . as_ptr () , frames) ; Vector2Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn buffer_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_buffer_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_buffer_length_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_buffer_length_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_discarded_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_discarded_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_frames_available (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_frames_available ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_pushed_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_pushed_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_buffer_length (& self , buffer_length_seconds : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . set_buffer_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , buffer_length_seconds) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectCapture { } unsafe impl GodotObject for AudioEffectCapture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectCapture" } } impl std :: ops :: Deref for AudioEffectCapture { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectCapture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectCapture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectCapture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectCapture { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectCapture { } impl Instanciable for AudioEffectCapture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectCapture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectCaptureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub can_get_buffer : * mut sys :: godot_method_bind , pub clear_buffer : * mut sys :: godot_method_bind , pub get_buffer : * mut sys :: godot_method_bind , pub get_buffer_length : * mut sys :: godot_method_bind , pub get_buffer_length_frames : * mut sys :: godot_method_bind , pub get_discarded_frames : * mut sys :: godot_method_bind , pub get_frames_available : * mut sys :: godot_method_bind , pub get_pushed_frames : * mut sys :: godot_method_bind , pub set_buffer_length : * mut sys :: godot_method_bind } impl AudioEffectCaptureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectCaptureMethodTable = AudioEffectCaptureMethodTable { class_constructor : None , can_get_buffer : 0 as * mut sys :: godot_method_bind , clear_buffer : 0 as * mut sys :: godot_method_bind , get_buffer : 0 as * mut sys :: godot_method_bind , get_buffer_length : 0 as * mut sys :: godot_method_bind , get_buffer_length_frames : 0 as * mut sys :: godot_method_bind , get_discarded_frames : 0 as * mut sys :: godot_method_bind , get_frames_available : 0 as * mut sys :: godot_method_bind , get_pushed_frames : 0 as * mut sys :: godot_method_bind , set_buffer_length : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectCaptureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectCapture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . can_get_buffer = (gd_api . godot_method_bind_get_method) (class_name , "can_get_buffer\0" . as_ptr () as * const c_char) ; table . clear_buffer = (gd_api . godot_method_bind_get_method) (class_name , "clear_buffer\0" . as_ptr () as * const c_char) ; table . get_buffer = (gd_api . godot_method_bind_get_method) (class_name , "get_buffer\0" . as_ptr () as * const c_char) ; table . get_buffer_length = (gd_api . godot_method_bind_get_method) (class_name , "get_buffer_length\0" . as_ptr () as * const c_char) ; table . get_buffer_length_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_buffer_length_frames\0" . as_ptr () as * const c_char) ; table . get_discarded_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_discarded_frames\0" . as_ptr () as * const c_char) ; table . get_frames_available = (gd_api . godot_method_bind_get_method) (class_name , "get_frames_available\0" . as_ptr () as * const c_char) ; table . get_pushed_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_pushed_frames\0" . as_ptr () as * const c_char) ; table . set_buffer_length = (gd_api . godot_method_bind_get_method) (class_name , "set_buffer_length\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:532:15877 [INFO] [stdout] | [INFO] [stdout] 532 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 532 | # [doc = "`core singleton class ClassDB` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_classdb.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nClassDB inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ClassDB { this : RawObject < Self > , } impl ClassDB { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("ClassDB\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Returns `true` if you can instance objects from the specified `class`, `false` in other case."] # [doc = ""] # [inline] pub fn can_instance (& self , class : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . can_instance ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; ret as _ } } # [doc = "Returns whether the specified `class` is available or not."] # [doc = ""] # [inline] pub fn class_exists (& self , class : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_exists ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; ret as _ } } # [doc = "Returns a category associated with the class for use in documentation and the Asset Library. Debug mode required."] # [doc = ""] # [inline] pub fn class_get_category (& self , class : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_category ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the value of the integer constant `name` of `class` or its ancestry. Always returns 0 when the constant could not be found."] # [doc = ""] # [inline] pub fn class_get_integer_constant (& self , class : impl Into < GodotString > , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_integer_constant ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , class . into () , name . into ()) ; ret as _ } } # [doc = "Returns an array with the names all the integer constants of `class` or its ancestry.\n# Default Arguments\n* `no_inheritance` - `false`"] # [doc = ""] # [inline] pub fn class_get_integer_constant_list (& self , class : impl Into < GodotString > , no_inheritance : bool) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_integer_constant_list ; let ret = crate :: icalls :: icallptr_strarr_str_bool (method_bind , self . this . sys () . as_ptr () , class . into () , no_inheritance) ; StringArray :: from_sys (ret) } } # [doc = "Returns an array with all the methods of `class` or its ancestry if `no_inheritance` is `false`. Every element of the array is a [Dictionary] with the following keys: `args`, `default_args`, `flags`, `id`, `name`, `return: (class_name, hint, hint_string, name, type, usage)`.\n# Default Arguments\n* `no_inheritance` - `false`"] # [doc = ""] # [inline] pub fn class_get_method_list (& self , class : impl Into < GodotString > , no_inheritance : bool) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_method_list ; let ret = crate :: icalls :: icallvar__str_bool (method_bind , self . this . sys () . as_ptr () , class . into () , no_inheritance) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the value of `property` of `class` or its ancestry."] # [doc = ""] # [inline] pub fn class_get_property (& self , object : impl AsArg < crate :: generated :: object :: Object > , property : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_property ; let ret = crate :: icalls :: icallptr_var_obj_str (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr () , property . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns an array with all the properties of `class` or its ancestry if `no_inheritance` is `false`.\n# Default Arguments\n* `no_inheritance` - `false`"] # [doc = ""] # [inline] pub fn class_get_property_list (& self , class : impl Into < GodotString > , no_inheritance : bool) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_property_list ; let ret = crate :: icalls :: icallvar__str_bool (method_bind , self . this . sys () . as_ptr () , class . into () , no_inheritance) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the `signal` data of `class` or its ancestry. The returned value is a [Dictionary] with the following keys: `args`, `default_args`, `flags`, `id`, `name`, `return: (class_name, hint, hint_string, name, type, usage)`."] # [doc = ""] # [inline] pub fn class_get_signal (& self , class : impl Into < GodotString > , signal : impl Into < GodotString >) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_signal ; let ret = crate :: icalls :: icallptr_dict_str_str (method_bind , self . this . sys () . as_ptr () , class . into () , signal . into ()) ; Dictionary :: from_sys (ret) } } # [doc = "Returns an array with all the signals of `class` or its ancestry if `no_inheritance` is `false`. Every element of the array is a [Dictionary] as described in [method class_get_signal].\n# Default Arguments\n* `no_inheritance` - `false`"] # [doc = ""] # [inline] pub fn class_get_signal_list (& self , class : impl Into < GodotString > , no_inheritance : bool) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_get_signal_list ; let ret = crate :: icalls :: icallvar__str_bool (method_bind , self . this . sys () . as_ptr () , class . into () , no_inheritance) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns whether `class` or its ancestry has an integer constant called `name` or not."] # [doc = ""] # [inline] pub fn class_has_integer_constant (& self , class : impl Into < GodotString > , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_has_integer_constant ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , class . into () , name . into ()) ; ret as _ } } # [doc = "Returns whether `class` (or its ancestry if `no_inheritance` is `false`) has a method called `method` or not.\n# Default Arguments\n* `no_inheritance` - `false`"] # [doc = ""] # [inline] pub fn class_has_method (& self , class : impl Into < GodotString > , method : impl Into < GodotString > , no_inheritance : bool) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_has_method ; let ret = crate :: icalls :: icallptr_bool_str_str_bool (method_bind , self . this . sys () . as_ptr () , class . into () , method . into () , no_inheritance) ; ret as _ } } # [doc = "Returns whether `class` or its ancestry has a signal called `signal` or not."] # [doc = ""] # [inline] pub fn class_has_signal (& self , class : impl Into < GodotString > , signal : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_has_signal ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , class . into () , signal . into ()) ; ret as _ } } # [doc = "Sets `property` value of `class` to `value`."] # [doc = ""] # [inline] pub fn class_set_property (& self , object : impl AsArg < crate :: generated :: object :: Object > , property : impl Into < GodotString > , value : impl OwnedToVariant) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . class_set_property ; let ret = crate :: icalls :: icallptr_i64_obj_str_var (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr () , property . into () , value . owned_to_variant ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Returns the names of all the classes available."] # [doc = ""] # [inline] pub fn get_class_list (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . get_class_list ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the names of all the classes that directly or indirectly inherit from `class`."] # [doc = ""] # [inline] pub fn get_inheriters_from_class (& self , class : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . get_inheriters_from_class ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the parent class of `class`."] # [doc = ""] # [inline] pub fn get_parent_class (& self , class : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . get_parent_class ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Creates an instance of `class`."] # [doc = ""] # [inline] pub fn instance (& self , class : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . instance ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns whether this `class` is enabled or not."] # [doc = ""] # [inline] pub fn is_class_enabled (& self , class : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . is_class_enabled ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; ret as _ } } # [doc = "Returns whether `inherits` is an ancestor of `class` or not."] # [doc = ""] # [inline] pub fn is_parent_class (& self , class : impl Into < GodotString > , inherits : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClassDBMethodTable :: get (get_api ()) . is_parent_class ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , class . into () , inherits . into ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for ClassDB { } unsafe impl GodotObject for ClassDB { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ClassDB" } } impl std :: ops :: Deref for ClassDB { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ClassDB { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for ClassDB { } unsafe impl Send for ClassDB { } unsafe impl Sync for ClassDB { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ClassDBMethodTable { pub class_constructor : sys :: godot_class_constructor , pub can_instance : * mut sys :: godot_method_bind , pub class_exists : * mut sys :: godot_method_bind , pub class_get_category : * mut sys :: godot_method_bind , pub class_get_integer_constant : * mut sys :: godot_method_bind , pub class_get_integer_constant_list : * mut sys :: godot_method_bind , pub class_get_method_list : * mut sys :: godot_method_bind , pub class_get_property : * mut sys :: godot_method_bind , pub class_get_property_list : * mut sys :: godot_method_bind , pub class_get_signal : * mut sys :: godot_method_bind , pub class_get_signal_list : * mut sys :: godot_method_bind , pub class_has_integer_constant : * mut sys :: godot_method_bind , pub class_has_method : * mut sys :: godot_method_bind , pub class_has_signal : * mut sys :: godot_method_bind , pub class_set_property : * mut sys :: godot_method_bind , pub get_class_list : * mut sys :: godot_method_bind , pub get_inheriters_from_class : * mut sys :: godot_method_bind , pub get_parent_class : * mut sys :: godot_method_bind , pub instance : * mut sys :: godot_method_bind , pub is_class_enabled : * mut sys :: godot_method_bind , pub is_parent_class : * mut sys :: godot_method_bind } impl ClassDBMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ClassDBMethodTable = ClassDBMethodTable { class_constructor : None , can_instance : 0 as * mut sys :: godot_method_bind , class_exists : 0 as * mut sys :: godot_method_bind , class_get_category : 0 as * mut sys :: godot_method_bind , class_get_integer_constant : 0 as * mut sys :: godot_method_bind , class_get_integer_constant_list : 0 as * mut sys :: godot_method_bind , class_get_method_list : 0 as * mut sys :: godot_method_bind , class_get_property : 0 as * mut sys :: godot_method_bind , class_get_property_list : 0 as * mut sys :: godot_method_bind , class_get_signal : 0 as * mut sys :: godot_method_bind , class_get_signal_list : 0 as * mut sys :: godot_method_bind , class_has_integer_constant : 0 as * mut sys :: godot_method_bind , class_has_method : 0 as * mut sys :: godot_method_bind , class_has_signal : 0 as * mut sys :: godot_method_bind , class_set_property : 0 as * mut sys :: godot_method_bind , get_class_list : 0 as * mut sys :: godot_method_bind , get_inheriters_from_class : 0 as * mut sys :: godot_method_bind , get_parent_class : 0 as * mut sys :: godot_method_bind , instance : 0 as * mut sys :: godot_method_bind , is_class_enabled : 0 as * mut sys :: godot_method_bind , is_parent_class : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ClassDBMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "_ClassDB\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . can_instance = (gd_api . godot_method_bind_get_method) (class_name , "can_instance\0" . as_ptr () as * const c_char) ; table . class_exists = (gd_api . godot_method_bind_get_method) (class_name , "class_exists\0" . as_ptr () as * const c_char) ; table . class_get_category = (gd_api . godot_method_bind_get_method) (class_name , "class_get_category\0" . as_ptr () as * const c_char) ; table . class_get_integer_constant = (gd_api . godot_method_bind_get_method) (class_name , "class_get_integer_constant\0" . as_ptr () as * const c_char) ; table . class_get_integer_constant_list = (gd_api . godot_method_bind_get_method) (class_name , "class_get_integer_constant_list\0" . as_ptr () as * const c_char) ; table . class_get_method_list = (gd_api . godot_method_bind_get_method) (class_name , "class_get_method_list\0" . as_ptr () as * const c_char) ; table . class_get_property = (gd_api . godot_method_bind_get_method) (class_name , "class_get_property\0" . as_ptr () as * const c_char) ; table . class_get_property_list = (gd_api . godot_method_bind_get_method) (class_name , "class_get_property_list\0" . as_ptr () as * const c_char) ; table . class_get_signal = (gd_api . godot_method_bind_get_method) (class_name , "class_get_signal\0" . as_ptr () as * const c_char) ; table . class_get_signal_list = (gd_api . godot_method_bind_get_method) (class_name , "class_get_signal_list\0" . as_ptr () as * const c_char) ; table . class_has_integer_constant = (gd_api . godot_method_bind_get_method) (class_name , "class_has_integer_constant\0" . as_ptr () as * const c_char) ; table . class_has_method = (gd_api . godot_method_bind_get_method) (class_name , "class_has_method\0" . as_ptr () as * const c_char) ; table . class_has_signal = (gd_api . godot_method_bind_get_method) (class_name , "class_has_signal\0" . as_ptr () as * const c_char) ; table . class_set_property = (gd_api . godot_method_bind_get_method) (class_name , "class_set_property\0" . as_ptr () as * const c_char) ; table . get_class_list = (gd_api . godot_method_bind_get_method) (class_name , "get_class_list\0" . as_ptr () as * const c_char) ; table . get_inheriters_from_class = (gd_api . godot_method_bind_get_method) (class_name , "get_inheriters_from_class\0" . as_ptr () as * const c_char) ; table . get_parent_class = (gd_api . godot_method_bind_get_method) (class_name , "get_parent_class\0" . as_ptr () as * const c_char) ; table . instance = (gd_api . godot_method_bind_get_method) (class_name , "instance\0" . as_ptr () as * const c_char) ; table . is_class_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_class_enabled\0" . as_ptr () as * const c_char) ; table . is_parent_class = (gd_api . godot_method_bind_get_method) (class_name , "is_parent_class\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:538:16499 [INFO] [stdout] | [INFO] [stdout] 538 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 538 | # [doc = "`core class SurfaceTool` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_surfacetool.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nSurfaceTool inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct SurfaceTool { this : RawObject < Self > , } impl SurfaceTool { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = SurfaceToolMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds an array of bones for the next vertex to use. `bones` must contain 4 integers."] # [doc = ""] # [inline] pub fn add_bones (& self , bones : Int32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_bones ; let ret = crate :: icalls :: icallptr_void_i32arr (method_bind , self . this . sys () . as_ptr () , bones) ; } } # [doc = "Specifies a [Color] for the next vertex to use."] # [doc = ""] # [inline] pub fn add_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Adds an index to index array if you are using indexed vertices. Does not need to be called before adding vertices."] # [doc = ""] # [inline] pub fn add_index (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_index ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "Specifies a normal for the next vertex to use."] # [doc = ""] # [inline] pub fn add_normal (& self , normal : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_normal ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , normal) ; } } # [doc = "Specifies whether the current vertex (if using only vertex arrays) or current index (if also using index arrays) should use smooth normals for normal calculation."] # [doc = ""] # [inline] pub fn add_smooth_group (& self , smooth : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_smooth_group ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , smooth) ; } } # [doc = "Specifies a tangent for the next vertex to use."] # [doc = ""] # [inline] pub fn add_tangent (& self , tangent : Plane) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_tangent ; let ret = crate :: icalls :: icallptr_void_plane (method_bind , self . this . sys () . as_ptr () , tangent) ; } } # [doc = "Inserts a triangle fan made of array data into [Mesh] being constructed.\nRequires the primitive type be set to [constant Mesh.PRIMITIVE_TRIANGLES].\n# Default Arguments\n* `uvs` - `PoolVector2Array( )`\n* `colors` - `PoolColorArray( )`\n* `uv2s` - `PoolVector2Array( )`\n* `normals` - `PoolVector3Array( )`\n* `tangents` - `[ ]`"] # [doc = ""] # [inline] pub fn add_triangle_fan (& self , vertices : Vector3Array , uvs : Vector2Array , colors : ColorArray , uv2s : Vector2Array , normals : Vector3Array , tangents : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_triangle_fan ; let ret = crate :: icalls :: icallptr_void_vec3arr_vec2arr_colorarr_vec2arr_vec3arr_arr (method_bind , self . this . sys () . as_ptr () , vertices , uvs , colors , uv2s , normals , tangents) ; } } # [doc = "Specifies a set of UV coordinates to use for the next vertex."] # [doc = ""] # [inline] pub fn add_uv (& self , uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_uv ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , uv) ; } } # [doc = "Specifies an optional second set of UV coordinates to use for the next vertex."] # [doc = ""] # [inline] pub fn add_uv2 (& self , uv2 : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_uv2 ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , uv2) ; } } # [doc = "Specifies the position of current vertex. Should be called after specifying other vertex properties (e.g. Color, UV)."] # [doc = ""] # [inline] pub fn add_vertex (& self , vertex : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_vertex ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , vertex) ; } } # [doc = "Specifies weight values for next vertex to use. `weights` must contain 4 values."] # [doc = ""] # [inline] pub fn add_weights (& self , weights : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . add_weights ; let ret = crate :: icalls :: icallptr_void_f32arr (method_bind , self . this . sys () . as_ptr () , weights) ; } } # [doc = "Append vertices from a given [Mesh] surface onto the current vertex array with specified [Transform]."] # [doc = ""] # [inline] pub fn append_from (& self , existing : impl AsArg < crate :: generated :: mesh :: Mesh > , surface : i64 , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . append_from ; let ret = crate :: icalls :: icallptr_void_obj_i64_trans (method_bind , self . this . sys () . as_ptr () , existing . as_arg_ptr () , surface , transform) ; } } # [doc = "Called before adding any vertices. Takes the primitive type as an argument (e.g. [constant Mesh.PRIMITIVE_TRIANGLES])."] # [doc = ""] # [inline] pub fn begin (& self , primitive : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . begin ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , primitive) ; } } # [doc = "Clear all information passed into the surface tool so far."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns a constructed [ArrayMesh] from current information passed in. If an existing [ArrayMesh] is passed in as an argument, will add an extra surface to the existing [ArrayMesh].\nDefault flag is [constant Mesh.ARRAY_COMPRESS_DEFAULT]. See `ARRAY_COMPRESS_*` constants in [enum Mesh.ArrayFormat] for other flags.\n# Default Arguments\n* `existing` - `null`\n* `flags` - `97280`"] # [doc = ""] # [inline] pub fn commit (& self , existing : impl AsArg < crate :: generated :: array_mesh :: ArrayMesh > , flags : i64) -> Option < Ref < crate :: generated :: array_mesh :: ArrayMesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . commit ; let ret = crate :: icalls :: icallptr_obj_obj_i64 (method_bind , self . this . sys () . as_ptr () , existing . as_arg_ptr () , flags) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: array_mesh :: ArrayMesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Commits the data to the same format used by [method ArrayMesh.add_surface_from_arrays]. This way you can further process the mesh data using the [ArrayMesh] API."] # [doc = ""] # [inline] pub fn commit_to_arrays (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . commit_to_arrays ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Creates a vertex array from an existing [Mesh]."] # [doc = ""] # [inline] pub fn create_from (& self , existing : impl AsArg < crate :: generated :: mesh :: Mesh > , surface : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . create_from ; let ret = crate :: icalls :: icallptr_void_obj_i64 (method_bind , self . this . sys () . as_ptr () , existing . as_arg_ptr () , surface) ; } } # [doc = "Creates a vertex array from the specified blend shape of an existing [Mesh]. This can be used to extract a specific pose from a blend shape."] # [doc = ""] # [inline] pub fn create_from_blend_shape (& self , existing : impl AsArg < crate :: generated :: mesh :: Mesh > , surface : i64 , blend_shape : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . create_from_blend_shape ; let ret = crate :: icalls :: icallptr_void_obj_i64_str (method_bind , self . this . sys () . as_ptr () , existing . as_arg_ptr () , surface , blend_shape . into ()) ; } } # [doc = "Removes the index array by expanding the vertex array."] # [doc = ""] # [inline] pub fn deindex (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . deindex ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Generates normals from vertices so you do not have to do it manually. If `flip` is `true`, the resulting normals will be inverted.\nRequires the primitive type to be set to [constant Mesh.PRIMITIVE_TRIANGLES].\n# Default Arguments\n* `flip` - `false`"] # [doc = ""] # [inline] pub fn generate_normals (& self , flip : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . generate_normals ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , flip) ; } } # [doc = "Generates a tangent vector for each vertex. Requires that each vertex have UVs and normals set already."] # [doc = ""] # [inline] pub fn generate_tangents (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . generate_tangents ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Shrinks the vertex array by creating an index array (avoids reusing vertices)."] # [doc = ""] # [inline] pub fn index (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . index ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sets [Material] to be used by the [Mesh] you are constructing."] # [doc = ""] # [inline] pub fn set_material (& self , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SurfaceToolMethodTable :: get (get_api ()) . set_material ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , material . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SurfaceTool { } unsafe impl GodotObject for SurfaceTool { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "SurfaceTool" } } impl std :: ops :: Deref for SurfaceTool { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SurfaceTool { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for SurfaceTool { } unsafe impl SubClass < crate :: generated :: object :: Object > for SurfaceTool { } impl Instanciable for SurfaceTool { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SurfaceTool :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SurfaceToolMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_bones : * mut sys :: godot_method_bind , pub add_color : * mut sys :: godot_method_bind , pub add_index : * mut sys :: godot_method_bind , pub add_normal : * mut sys :: godot_method_bind , pub add_smooth_group : * mut sys :: godot_method_bind , pub add_tangent : * mut sys :: godot_method_bind , pub add_triangle_fan : * mut sys :: godot_method_bind , pub add_uv : * mut sys :: godot_method_bind , pub add_uv2 : * mut sys :: godot_method_bind , pub add_vertex : * mut sys :: godot_method_bind , pub add_weights : * mut sys :: godot_method_bind , pub append_from : * mut sys :: godot_method_bind , pub begin : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub commit : * mut sys :: godot_method_bind , pub commit_to_arrays : * mut sys :: godot_method_bind , pub create_from : * mut sys :: godot_method_bind , pub create_from_blend_shape : * mut sys :: godot_method_bind , pub deindex : * mut sys :: godot_method_bind , pub generate_normals : * mut sys :: godot_method_bind , pub generate_tangents : * mut sys :: godot_method_bind , pub index : * mut sys :: godot_method_bind , pub set_material : * mut sys :: godot_method_bind } impl SurfaceToolMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SurfaceToolMethodTable = SurfaceToolMethodTable { class_constructor : None , add_bones : 0 as * mut sys :: godot_method_bind , add_color : 0 as * mut sys :: godot_method_bind , add_index : 0 as * mut sys :: godot_method_bind , add_normal : 0 as * mut sys :: godot_method_bind , add_smooth_group : 0 as * mut sys :: godot_method_bind , add_tangent : 0 as * mut sys :: godot_method_bind , add_triangle_fan : 0 as * mut sys :: godot_method_bind , add_uv : 0 as * mut sys :: godot_method_bind , add_uv2 : 0 as * mut sys :: godot_method_bind , add_vertex : 0 as * mut sys :: godot_method_bind , add_weights : 0 as * mut sys :: godot_method_bind , append_from : 0 as * mut sys :: godot_method_bind , begin : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , commit : 0 as * mut sys :: godot_method_bind , commit_to_arrays : 0 as * mut sys :: godot_method_bind , create_from : 0 as * mut sys :: godot_method_bind , create_from_blend_shape : 0 as * mut sys :: godot_method_bind , deindex : 0 as * mut sys :: godot_method_bind , generate_normals : 0 as * mut sys :: godot_method_bind , generate_tangents : 0 as * mut sys :: godot_method_bind , index : 0 as * mut sys :: godot_method_bind , set_material : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SurfaceToolMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SurfaceTool\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_bones = (gd_api . godot_method_bind_get_method) (class_name , "add_bones\0" . as_ptr () as * const c_char) ; table . add_color = (gd_api . godot_method_bind_get_method) (class_name , "add_color\0" . as_ptr () as * const c_char) ; table . add_index = (gd_api . godot_method_bind_get_method) (class_name , "add_index\0" . as_ptr () as * const c_char) ; table . add_normal = (gd_api . godot_method_bind_get_method) (class_name , "add_normal\0" . as_ptr () as * const c_char) ; table . add_smooth_group = (gd_api . godot_method_bind_get_method) (class_name , "add_smooth_group\0" . as_ptr () as * const c_char) ; table . add_tangent = (gd_api . godot_method_bind_get_method) (class_name , "add_tangent\0" . as_ptr () as * const c_char) ; table . add_triangle_fan = (gd_api . godot_method_bind_get_method) (class_name , "add_triangle_fan\0" . as_ptr () as * const c_char) ; table . add_uv = (gd_api . godot_method_bind_get_method) (class_name , "add_uv\0" . as_ptr () as * const c_char) ; table . add_uv2 = (gd_api . godot_method_bind_get_method) (class_name , "add_uv2\0" . as_ptr () as * const c_char) ; table . add_vertex = (gd_api . godot_method_bind_get_method) (class_name , "add_vertex\0" . as_ptr () as * const c_char) ; table . add_weights = (gd_api . godot_method_bind_get_method) (class_name , "add_weights\0" . as_ptr () as * const c_char) ; table . append_from = (gd_api . godot_method_bind_get_method) (class_name , "append_from\0" . as_ptr () as * const c_char) ; table . begin = (gd_api . godot_method_bind_get_method) (class_name , "begin\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . commit = (gd_api . godot_method_bind_get_method) (class_name , "commit\0" . as_ptr () as * const c_char) ; table . commit_to_arrays = (gd_api . godot_method_bind_get_method) (class_name , "commit_to_arrays\0" . as_ptr () as * const c_char) ; table . create_from = (gd_api . godot_method_bind_get_method) (class_name , "create_from\0" . as_ptr () as * const c_char) ; table . create_from_blend_shape = (gd_api . godot_method_bind_get_method) (class_name , "create_from_blend_shape\0" . as_ptr () as * const c_char) ; table . deindex = (gd_api . godot_method_bind_get_method) (class_name , "deindex\0" . as_ptr () as * const c_char) ; table . generate_normals = (gd_api . godot_method_bind_get_method) (class_name , "generate_normals\0" . as_ptr () as * const c_char) ; table . generate_tangents = (gd_api . godot_method_bind_get_method) (class_name , "generate_tangents\0" . as_ptr () as * const c_char) ; table . index = (gd_api . godot_method_bind_get_method) (class_name , "index\0" . as_ptr () as * const c_char) ; table . set_material = (gd_api . godot_method_bind_get_method) (class_name , "set_material\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:544:8516 [INFO] [stdout] | [INFO] [stdout] 544 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 544 | # [doc = "`core class JSONRPC` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_jsonrpc.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`JSONRPC` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nJSONRPC inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct JSONRPC { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ErrorCode (pub i64) ; impl ErrorCode { pub const PARSE_ERROR : ErrorCode = ErrorCode (- 32700i64) ; pub const INTERNAL_ERROR : ErrorCode = ErrorCode (- 32603i64) ; pub const INVALID_PARAMS : ErrorCode = ErrorCode (- 32602i64) ; pub const METHOD_NOT_FOUND : ErrorCode = ErrorCode (- 32601i64) ; pub const INVALID_REQUEST : ErrorCode = ErrorCode (- 32600i64) ; } impl From < i64 > for ErrorCode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ErrorCode > for i64 { # [inline] fn from (v : ErrorCode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl JSONRPC { pub const INTERNAL_ERROR : i64 = - 32603i64 ; pub const INVALID_PARAMS : i64 = - 32602i64 ; pub const INVALID_REQUEST : i64 = - 32600i64 ; pub const METHOD_NOT_FOUND : i64 = - 32601i64 ; pub const PARSE_ERROR : i64 = - 32700i64 ; } impl JSONRPC { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = JSONRPCMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn make_notification (& self , method : impl Into < GodotString > , params : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_notification ; let ret = crate :: icalls :: icallptr_dict_str_var (method_bind , self . this . sys () . as_ptr () , method . into () , params . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn make_request (& self , method : impl Into < GodotString > , params : impl OwnedToVariant , id : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_request ; let ret = crate :: icalls :: icallptr_dict_str_var_var (method_bind , self . this . sys () . as_ptr () , method . into () , params . owned_to_variant () , id . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn make_response (& self , result : impl OwnedToVariant , id : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_response ; let ret = crate :: icalls :: icallptr_dict_var_var (method_bind , self . this . sys () . as_ptr () , result . owned_to_variant () , id . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = "\n# Default Arguments\n* `id` - `null`"] # [doc = ""] # [inline] pub fn make_response_error (& self , code : i64 , message : impl Into < GodotString > , id : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_response_error ; let ret = crate :: icalls :: icallptr_dict_i64_str_var (method_bind , self . this . sys () . as_ptr () , code , message . into () , id . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = "\n# Default Arguments\n* `recurse` - `false`"] # [doc = ""] # [inline] pub fn process_action (& self , action : impl OwnedToVariant , recurse : bool) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . process_action ; let ret = crate :: icalls :: icallptr_var_var_bool (method_bind , self . this . sys () . as_ptr () , action . owned_to_variant () , recurse) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn process_string (& self , action : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . process_string ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_scope (& self , scope : impl Into < GodotString > , target : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . set_scope ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , scope . into () , target . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for JSONRPC { } unsafe impl GodotObject for JSONRPC { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "JSONRPC" } } impl std :: ops :: Deref for JSONRPC { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for JSONRPC { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for JSONRPC { } impl Instanciable for JSONRPC { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { JSONRPC :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JSONRPCMethodTable { pub class_constructor : sys :: godot_class_constructor , pub make_notification : * mut sys :: godot_method_bind , pub make_request : * mut sys :: godot_method_bind , pub make_response : * mut sys :: godot_method_bind , pub make_response_error : * mut sys :: godot_method_bind , pub process_action : * mut sys :: godot_method_bind , pub process_string : * mut sys :: godot_method_bind , pub set_scope : * mut sys :: godot_method_bind } impl JSONRPCMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JSONRPCMethodTable = JSONRPCMethodTable { class_constructor : None , make_notification : 0 as * mut sys :: godot_method_bind , make_request : 0 as * mut sys :: godot_method_bind , make_response : 0 as * mut sys :: godot_method_bind , make_response_error : 0 as * mut sys :: godot_method_bind , process_action : 0 as * mut sys :: godot_method_bind , process_string : 0 as * mut sys :: godot_method_bind , set_scope : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JSONRPCMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "JSONRPC\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . make_notification = (gd_api . godot_method_bind_get_method) (class_name , "make_notification\0" . as_ptr () as * const c_char) ; table . make_request = (gd_api . godot_method_bind_get_method) (class_name , "make_request\0" . as_ptr () as * const c_char) ; table . make_response = (gd_api . godot_method_bind_get_method) (class_name , "make_response\0" . as_ptr () as * const c_char) ; table . make_response_error = (gd_api . godot_method_bind_get_method) (class_name , "make_response_error\0" . as_ptr () as * const c_char) ; table . process_action = (gd_api . godot_method_bind_get_method) (class_name , "process_action\0" . as_ptr () as * const c_char) ; table . process_string = (gd_api . godot_method_bind_get_method) (class_name , "process_string\0" . as_ptr () as * const c_char) ; table . set_scope = (gd_api . godot_method_bind_get_method) (class_name , "set_scope\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:550:7110 [INFO] [stdout] | [INFO] [stdout] 550 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 550 | # [doc = "`core singleton class TranslationServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_translationserver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nTranslationServer inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct TranslationServer { this : RawObject < Self > , } impl TranslationServer { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("TranslationServer\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Adds a [Translation] resource."] # [doc = ""] # [inline] pub fn add_translation (& self , translation : impl AsArg < crate :: generated :: translation :: Translation >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . add_translation ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , translation . as_arg_ptr ()) ; } } # [doc = "Clears the server from all translations."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns an Array of all loaded locales of the game."] # [doc = ""] # [inline] pub fn get_loaded_locales (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . get_loaded_locales ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the current locale of the game."] # [doc = ""] # [inline] pub fn get_locale (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . get_locale ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns a locale's language and its variant (e.g. `\"en_US\"` would return `\"English (United States)\"`)."] # [doc = ""] # [inline] pub fn get_locale_name (& self , locale : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . get_locale_name ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , locale . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Removes the given translation from the server."] # [doc = ""] # [inline] pub fn remove_translation (& self , translation : impl AsArg < crate :: generated :: translation :: Translation >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . remove_translation ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , translation . as_arg_ptr ()) ; } } # [doc = "Sets the locale of the game."] # [doc = ""] # [inline] pub fn set_locale (& self , locale : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . set_locale ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , locale . into ()) ; } } # [doc = "Returns the current locale's translation for the given message (key)."] # [doc = ""] # [inline] pub fn translate (& self , message : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = TranslationServerMethodTable :: get (get_api ()) . translate ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , message . into ()) ; GodotString :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for TranslationServer { } unsafe impl GodotObject for TranslationServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "TranslationServer" } } impl std :: ops :: Deref for TranslationServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TranslationServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for TranslationServer { } unsafe impl Send for TranslationServer { } unsafe impl Sync for TranslationServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TranslationServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_translation : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_loaded_locales : * mut sys :: godot_method_bind , pub get_locale : * mut sys :: godot_method_bind , pub get_locale_name : * mut sys :: godot_method_bind , pub remove_translation : * mut sys :: godot_method_bind , pub set_locale : * mut sys :: godot_method_bind , pub translate : * mut sys :: godot_method_bind } impl TranslationServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TranslationServerMethodTable = TranslationServerMethodTable { class_constructor : None , add_translation : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_loaded_locales : 0 as * mut sys :: godot_method_bind , get_locale : 0 as * mut sys :: godot_method_bind , get_locale_name : 0 as * mut sys :: godot_method_bind , remove_translation : 0 as * mut sys :: godot_method_bind , set_locale : 0 as * mut sys :: godot_method_bind , translate : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TranslationServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TranslationServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_translation = (gd_api . godot_method_bind_get_method) (class_name , "add_translation\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . get_loaded_locales = (gd_api . godot_method_bind_get_method) (class_name , "get_loaded_locales\0" . as_ptr () as * const c_char) ; table . get_locale = (gd_api . godot_method_bind_get_method) (class_name , "get_locale\0" . as_ptr () as * const c_char) ; table . get_locale_name = (gd_api . godot_method_bind_get_method) (class_name , "get_locale_name\0" . as_ptr () as * const c_char) ; table . remove_translation = (gd_api . godot_method_bind_get_method) (class_name , "remove_translation\0" . as_ptr () as * const c_char) ; table . set_locale = (gd_api . godot_method_bind_get_method) (class_name , "set_locale\0" . as_ptr () as * const c_char) ; table . translate = (gd_api . godot_method_bind_get_method) (class_name , "translate\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:556:40845 [INFO] [stdout] | [INFO] [stdout] 556 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 556 | # [doc = "`core class Image` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_image.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nImage inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Image { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AlphaMode (pub i64) ; impl AlphaMode { pub const NONE : AlphaMode = AlphaMode (0i64) ; pub const BIT : AlphaMode = AlphaMode (1i64) ; pub const BLEND : AlphaMode = AlphaMode (2i64) ; } impl From < i64 > for AlphaMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AlphaMode > for i64 { # [inline] fn from (v : AlphaMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CompressMode (pub i64) ; impl CompressMode { pub const S3TC : CompressMode = CompressMode (0i64) ; pub const PVRTC2 : CompressMode = CompressMode (1i64) ; pub const PVRTC4 : CompressMode = CompressMode (2i64) ; pub const ETC : CompressMode = CompressMode (3i64) ; pub const ETC2 : CompressMode = CompressMode (4i64) ; } impl From < i64 > for CompressMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CompressMode > for i64 { # [inline] fn from (v : CompressMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CompressSource (pub i64) ; impl CompressSource { pub const GENERIC : CompressSource = CompressSource (0i64) ; pub const SRGB : CompressSource = CompressSource (1i64) ; pub const NORMAL : CompressSource = CompressSource (2i64) ; } impl From < i64 > for CompressSource { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CompressSource > for i64 { # [inline] fn from (v : CompressSource) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Format (pub i64) ; impl Format { pub const L8 : Format = Format (0i64) ; pub const LA8 : Format = Format (1i64) ; pub const R8 : Format = Format (2i64) ; pub const RG8 : Format = Format (3i64) ; pub const RGB8 : Format = Format (4i64) ; pub const RGBA8 : Format = Format (5i64) ; pub const RGBA4444 : Format = Format (6i64) ; pub const RGBA5551 : Format = Format (7i64) ; pub const RF : Format = Format (8i64) ; pub const RGF : Format = Format (9i64) ; pub const RGBF : Format = Format (10i64) ; pub const RGBAF : Format = Format (11i64) ; pub const RH : Format = Format (12i64) ; pub const RGH : Format = Format (13i64) ; pub const RGBH : Format = Format (14i64) ; pub const RGBAH : Format = Format (15i64) ; pub const RGBE9995 : Format = Format (16i64) ; pub const DXT1 : Format = Format (17i64) ; pub const DXT3 : Format = Format (18i64) ; pub const DXT5 : Format = Format (19i64) ; pub const RGTC_R : Format = Format (20i64) ; pub const RGTC_RG : Format = Format (21i64) ; pub const BPTC_RGBA : Format = Format (22i64) ; pub const BPTC_RGBF : Format = Format (23i64) ; pub const BPTC_RGBFU : Format = Format (24i64) ; pub const PVRTC2 : Format = Format (25i64) ; pub const PVRTC2A : Format = Format (26i64) ; pub const PVRTC4 : Format = Format (27i64) ; pub const PVRTC4A : Format = Format (28i64) ; pub const ETC : Format = Format (29i64) ; pub const ETC2_R11 : Format = Format (30i64) ; pub const ETC2_R11S : Format = Format (31i64) ; pub const ETC2_RG11 : Format = Format (32i64) ; pub const ETC2_RG11S : Format = Format (33i64) ; pub const ETC2_RGB8 : Format = Format (34i64) ; pub const ETC2_RGBA8 : Format = Format (35i64) ; pub const ETC2_RGB8A1 : Format = Format (36i64) ; pub const MAX : Format = Format (37i64) ; } impl From < i64 > for Format { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Format > for i64 { # [inline] fn from (v : Format) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Interpolation (pub i64) ; impl Interpolation { pub const NEAREST : Interpolation = Interpolation (0i64) ; pub const BILINEAR : Interpolation = Interpolation (1i64) ; pub const CUBIC : Interpolation = Interpolation (2i64) ; pub const TRILINEAR : Interpolation = Interpolation (3i64) ; pub const LANCZOS : Interpolation = Interpolation (4i64) ; } impl From < i64 > for Interpolation { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Interpolation > for i64 { # [inline] fn from (v : Interpolation) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Image { pub const ALPHA_BIT : i64 = 1i64 ; pub const ALPHA_BLEND : i64 = 2i64 ; pub const ALPHA_NONE : i64 = 0i64 ; pub const COMPRESS_ETC : i64 = 3i64 ; pub const COMPRESS_ETC2 : i64 = 4i64 ; pub const COMPRESS_PVRTC2 : i64 = 1i64 ; pub const COMPRESS_PVRTC4 : i64 = 2i64 ; pub const COMPRESS_S3TC : i64 = 0i64 ; pub const COMPRESS_SOURCE_GENERIC : i64 = 0i64 ; pub const COMPRESS_SOURCE_NORMAL : i64 = 2i64 ; pub const COMPRESS_SOURCE_SRGB : i64 = 1i64 ; pub const FORMAT_BPTC_RGBA : i64 = 22i64 ; pub const FORMAT_BPTC_RGBF : i64 = 23i64 ; pub const FORMAT_BPTC_RGBFU : i64 = 24i64 ; pub const FORMAT_DXT1 : i64 = 17i64 ; pub const FORMAT_DXT3 : i64 = 18i64 ; pub const FORMAT_DXT5 : i64 = 19i64 ; pub const FORMAT_ETC : i64 = 29i64 ; pub const FORMAT_ETC2_R11 : i64 = 30i64 ; pub const FORMAT_ETC2_R11S : i64 = 31i64 ; pub const FORMAT_ETC2_RG11 : i64 = 32i64 ; pub const FORMAT_ETC2_RG11S : i64 = 33i64 ; pub const FORMAT_ETC2_RGB8 : i64 = 34i64 ; pub const FORMAT_ETC2_RGB8A1 : i64 = 36i64 ; pub const FORMAT_ETC2_RGBA8 : i64 = 35i64 ; pub const FORMAT_L8 : i64 = 0i64 ; pub const FORMAT_LA8 : i64 = 1i64 ; pub const FORMAT_MAX : i64 = 37i64 ; pub const FORMAT_PVRTC2 : i64 = 25i64 ; pub const FORMAT_PVRTC2A : i64 = 26i64 ; pub const FORMAT_PVRTC4 : i64 = 27i64 ; pub const FORMAT_PVRTC4A : i64 = 28i64 ; pub const FORMAT_R8 : i64 = 2i64 ; pub const FORMAT_RF : i64 = 8i64 ; pub const FORMAT_RG8 : i64 = 3i64 ; pub const FORMAT_RGB8 : i64 = 4i64 ; pub const FORMAT_RGBA4444 : i64 = 6i64 ; pub const FORMAT_RGBA5551 : i64 = 7i64 ; pub const FORMAT_RGBA8 : i64 = 5i64 ; pub const FORMAT_RGBAF : i64 = 11i64 ; pub const FORMAT_RGBAH : i64 = 15i64 ; pub const FORMAT_RGBE9995 : i64 = 16i64 ; pub const FORMAT_RGBF : i64 = 10i64 ; pub const FORMAT_RGBH : i64 = 14i64 ; pub const FORMAT_RGF : i64 = 9i64 ; pub const FORMAT_RGH : i64 = 13i64 ; pub const FORMAT_RGTC_R : i64 = 20i64 ; pub const FORMAT_RGTC_RG : i64 = 21i64 ; pub const FORMAT_RH : i64 = 12i64 ; pub const INTERPOLATE_BILINEAR : i64 = 1i64 ; pub const INTERPOLATE_CUBIC : i64 = 2i64 ; pub const INTERPOLATE_LANCZOS : i64 = 4i64 ; pub const INTERPOLATE_NEAREST : i64 = 0i64 ; pub const INTERPOLATE_TRILINEAR : i64 = 3i64 ; pub const MAX_HEIGHT : i64 = 16384i64 ; pub const MAX_WIDTH : i64 = 16384i64 ; } impl Image { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ImageMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Alpha-blends `src_rect` from `src` image to this image at coordinates `dest`."] # [doc = ""] # [inline] pub fn blend_rect (& self , src : impl AsArg < crate :: generated :: image :: Image > , src_rect : Rect2 , dst : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . blend_rect ; let ret = crate :: icalls :: icallptr_void_obj_rect2_vec2 (method_bind , self . this . sys () . as_ptr () , src . as_arg_ptr () , src_rect , dst) ; } } # [doc = "Alpha-blends `src_rect` from `src` image to this image using `mask` image at coordinates `dst`. Alpha channels are required for both `src` and `mask`. `dst` pixels and `src` pixels will blend if the corresponding mask pixel's alpha value is not 0. `src` image and `mask` image **must** have the same size (width and height) but they can have different formats."] # [doc = ""] # [inline] pub fn blend_rect_mask (& self , src : impl AsArg < crate :: generated :: image :: Image > , mask : impl AsArg < crate :: generated :: image :: Image > , src_rect : Rect2 , dst : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . blend_rect_mask ; let ret = crate :: icalls :: icallptr_void_obj_obj_rect2_vec2 (method_bind , self . this . sys () . as_ptr () , src . as_arg_ptr () , mask . as_arg_ptr () , src_rect , dst) ; } } # [doc = "Copies `src_rect` from `src` image to this image at coordinates `dst`."] # [doc = ""] # [inline] pub fn blit_rect (& self , src : impl AsArg < crate :: generated :: image :: Image > , src_rect : Rect2 , dst : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . blit_rect ; let ret = crate :: icalls :: icallptr_void_obj_rect2_vec2 (method_bind , self . this . sys () . as_ptr () , src . as_arg_ptr () , src_rect , dst) ; } } # [doc = "Blits `src_rect` area from `src` image to this image at the coordinates given by `dst`. `src` pixel is copied onto `dst` if the corresponding `mask` pixel's alpha value is not 0. `src` image and `mask` image **must** have the same size (width and height) but they can have different formats."] # [doc = ""] # [inline] pub fn blit_rect_mask (& self , src : impl AsArg < crate :: generated :: image :: Image > , mask : impl AsArg < crate :: generated :: image :: Image > , src_rect : Rect2 , dst : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . blit_rect_mask ; let ret = crate :: icalls :: icallptr_void_obj_obj_rect2_vec2 (method_bind , self . this . sys () . as_ptr () , src . as_arg_ptr () , mask . as_arg_ptr () , src_rect , dst) ; } } # [doc = "Converts a bumpmap to a normalmap. A bumpmap provides a height offset per-pixel, while a normalmap provides a normal direction per pixel.\n# Default Arguments\n* `bump_scale` - `1.0`"] # [doc = ""] # [inline] pub fn bumpmap_to_normalmap (& self , bump_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . bumpmap_to_normalmap ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bump_scale) ; } } # [doc = "Removes the image's mipmaps."] # [doc = ""] # [inline] pub fn clear_mipmaps (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . clear_mipmaps ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Compresses the image to use less memory. Can not directly access pixel data while the image is compressed. Returns error if the chosen compression mode is not available. See [enum CompressMode] and [enum CompressSource] constants."] # [doc = ""] # [inline] pub fn compress (& self , mode : i64 , source : i64 , lossy_quality : f64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . compress ; let ret = crate :: icalls :: icallptr_i64_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , mode , source , lossy_quality) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Converts the image's format. See [enum Format] constants."] # [doc = ""] # [inline] pub fn convert (& self , format : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . convert ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , format) ; } } # [doc = "Copies `src` image to this image."] # [doc = ""] # [inline] pub fn copy_from (& self , src : impl AsArg < crate :: generated :: image :: Image >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . copy_from ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , src . as_arg_ptr ()) ; } } # [doc = "Creates an empty image of given size and format. See [enum Format] constants. If `use_mipmaps` is `true` then generate mipmaps for this image. See the [method generate_mipmaps]."] # [doc = ""] # [inline] pub fn create (& self , width : i64 , height : i64 , use_mipmaps : bool , format : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . create ; let ret = crate :: icalls :: icallptr_void_i64_i64_bool_i64 (method_bind , self . this . sys () . as_ptr () , width , height , use_mipmaps , format) ; } } # [doc = "Creates a new image of given size and format. See [enum Format] constants. Fills the image with the given raw data. If `use_mipmaps` is `true` then loads mipmaps for this image from `data`. See [method generate_mipmaps]."] # [doc = ""] # [inline] pub fn create_from_data (& self , width : i64 , height : i64 , use_mipmaps : bool , format : i64 , data : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . create_from_data ; let ret = crate :: icalls :: icallptr_void_i64_i64_bool_i64_bytearr (method_bind , self . this . sys () . as_ptr () , width , height , use_mipmaps , format , data) ; } } # [doc = "Crops the image to the given `width` and `height`. If the specified size is larger than the current size, the extra area is filled with black pixels."] # [doc = ""] # [inline] pub fn crop (& self , width : i64 , height : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . crop ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , width , height) ; } } # [doc = "Decompresses the image if it is compressed. Returns an error if decompress function is not available."] # [doc = ""] # [inline] pub fn decompress (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . decompress ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Returns [constant ALPHA_BLEND] if the image has data for alpha values. Returns [constant ALPHA_BIT] if all the alpha values are stored in a single bit. Returns [constant ALPHA_NONE] if no data for alpha values is found."] # [doc = ""] # [inline] pub fn detect_alpha (& self) -> crate :: generated :: image :: AlphaMode { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . detect_alpha ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: image :: AlphaMode (ret) } } # [doc = "Stretches the image and enlarges it by a factor of 2. No interpolation is done."] # [doc = ""] # [inline] pub fn expand_x2_hq2x (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . expand_x2_hq2x ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Fills the image with a given [Color]."] # [doc = ""] # [inline] pub fn fill (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . fill ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Blends low-alpha pixels with nearby pixels."] # [doc = ""] # [inline] pub fn fix_alpha_edges (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . fix_alpha_edges ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Flips the image horizontally."] # [doc = ""] # [inline] pub fn flip_x (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . flip_x ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Flips the image vertically."] # [doc = ""] # [inline] pub fn flip_y (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . flip_y ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Generates mipmaps for the image. Mipmaps are pre-calculated and lower resolution copies of the image. Mipmaps are automatically used if the image needs to be scaled down when rendered. This improves image quality and the performance of the rendering. Returns an error if the image is compressed, in a custom format or if the image's width/height is 0.\n# Default Arguments\n* `renormalize` - `false`"] # [doc = ""] # [inline] pub fn generate_mipmaps (& self , renormalize : bool) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . generate_mipmaps ; let ret = crate :: icalls :: icallptr_i64_bool (method_bind , self . this . sys () . as_ptr () , renormalize) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Returns a copy of the image's raw data."] # [doc = ""] # [inline] pub fn get_data (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_data ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = "Returns the image's format. See [enum Format] constants."] # [doc = ""] # [inline] pub fn get_format (& self) -> crate :: generated :: image :: Format { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_format ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: image :: Format (ret) } } # [doc = "Returns the image's height."] # [doc = ""] # [inline] pub fn get_height (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the offset where the image's mipmap with index `mipmap` is stored in the `data` dictionary."] # [doc = ""] # [inline] pub fn get_mipmap_offset (& self , mipmap : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_mipmap_offset ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , mipmap) ; ret as _ } } # [doc = "Returns the color of the pixel at `(x, y)` if the image is locked. If the image is unlocked, it always returns a [Color] with the value `(0, 0, 0, 1.0)`. This is the same as [method get_pixelv], but two integer arguments instead of a Vector2 argument."] # [doc = ""] # [inline] pub fn get_pixel (& self , x : i64 , y : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_pixel ; let ret = crate :: icalls :: icallptr_color_i64_i64 (method_bind , self . this . sys () . as_ptr () , x , y) ; mem :: transmute (ret) } } # [doc = "Returns the color of the pixel at `src` if the image is locked. If the image is unlocked, it always returns a [Color] with the value `(0, 0, 0, 1.0)`. This is the same as [method get_pixel], but with a Vector2 argument instead of two integer arguments."] # [doc = ""] # [inline] pub fn get_pixelv (& self , src : Vector2) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_pixelv ; let ret = crate :: icalls :: icallptr_color_vec2 (method_bind , self . this . sys () . as_ptr () , src) ; mem :: transmute (ret) } } # [doc = "Returns a new image that is a copy of the image's area specified with `rect`."] # [doc = ""] # [inline] pub fn get_rect (& self , rect : Rect2) -> Option < Ref < crate :: generated :: image :: Image , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_rect ; let ret = crate :: icalls :: icallptr_obj_rect2 (method_bind , self . this . sys () . as_ptr () , rect) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: image :: Image , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the image's size (width and height)."] # [doc = ""] # [inline] pub fn get_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns a [Rect2] enclosing the visible portion of the image, considering each pixel with a non-zero alpha channel as visible."] # [doc = ""] # [inline] pub fn get_used_rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_used_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the image's width."] # [doc = ""] # [inline] pub fn get_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . get_width ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the image has generated mipmaps."] # [doc = ""] # [inline] pub fn has_mipmaps (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . has_mipmaps ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the image is compressed."] # [doc = ""] # [inline] pub fn is_compressed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . is_compressed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the image has no data."] # [doc = ""] # [inline] pub fn is_empty (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . is_empty ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if all the image's pixels have an alpha value of 0. Returns `false` if any pixel has an alpha value higher than 0."] # [doc = ""] # [inline] pub fn is_invisible (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . is_invisible ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Loads an image from file `path`. See [url=https://docs.godotengine.org/en/latest/getting_started/workflow/assets/importing_images.html#supported-image-formats]Supported image formats[/url] for a list of supported image formats and limitations."] # [doc = ""] # [inline] pub fn load (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . load ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn load_bmp_from_buffer (& self , buffer : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . load_bmp_from_buffer ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , buffer) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Loads an image from the binary contents of a JPEG file."] # [doc = ""] # [inline] pub fn load_jpg_from_buffer (& self , buffer : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . load_jpg_from_buffer ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , buffer) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Loads an image from the binary contents of a PNG file."] # [doc = ""] # [inline] pub fn load_png_from_buffer (& self , buffer : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . load_png_from_buffer ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , buffer) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Loads an image from the binary contents of a TGA file."] # [doc = ""] # [inline] pub fn load_tga_from_buffer (& self , buffer : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . load_tga_from_buffer ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , buffer) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Loads an image from the binary contents of a WebP file."] # [doc = ""] # [inline] pub fn load_webp_from_buffer (& self , buffer : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . load_webp_from_buffer ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , buffer) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Locks the data for reading and writing access. Sends an error to the console if the image is not locked when reading or writing a pixel."] # [doc = ""] # [inline] pub fn lock (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . lock ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Converts the image's data to represent coordinates on a 3D plane. This is used when the image represents a normalmap. A normalmap can add lots of detail to a 3D surface without increasing the polygon count."] # [doc = ""] # [inline] pub fn normalmap_to_xy (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . normalmap_to_xy ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Multiplies color values with alpha values. Resulting color values for a pixel are `(color * alpha)/256`."] # [doc = ""] # [inline] pub fn premultiply_alpha (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . premultiply_alpha ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Resizes the image to the given `width` and `height`. New pixels are calculated using `interpolation`. See `interpolation` constants.\n# Default Arguments\n* `interpolation` - `1`"] # [doc = ""] # [inline] pub fn resize (& self , width : i64 , height : i64 , interpolation : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . resize ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , width , height , interpolation) ; } } # [doc = "Resizes the image to the nearest power of 2 for the width and height. If `square` is `true` then set width and height to be the same.\n# Default Arguments\n* `square` - `false`"] # [doc = ""] # [inline] pub fn resize_to_po2 (& self , square : bool , interpolation : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . resize_to_po2 ; let ret = crate :: icalls :: icallptr_void_bool_i64 (method_bind , self . this . sys () . as_ptr () , square , interpolation) ; } } # [doc = "Converts a standard RGBE (Red Green Blue Exponent) image to an sRGB image."] # [doc = ""] # [inline] pub fn rgbe_to_srgb (& self) -> Option < Ref < crate :: generated :: image :: Image , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . rgbe_to_srgb ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: image :: Image , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Saves the image as an EXR file to `path`. If `grayscale` is `true` and the image has only one channel, it will be saved explicitly as monochrome rather than one red channel. This function will return [constant ERR_UNAVAILABLE] if Godot was compiled without the TinyEXR module.\n# Default Arguments\n* `grayscale` - `false`"] # [doc = ""] # [inline] pub fn save_exr (& self , path : impl Into < GodotString > , grayscale : bool) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . save_exr ; let ret = crate :: icalls :: icallptr_i64_str_bool (method_bind , self . this . sys () . as_ptr () , path . into () , grayscale) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Saves the image as a PNG file to `path`."] # [doc = ""] # [inline] pub fn save_png (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . save_png ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn save_png_to_buffer (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . save_png_to_buffer ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nSets the [Color] of the pixel at `(x, y)` if the image is locked. Example:\n```gdscript\nvar img = Image.new()\nimg.create(img_width, img_height, false, Image.FORMAT_RGBA8)\nimg.lock()\nimg.set_pixel(x, y, color) # Works\nimg.unlock()\nimg.set_pixel(x, y, color) # Does not have an effect\n```"] # [doc = ""] # [inline] pub fn set_pixel (& self , x : i64 , y : i64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . set_pixel ; let ret = crate :: icalls :: icallptr_void_i64_i64_color (method_bind , self . this . sys () . as_ptr () , x , y , color) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nSets the [Color] of the pixel at `(dst.x, dst.y)` if the image is locked. Note that the `dst` values must be integers. Example:\n```gdscript\nvar img = Image.new()\nimg.create(img_width, img_height, false, Image.FORMAT_RGBA8)\nimg.lock()\nimg.set_pixelv(Vector2(x, y), color) # Works\nimg.unlock()\nimg.set_pixelv(Vector2(x, y), color) # Does not have an effect\n```"] # [doc = ""] # [inline] pub fn set_pixelv (& self , dst : Vector2 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . set_pixelv ; let ret = crate :: icalls :: icallptr_void_vec2_color (method_bind , self . this . sys () . as_ptr () , dst , color) ; } } # [doc = "Shrinks the image by a factor of 2."] # [doc = ""] # [inline] pub fn shrink_x2 (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . shrink_x2 ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Converts the raw data from the sRGB colorspace to a linear scale."] # [doc = ""] # [inline] pub fn srgb_to_linear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . srgb_to_linear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Unlocks the data and prevents changes."] # [doc = ""] # [inline] pub fn unlock (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageMethodTable :: get (get_api ()) . unlock ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Image { } unsafe impl GodotObject for Image { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Image" } } impl std :: ops :: Deref for Image { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Image { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Image { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Image { } unsafe impl SubClass < crate :: generated :: object :: Object > for Image { } impl Instanciable for Image { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Image :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ImageMethodTable { pub class_constructor : sys :: godot_class_constructor , pub blend_rect : * mut sys :: godot_method_bind , pub blend_rect_mask : * mut sys :: godot_method_bind , pub blit_rect : * mut sys :: godot_method_bind , pub blit_rect_mask : * mut sys :: godot_method_bind , pub bumpmap_to_normalmap : * mut sys :: godot_method_bind , pub clear_mipmaps : * mut sys :: godot_method_bind , pub compress : * mut sys :: godot_method_bind , pub convert : * mut sys :: godot_method_bind , pub copy_from : * mut sys :: godot_method_bind , pub create : * mut sys :: godot_method_bind , pub create_from_data : * mut sys :: godot_method_bind , pub crop : * mut sys :: godot_method_bind , pub decompress : * mut sys :: godot_method_bind , pub detect_alpha : * mut sys :: godot_method_bind , pub expand_x2_hq2x : * mut sys :: godot_method_bind , pub fill : * mut sys :: godot_method_bind , pub fix_alpha_edges : * mut sys :: godot_method_bind , pub flip_x : * mut sys :: godot_method_bind , pub flip_y : * mut sys :: godot_method_bind , pub generate_mipmaps : * mut sys :: godot_method_bind , pub get_data : * mut sys :: godot_method_bind , pub get_format : * mut sys :: godot_method_bind , pub get_height : * mut sys :: godot_method_bind , pub get_mipmap_offset : * mut sys :: godot_method_bind , pub get_pixel : * mut sys :: godot_method_bind , pub get_pixelv : * mut sys :: godot_method_bind , pub get_rect : * mut sys :: godot_method_bind , pub get_size : * mut sys :: godot_method_bind , pub get_used_rect : * mut sys :: godot_method_bind , pub get_width : * mut sys :: godot_method_bind , pub has_mipmaps : * mut sys :: godot_method_bind , pub is_compressed : * mut sys :: godot_method_bind , pub is_empty : * mut sys :: godot_method_bind , pub is_invisible : * mut sys :: godot_method_bind , pub load : * mut sys :: godot_method_bind , pub load_bmp_from_buffer : * mut sys :: godot_method_bind , pub load_jpg_from_buffer : * mut sys :: godot_method_bind , pub load_png_from_buffer : * mut sys :: godot_method_bind , pub load_tga_from_buffer : * mut sys :: godot_method_bind , pub load_webp_from_buffer : * mut sys :: godot_method_bind , pub lock : * mut sys :: godot_method_bind , pub normalmap_to_xy : * mut sys :: godot_method_bind , pub premultiply_alpha : * mut sys :: godot_method_bind , pub resize : * mut sys :: godot_method_bind , pub resize_to_po2 : * mut sys :: godot_method_bind , pub rgbe_to_srgb : * mut sys :: godot_method_bind , pub save_exr : * mut sys :: godot_method_bind , pub save_png : * mut sys :: godot_method_bind , pub save_png_to_buffer : * mut sys :: godot_method_bind , pub set_pixel : * mut sys :: godot_method_bind , pub set_pixelv : * mut sys :: godot_method_bind , pub shrink_x2 : * mut sys :: godot_method_bind , pub srgb_to_linear : * mut sys :: godot_method_bind , pub unlock : * mut sys :: godot_method_bind } impl ImageMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ImageMethodTable = ImageMethodTable { class_constructor : None , blend_rect : 0 as * mut sys :: godot_method_bind , blend_rect_mask : 0 as * mut sys :: godot_method_bind , blit_rect : 0 as * mut sys :: godot_method_bind , blit_rect_mask : 0 as * mut sys :: godot_method_bind , bumpmap_to_normalmap : 0 as * mut sys :: godot_method_bind , clear_mipmaps : 0 as * mut sys :: godot_method_bind , compress : 0 as * mut sys :: godot_method_bind , convert : 0 as * mut sys :: godot_method_bind , copy_from : 0 as * mut sys :: godot_method_bind , create : 0 as * mut sys :: godot_method_bind , create_from_data : 0 as * mut sys :: godot_method_bind , crop : 0 as * mut sys :: godot_method_bind , decompress : 0 as * mut sys :: godot_method_bind , detect_alpha : 0 as * mut sys :: godot_method_bind , expand_x2_hq2x : 0 as * mut sys :: godot_method_bind , fill : 0 as * mut sys :: godot_method_bind , fix_alpha_edges : 0 as * mut sys :: godot_method_bind , flip_x : 0 as * mut sys :: godot_method_bind , flip_y : 0 as * mut sys :: godot_method_bind , generate_mipmaps : 0 as * mut sys :: godot_method_bind , get_data : 0 as * mut sys :: godot_method_bind , get_format : 0 as * mut sys :: godot_method_bind , get_height : 0 as * mut sys :: godot_method_bind , get_mipmap_offset : 0 as * mut sys :: godot_method_bind , get_pixel : 0 as * mut sys :: godot_method_bind , get_pixelv : 0 as * mut sys :: godot_method_bind , get_rect : 0 as * mut sys :: godot_method_bind , get_size : 0 as * mut sys :: godot_method_bind , get_used_rect : 0 as * mut sys :: godot_method_bind , get_width : 0 as * mut sys :: godot_method_bind , has_mipmaps : 0 as * mut sys :: godot_method_bind , is_compressed : 0 as * mut sys :: godot_method_bind , is_empty : 0 as * mut sys :: godot_method_bind , is_invisible : 0 as * mut sys :: godot_method_bind , load : 0 as * mut sys :: godot_method_bind , load_bmp_from_buffer : 0 as * mut sys :: godot_method_bind , load_jpg_from_buffer : 0 as * mut sys :: godot_method_bind , load_png_from_buffer : 0 as * mut sys :: godot_method_bind , load_tga_from_buffer : 0 as * mut sys :: godot_method_bind , load_webp_from_buffer : 0 as * mut sys :: godot_method_bind , lock : 0 as * mut sys :: godot_method_bind , normalmap_to_xy : 0 as * mut sys :: godot_method_bind , premultiply_alpha : 0 as * mut sys :: godot_method_bind , resize : 0 as * mut sys :: godot_method_bind , resize_to_po2 : 0 as * mut sys :: godot_method_bind , rgbe_to_srgb : 0 as * mut sys :: godot_method_bind , save_exr : 0 as * mut sys :: godot_method_bind , save_png : 0 as * mut sys :: godot_method_bind , save_png_to_buffer : 0 as * mut sys :: godot_method_bind , set_pixel : 0 as * mut sys :: godot_method_bind , set_pixelv : 0 as * mut sys :: godot_method_bind , shrink_x2 : 0 as * mut sys :: godot_method_bind , srgb_to_linear : 0 as * mut sys :: godot_method_bind , unlock : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ImageMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Image\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . blend_rect = (gd_api . godot_method_bind_get_method) (class_name , "blend_rect\0" . as_ptr () as * const c_char) ; table . blend_rect_mask = (gd_api . godot_method_bind_get_method) (class_name , "blend_rect_mask\0" . as_ptr () as * const c_char) ; table . blit_rect = (gd_api . godot_method_bind_get_method) (class_name , "blit_rect\0" . as_ptr () as * const c_char) ; table . blit_rect_mask = (gd_api . godot_method_bind_get_method) (class_name , "blit_rect_mask\0" . as_ptr () as * const c_char) ; table . bumpmap_to_normalmap = (gd_api . godot_method_bind_get_method) (class_name , "bumpmap_to_normalmap\0" . as_ptr () as * const c_char) ; table . clear_mipmaps = (gd_api . godot_method_bind_get_method) (class_name , "clear_mipmaps\0" . as_ptr () as * const c_char) ; table . compress = (gd_api . godot_method_bind_get_method) (class_name , "compress\0" . as_ptr () as * const c_char) ; table . convert = (gd_api . godot_method_bind_get_method) (class_name , "convert\0" . as_ptr () as * const c_char) ; table . copy_from = (gd_api . godot_method_bind_get_method) (class_name , "copy_from\0" . as_ptr () as * const c_char) ; table . create = (gd_api . godot_method_bind_get_method) (class_name , "create\0" . as_ptr () as * const c_char) ; table . create_from_data = (gd_api . godot_method_bind_get_method) (class_name , "create_from_data\0" . as_ptr () as * const c_char) ; table . crop = (gd_api . godot_method_bind_get_method) (class_name , "crop\0" . as_ptr () as * const c_char) ; table . decompress = (gd_api . godot_method_bind_get_method) (class_name , "decompress\0" . as_ptr () as * const c_char) ; table . detect_alpha = (gd_api . godot_method_bind_get_method) (class_name , "detect_alpha\0" . as_ptr () as * const c_char) ; table . expand_x2_hq2x = (gd_api . godot_method_bind_get_method) (class_name , "expand_x2_hq2x\0" . as_ptr () as * const c_char) ; table . fill = (gd_api . godot_method_bind_get_method) (class_name , "fill\0" . as_ptr () as * const c_char) ; table . fix_alpha_edges = (gd_api . godot_method_bind_get_method) (class_name , "fix_alpha_edges\0" . as_ptr () as * const c_char) ; table . flip_x = (gd_api . godot_method_bind_get_method) (class_name , "flip_x\0" . as_ptr () as * const c_char) ; table . flip_y = (gd_api . godot_method_bind_get_method) (class_name , "flip_y\0" . as_ptr () as * const c_char) ; table . generate_mipmaps = (gd_api . godot_method_bind_get_method) (class_name , "generate_mipmaps\0" . as_ptr () as * const c_char) ; table . get_data = (gd_api . godot_method_bind_get_method) (class_name , "get_data\0" . as_ptr () as * const c_char) ; table . get_format = (gd_api . godot_method_bind_get_method) (class_name , "get_format\0" . as_ptr () as * const c_char) ; table . get_height = (gd_api . godot_method_bind_get_method) (class_name , "get_height\0" . as_ptr () as * const c_char) ; table . get_mipmap_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_mipmap_offset\0" . as_ptr () as * const c_char) ; table . get_pixel = (gd_api . godot_method_bind_get_method) (class_name , "get_pixel\0" . as_ptr () as * const c_char) ; table . get_pixelv = (gd_api . godot_method_bind_get_method) (class_name , "get_pixelv\0" . as_ptr () as * const c_char) ; table . get_rect = (gd_api . godot_method_bind_get_method) (class_name , "get_rect\0" . as_ptr () as * const c_char) ; table . get_size = (gd_api . godot_method_bind_get_method) (class_name , "get_size\0" . as_ptr () as * const c_char) ; table . get_used_rect = (gd_api . godot_method_bind_get_method) (class_name , "get_used_rect\0" . as_ptr () as * const c_char) ; table . get_width = (gd_api . godot_method_bind_get_method) (class_name , "get_width\0" . as_ptr () as * const c_char) ; table . has_mipmaps = (gd_api . godot_method_bind_get_method) (class_name , "has_mipmaps\0" . as_ptr () as * const c_char) ; table . is_compressed = (gd_api . godot_method_bind_get_method) (class_name , "is_compressed\0" . as_ptr () as * const c_char) ; table . is_empty = (gd_api . godot_method_bind_get_method) (class_name , "is_empty\0" . as_ptr () as * const c_char) ; table . is_invisible = (gd_api . godot_method_bind_get_method) (class_name , "is_invisible\0" . as_ptr () as * const c_char) ; table . load = (gd_api . godot_method_bind_get_method) (class_name , "load\0" . as_ptr () as * const c_char) ; table . load_bmp_from_buffer = (gd_api . godot_method_bind_get_method) (class_name , "load_bmp_from_buffer\0" . as_ptr () as * const c_char) ; table . load_jpg_from_buffer = (gd_api . godot_method_bind_get_method) (class_name , "load_jpg_from_buffer\0" . as_ptr () as * const c_char) ; table . load_png_from_buffer = (gd_api . godot_method_bind_get_method) (class_name , "load_png_from_buffer\0" . as_ptr () as * const c_char) ; table . load_tga_from_buffer = (gd_api . godot_method_bind_get_method) (class_name , "load_tga_from_buffer\0" . as_ptr () as * const c_char) ; table . load_webp_from_buffer = (gd_api . godot_method_bind_get_method) (class_name , "load_webp_from_buffer\0" . as_ptr () as * const c_char) ; table . lock = (gd_api . godot_method_bind_get_method) (class_name , "lock\0" . as_ptr () as * const c_char) ; table . normalmap_to_xy = (gd_api . godot_method_bind_get_method) (class_name , "normalmap_to_xy\0" . as_ptr () as * const c_char) ; table . premultiply_alpha = (gd_api . godot_method_bind_get_method) (class_name , "premultiply_alpha\0" . as_ptr () as * const c_char) ; table . resize = (gd_api . godot_method_bind_get_method) (class_name , "resize\0" . as_ptr () as * const c_char) ; table . resize_to_po2 = (gd_api . godot_method_bind_get_method) (class_name , "resize_to_po2\0" . as_ptr () as * const c_char) ; table . rgbe_to_srgb = (gd_api . godot_method_bind_get_method) (class_name , "rgbe_to_srgb\0" . as_ptr () as * const c_char) ; table . save_exr = (gd_api . godot_method_bind_get_method) (class_name , "save_exr\0" . as_ptr () as * const c_char) ; table . save_png = (gd_api . godot_method_bind_get_method) (class_name , "save_png\0" . as_ptr () as * const c_char) ; table . save_png_to_buffer = (gd_api . godot_method_bind_get_method) (class_name , "save_png_to_buffer\0" . as_ptr () as * const c_char) ; table . set_pixel = (gd_api . godot_method_bind_get_method) (class_name , "set_pixel\0" . as_ptr () as * const c_char) ; table . set_pixelv = (gd_api . godot_method_bind_get_method) (class_name , "set_pixelv\0" . as_ptr () as * const c_char) ; table . shrink_x2 = (gd_api . godot_method_bind_get_method) (class_name , "shrink_x2\0" . as_ptr () as * const c_char) ; table . srgb_to_linear = (gd_api . godot_method_bind_get_method) (class_name , "srgb_to_linear\0" . as_ptr () as * const c_char) ; table . unlock = (gd_api . godot_method_bind_get_method) (class_name , "unlock\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:562:7422 [INFO] [stdout] | [INFO] [stdout] 562 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 562 | # [doc = "`core class RegEx` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_regex.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nRegEx inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RegEx { this : RawObject < Self > , } impl RegEx { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RegExMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn compile (& self , pattern : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . compile ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , pattern . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_group_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . get_group_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_names (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . get_names ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = ""] # [doc = ""] # [inline] pub fn get_pattern (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . get_pattern ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_valid (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . is_valid ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn search (& self , subject : impl Into < GodotString > , offset : i64 , end : i64) -> Option < Ref < crate :: generated :: reg_ex_match :: RegExMatch , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . search ; let ret = crate :: icalls :: icallptr_obj_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , subject . into () , offset , end) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: reg_ex_match :: RegExMatch , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn search_all (& self , subject : impl Into < GodotString > , offset : i64 , end : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . search_all ; let ret = crate :: icalls :: icallvar__str_i64_i64 (method_bind , self . this . sys () . as_ptr () , subject . into () , offset , end) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = ""] # [doc = ""] # [inline] pub fn sub (& self , subject : impl Into < GodotString > , replacement : impl Into < GodotString > , all : bool , offset : i64 , end : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMethodTable :: get (get_api ()) . sub ; let ret = crate :: icalls :: icallptr_str_str_str_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , subject . into () , replacement . into () , all , offset , end) ; GodotString :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for RegEx { } unsafe impl GodotObject for RegEx { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "RegEx" } } impl std :: ops :: Deref for RegEx { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RegEx { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for RegEx { } unsafe impl SubClass < crate :: generated :: object :: Object > for RegEx { } impl Instanciable for RegEx { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RegEx :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RegExMethodTable { pub class_constructor : sys :: godot_class_constructor , pub clear : * mut sys :: godot_method_bind , pub compile : * mut sys :: godot_method_bind , pub get_group_count : * mut sys :: godot_method_bind , pub get_names : * mut sys :: godot_method_bind , pub get_pattern : * mut sys :: godot_method_bind , pub is_valid : * mut sys :: godot_method_bind , pub search : * mut sys :: godot_method_bind , pub search_all : * mut sys :: godot_method_bind , pub sub : * mut sys :: godot_method_bind } impl RegExMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RegExMethodTable = RegExMethodTable { class_constructor : None , clear : 0 as * mut sys :: godot_method_bind , compile : 0 as * mut sys :: godot_method_bind , get_group_count : 0 as * mut sys :: godot_method_bind , get_names : 0 as * mut sys :: godot_method_bind , get_pattern : 0 as * mut sys :: godot_method_bind , is_valid : 0 as * mut sys :: godot_method_bind , search : 0 as * mut sys :: godot_method_bind , search_all : 0 as * mut sys :: godot_method_bind , sub : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RegExMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RegEx\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . compile = (gd_api . godot_method_bind_get_method) (class_name , "compile\0" . as_ptr () as * const c_char) ; table . get_group_count = (gd_api . godot_method_bind_get_method) (class_name , "get_group_count\0" . as_ptr () as * const c_char) ; table . get_names = (gd_api . godot_method_bind_get_method) (class_name , "get_names\0" . as_ptr () as * const c_char) ; table . get_pattern = (gd_api . godot_method_bind_get_method) (class_name , "get_pattern\0" . as_ptr () as * const c_char) ; table . is_valid = (gd_api . godot_method_bind_get_method) (class_name , "is_valid\0" . as_ptr () as * const c_char) ; table . search = (gd_api . godot_method_bind_get_method) (class_name , "search\0" . as_ptr () as * const c_char) ; table . search_all = (gd_api . godot_method_bind_get_method) (class_name , "search_all\0" . as_ptr () as * const c_char) ; table . sub = (gd_api . godot_method_bind_get_method) (class_name , "sub\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:568:7571 [INFO] [stdout] | [INFO] [stdout] 568 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 568 | # [doc = "`core class CollisionShape` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_collisionshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`CollisionShape` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nCollisionShape inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct CollisionShape { this : RawObject < Self > , } impl CollisionShape { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = CollisionShapeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The actual shape owned by this collision shape."] # [doc = ""] # [inline] pub fn shape (& self) -> Option < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShapeMethodTable :: get (get_api ()) . get_shape ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "A disabled collision shape has no effect in the world."] # [doc = ""] # [inline] pub fn is_disabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShapeMethodTable :: get (get_api ()) . is_disabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the collision shape's shape to the addition of all its convexed [MeshInstance] siblings geometry."] # [doc = ""] # [inline] pub fn make_convex_from_brothers (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShapeMethodTable :: get (get_api ()) . make_convex_from_brothers ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If this method exists within a script it will be called whenever the shape resource has been modified."] # [doc = ""] # [inline] pub fn resource_changed (& self , resource : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShapeMethodTable :: get (get_api ()) . resource_changed ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , resource . as_arg_ptr ()) ; } } # [doc = "A disabled collision shape has no effect in the world."] # [doc = ""] # [inline] pub fn set_disabled (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShapeMethodTable :: get (get_api ()) . set_disabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The actual shape owned by this collision shape."] # [doc = ""] # [inline] pub fn set_shape (& self , shape : impl AsArg < crate :: generated :: shape :: Shape >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShapeMethodTable :: get (get_api ()) . set_shape ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CollisionShape { } unsafe impl GodotObject for CollisionShape { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CollisionShape" } } impl QueueFree for CollisionShape { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for CollisionShape { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CollisionShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CollisionShape { } unsafe impl SubClass < crate :: generated :: node :: Node > for CollisionShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for CollisionShape { } impl Instanciable for CollisionShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CollisionShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CollisionShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_shape : * mut sys :: godot_method_bind , pub is_disabled : * mut sys :: godot_method_bind , pub make_convex_from_brothers : * mut sys :: godot_method_bind , pub resource_changed : * mut sys :: godot_method_bind , pub set_disabled : * mut sys :: godot_method_bind , pub set_shape : * mut sys :: godot_method_bind } impl CollisionShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CollisionShapeMethodTable = CollisionShapeMethodTable { class_constructor : None , get_shape : 0 as * mut sys :: godot_method_bind , is_disabled : 0 as * mut sys :: godot_method_bind , make_convex_from_brothers : 0 as * mut sys :: godot_method_bind , resource_changed : 0 as * mut sys :: godot_method_bind , set_disabled : 0 as * mut sys :: godot_method_bind , set_shape : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CollisionShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CollisionShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_shape\0" . as_ptr () as * const c_char) ; table . is_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_disabled\0" . as_ptr () as * const c_char) ; table . make_convex_from_brothers = (gd_api . godot_method_bind_get_method) (class_name , "make_convex_from_brothers\0" . as_ptr () as * const c_char) ; table . resource_changed = (gd_api . godot_method_bind_get_method) (class_name , "resource_changed\0" . as_ptr () as * const c_char) ; table . set_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_disabled\0" . as_ptr () as * const c_char) ; table . set_shape = (gd_api . godot_method_bind_get_method) (class_name , "set_shape\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:574:6744 [INFO] [stdout] | [INFO] [stdout] 574 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 574 | # [doc = "`core class GrooveJoint2D` inherits `Joint2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_groovejoint2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`GrooveJoint2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nGrooveJoint2D inherits methods from:\n - [Joint2D](struct.Joint2D.html)\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct GrooveJoint2D { this : RawObject < Self > , } impl GrooveJoint2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = GrooveJoint2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The body B's initial anchor position defined by the joint's origin and a local offset [member initial_offset] along the joint's Y axis (along the groove)."] # [doc = ""] # [inline] pub fn initial_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GrooveJoint2DMethodTable :: get (get_api ()) . get_initial_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The groove's length. The groove is from the joint's origin towards [member length] along the joint's local Y axis."] # [doc = ""] # [inline] pub fn length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GrooveJoint2DMethodTable :: get (get_api ()) . get_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body B's initial anchor position defined by the joint's origin and a local offset [member initial_offset] along the joint's Y axis (along the groove)."] # [doc = ""] # [inline] pub fn set_initial_offset (& self , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GrooveJoint2DMethodTable :: get (get_api ()) . set_initial_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The groove's length. The groove is from the joint's origin towards [member length] along the joint's local Y axis."] # [doc = ""] # [inline] pub fn set_length (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GrooveJoint2DMethodTable :: get (get_api ()) . set_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for GrooveJoint2D { } unsafe impl GodotObject for GrooveJoint2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "GrooveJoint2D" } } impl QueueFree for GrooveJoint2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for GrooveJoint2D { type Target = crate :: generated :: joint_2d :: Joint2D ; # [inline] fn deref (& self) -> & crate :: generated :: joint_2d :: Joint2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GrooveJoint2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: joint_2d :: Joint2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: joint_2d :: Joint2D > for GrooveJoint2D { } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for GrooveJoint2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for GrooveJoint2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for GrooveJoint2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for GrooveJoint2D { } impl Instanciable for GrooveJoint2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GrooveJoint2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GrooveJoint2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_initial_offset : * mut sys :: godot_method_bind , pub get_length : * mut sys :: godot_method_bind , pub set_initial_offset : * mut sys :: godot_method_bind , pub set_length : * mut sys :: godot_method_bind } impl GrooveJoint2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GrooveJoint2DMethodTable = GrooveJoint2DMethodTable { class_constructor : None , get_initial_offset : 0 as * mut sys :: godot_method_bind , get_length : 0 as * mut sys :: godot_method_bind , set_initial_offset : 0 as * mut sys :: godot_method_bind , set_length : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { GrooveJoint2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GrooveJoint2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_initial_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_initial_offset\0" . as_ptr () as * const c_char) ; table . get_length = (gd_api . godot_method_bind_get_method) (class_name , "get_length\0" . as_ptr () as * const c_char) ; table . set_initial_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_initial_offset\0" . as_ptr () as * const c_char) ; table . set_length = (gd_api . godot_method_bind_get_method) (class_name , "set_length\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:580:23671 [INFO] [stdout] | [INFO] [stdout] 580 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 580 | # [doc = "`tools class EditorInterface` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorinterface.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nEditorInterface inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorInterface { this : RawObject < Self > , } impl EditorInterface { # [doc = ""] # [doc = ""] # [inline] pub fn edit_node (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . edit_node ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Edits the given [Resource]."] # [doc = ""] # [inline] pub fn edit_resource (& self , resource : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . edit_resource ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , resource . as_arg_ptr ()) ; } } # [doc = "Returns the main container of Godot editor's window. For example, you can use it to retrieve the size of the container and place your controls accordingly."] # [doc = ""] # [inline] pub fn get_base_control (& self) -> Option < Ref < crate :: generated :: control :: Control , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_base_control ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: control :: Control , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the current path being viewed in the [FileSystemDock]."] # [doc = ""] # [inline] pub fn get_current_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_current_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the edited (current) scene's root [Node]."] # [doc = ""] # [inline] pub fn get_edited_scene_root (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_edited_scene_root ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_editor_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_editor_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the editor's [EditorSettings] instance."] # [doc = ""] # [inline] pub fn get_editor_settings (& self) -> Option < Ref < crate :: generated :: editor_settings :: EditorSettings , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_editor_settings ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_settings :: EditorSettings , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the main editor control. Use this as a parent for main screens.\n**Note:** This returns the main editor control containing the whole editor, not the 2D or 3D viewports specifically."] # [doc = ""] # [inline] pub fn get_editor_viewport (& self) -> Option < Ref < crate :: generated :: control :: Control , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_editor_viewport ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: control :: Control , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the editor's [FileSystemDock] instance."] # [doc = ""] # [inline] pub fn get_file_system_dock (& self) -> Option < Ref < crate :: generated :: file_system_dock :: FileSystemDock , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_file_system_dock ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: file_system_dock :: FileSystemDock , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the editor's [EditorInspector] instance."] # [doc = ""] # [inline] pub fn get_inspector (& self) -> Option < Ref < crate :: generated :: editor_inspector :: EditorInspector , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_inspector ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_inspector :: EditorInspector , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns an [Array] with the file paths of the currently opened scenes."] # [doc = ""] # [inline] pub fn get_open_scenes (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_open_scenes ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the name of the scene that is being played. If no scene is currently being played, returns an empty string."] # [doc = ""] # [inline] pub fn get_playing_scene (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_playing_scene ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the editor's [EditorFileSystem] instance."] # [doc = ""] # [inline] pub fn get_resource_filesystem (& self) -> Option < Ref < crate :: generated :: editor_file_system :: EditorFileSystem , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_resource_filesystem ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_file_system :: EditorFileSystem , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the editor's [EditorResourcePreview] instance."] # [doc = ""] # [inline] pub fn get_resource_previewer (& self) -> Option < Ref < crate :: generated :: editor_resource_preview :: EditorResourcePreview , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_resource_previewer ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_resource_preview :: EditorResourcePreview , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the editor's [ScriptEditor] instance."] # [doc = ""] # [inline] pub fn get_script_editor (& self) -> Option < Ref < crate :: generated :: script_editor :: ScriptEditor , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_script_editor ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: script_editor :: ScriptEditor , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the path of the directory currently selected in the [FileSystemDock]. If a file is selected, its base directory will be returned using [method String.get_base_dir] instead."] # [doc = ""] # [inline] pub fn get_selected_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_selected_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the editor's [EditorSelection] instance."] # [doc = ""] # [inline] pub fn get_selection (& self) -> Option < Ref < crate :: generated :: editor_selection :: EditorSelection , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . get_selection ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_selection :: EditorSelection , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Shows the given property on the given `object` in the editor's Inspector dock.\n# Default Arguments\n* `for_property` - `\"\"`"] # [doc = ""] # [inline] pub fn inspect_object (& self , object : impl AsArg < crate :: generated :: object :: Object > , for_property : impl Into < GodotString > , inspector_only : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . inspect_object ; let ret = crate :: icalls :: icallptr_void_obj_str_bool (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr () , for_property . into () , inspector_only) ; } } # [doc = "If `true`, enables distraction-free mode which hides side docks to increase the space available for the main view."] # [doc = ""] # [inline] pub fn is_distraction_free_mode_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . is_distraction_free_mode_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if a scene is currently being played, `false` otherwise. Paused scenes are considered as being played."] # [doc = ""] # [inline] pub fn is_playing_scene (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . is_playing_scene ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the specified `plugin` is enabled. The plugin name is the same as its directory name."] # [doc = ""] # [inline] pub fn is_plugin_enabled (& self , plugin : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . is_plugin_enabled ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , plugin . into ()) ; ret as _ } } # [doc = "Returns mesh previews rendered at the given size as an [Array] of [Texture]s."] # [doc = ""] # [inline] pub fn make_mesh_previews (& self , meshes : VariantArray , preview_size : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . make_mesh_previews ; let ret = crate :: icalls :: icallvar__arr_i64 (method_bind , self . this . sys () . as_ptr () , meshes , preview_size) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Opens the scene at the given path."] # [doc = ""] # [inline] pub fn open_scene_from_path (& self , scene_filepath : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . open_scene_from_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , scene_filepath . into ()) ; } } # [doc = "Plays the currently active scene."] # [doc = ""] # [inline] pub fn play_current_scene (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . play_current_scene ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Plays the scene specified by its filepath."] # [doc = ""] # [inline] pub fn play_custom_scene (& self , scene_filepath : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . play_custom_scene ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , scene_filepath . into ()) ; } } # [doc = "Plays the main scene."] # [doc = ""] # [inline] pub fn play_main_scene (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . play_main_scene ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Reloads the scene at the given path."] # [doc = ""] # [inline] pub fn reload_scene_from_path (& self , scene_filepath : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . reload_scene_from_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , scene_filepath . into ()) ; } } # [doc = "Saves the scene. Returns either `OK` or `ERR_CANT_CREATE` (see [@GlobalScope] constants)."] # [doc = ""] # [inline] pub fn save_scene (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . save_scene ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Saves the scene as a file at `path`.\n# Default Arguments\n* `with_preview` - `true`"] # [doc = ""] # [inline] pub fn save_scene_as (& self , path : impl Into < GodotString > , with_preview : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . save_scene_as ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , path . into () , with_preview) ; } } # [doc = "Selects the file, with the path provided by `file`, in the FileSystem dock."] # [doc = ""] # [inline] pub fn select_file (& self , file : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . select_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , file . into ()) ; } } # [doc = "If `true`, enables distraction-free mode which hides side docks to increase the space available for the main view."] # [doc = ""] # [inline] pub fn set_distraction_free_mode (& self , enter : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . set_distraction_free_mode ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enter) ; } } # [doc = "Sets the editor's current main screen to the one specified in `name`. `name` must match the text of the tab in question exactly (`2D`, `3D`, `Script`, `AssetLib`)."] # [doc = ""] # [inline] pub fn set_main_screen_editor (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . set_main_screen_editor ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Sets the enabled status of a plugin. The plugin name is the same as its directory name."] # [doc = ""] # [inline] pub fn set_plugin_enabled (& self , plugin : impl Into < GodotString > , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . set_plugin_enabled ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , plugin . into () , enabled) ; } } # [doc = "Stops the scene that is currently playing."] # [doc = ""] # [inline] pub fn stop_playing_scene (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorInterfaceMethodTable :: get (get_api ()) . stop_playing_scene ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorInterface { } unsafe impl GodotObject for EditorInterface { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorInterface" } } impl QueueFree for EditorInterface { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for EditorInterface { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorInterface { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for EditorInterface { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorInterface { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorInterfaceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub edit_node : * mut sys :: godot_method_bind , pub edit_resource : * mut sys :: godot_method_bind , pub get_base_control : * mut sys :: godot_method_bind , pub get_current_path : * mut sys :: godot_method_bind , pub get_edited_scene_root : * mut sys :: godot_method_bind , pub get_editor_scale : * mut sys :: godot_method_bind , pub get_editor_settings : * mut sys :: godot_method_bind , pub get_editor_viewport : * mut sys :: godot_method_bind , pub get_file_system_dock : * mut sys :: godot_method_bind , pub get_inspector : * mut sys :: godot_method_bind , pub get_open_scenes : * mut sys :: godot_method_bind , pub get_playing_scene : * mut sys :: godot_method_bind , pub get_resource_filesystem : * mut sys :: godot_method_bind , pub get_resource_previewer : * mut sys :: godot_method_bind , pub get_script_editor : * mut sys :: godot_method_bind , pub get_selected_path : * mut sys :: godot_method_bind , pub get_selection : * mut sys :: godot_method_bind , pub inspect_object : * mut sys :: godot_method_bind , pub is_distraction_free_mode_enabled : * mut sys :: godot_method_bind , pub is_playing_scene : * mut sys :: godot_method_bind , pub is_plugin_enabled : * mut sys :: godot_method_bind , pub make_mesh_previews : * mut sys :: godot_method_bind , pub open_scene_from_path : * mut sys :: godot_method_bind , pub play_current_scene : * mut sys :: godot_method_bind , pub play_custom_scene : * mut sys :: godot_method_bind , pub play_main_scene : * mut sys :: godot_method_bind , pub reload_scene_from_path : * mut sys :: godot_method_bind , pub save_scene : * mut sys :: godot_method_bind , pub save_scene_as : * mut sys :: godot_method_bind , pub select_file : * mut sys :: godot_method_bind , pub set_distraction_free_mode : * mut sys :: godot_method_bind , pub set_main_screen_editor : * mut sys :: godot_method_bind , pub set_plugin_enabled : * mut sys :: godot_method_bind , pub stop_playing_scene : * mut sys :: godot_method_bind } impl EditorInterfaceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorInterfaceMethodTable = EditorInterfaceMethodTable { class_constructor : None , edit_node : 0 as * mut sys :: godot_method_bind , edit_resource : 0 as * mut sys :: godot_method_bind , get_base_control : 0 as * mut sys :: godot_method_bind , get_current_path : 0 as * mut sys :: godot_method_bind , get_edited_scene_root : 0 as * mut sys :: godot_method_bind , get_editor_scale : 0 as * mut sys :: godot_method_bind , get_editor_settings : 0 as * mut sys :: godot_method_bind , get_editor_viewport : 0 as * mut sys :: godot_method_bind , get_file_system_dock : 0 as * mut sys :: godot_method_bind , get_inspector : 0 as * mut sys :: godot_method_bind , get_open_scenes : 0 as * mut sys :: godot_method_bind , get_playing_scene : 0 as * mut sys :: godot_method_bind , get_resource_filesystem : 0 as * mut sys :: godot_method_bind , get_resource_previewer : 0 as * mut sys :: godot_method_bind , get_script_editor : 0 as * mut sys :: godot_method_bind , get_selected_path : 0 as * mut sys :: godot_method_bind , get_selection : 0 as * mut sys :: godot_method_bind , inspect_object : 0 as * mut sys :: godot_method_bind , is_distraction_free_mode_enabled : 0 as * mut sys :: godot_method_bind , is_playing_scene : 0 as * mut sys :: godot_method_bind , is_plugin_enabled : 0 as * mut sys :: godot_method_bind , make_mesh_previews : 0 as * mut sys :: godot_method_bind , open_scene_from_path : 0 as * mut sys :: godot_method_bind , play_current_scene : 0 as * mut sys :: godot_method_bind , play_custom_scene : 0 as * mut sys :: godot_method_bind , play_main_scene : 0 as * mut sys :: godot_method_bind , reload_scene_from_path : 0 as * mut sys :: godot_method_bind , save_scene : 0 as * mut sys :: godot_method_bind , save_scene_as : 0 as * mut sys :: godot_method_bind , select_file : 0 as * mut sys :: godot_method_bind , set_distraction_free_mode : 0 as * mut sys :: godot_method_bind , set_main_screen_editor : 0 as * mut sys :: godot_method_bind , set_plugin_enabled : 0 as * mut sys :: godot_method_bind , stop_playing_scene : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorInterfaceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorInterface\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . edit_node = (gd_api . godot_method_bind_get_method) (class_name , "edit_node\0" . as_ptr () as * const c_char) ; table . edit_resource = (gd_api . godot_method_bind_get_method) (class_name , "edit_resource\0" . as_ptr () as * const c_char) ; table . get_base_control = (gd_api . godot_method_bind_get_method) (class_name , "get_base_control\0" . as_ptr () as * const c_char) ; table . get_current_path = (gd_api . godot_method_bind_get_method) (class_name , "get_current_path\0" . as_ptr () as * const c_char) ; table . get_edited_scene_root = (gd_api . godot_method_bind_get_method) (class_name , "get_edited_scene_root\0" . as_ptr () as * const c_char) ; table . get_editor_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_editor_scale\0" . as_ptr () as * const c_char) ; table . get_editor_settings = (gd_api . godot_method_bind_get_method) (class_name , "get_editor_settings\0" . as_ptr () as * const c_char) ; table . get_editor_viewport = (gd_api . godot_method_bind_get_method) (class_name , "get_editor_viewport\0" . as_ptr () as * const c_char) ; table . get_file_system_dock = (gd_api . godot_method_bind_get_method) (class_name , "get_file_system_dock\0" . as_ptr () as * const c_char) ; table . get_inspector = (gd_api . godot_method_bind_get_method) (class_name , "get_inspector\0" . as_ptr () as * const c_char) ; table . get_open_scenes = (gd_api . godot_method_bind_get_method) (class_name , "get_open_scenes\0" . as_ptr () as * const c_char) ; table . get_playing_scene = (gd_api . godot_method_bind_get_method) (class_name , "get_playing_scene\0" . as_ptr () as * const c_char) ; table . get_resource_filesystem = (gd_api . godot_method_bind_get_method) (class_name , "get_resource_filesystem\0" . as_ptr () as * const c_char) ; table . get_resource_previewer = (gd_api . godot_method_bind_get_method) (class_name , "get_resource_previewer\0" . as_ptr () as * const c_char) ; table . get_script_editor = (gd_api . godot_method_bind_get_method) (class_name , "get_script_editor\0" . as_ptr () as * const c_char) ; table . get_selected_path = (gd_api . godot_method_bind_get_method) (class_name , "get_selected_path\0" . as_ptr () as * const c_char) ; table . get_selection = (gd_api . godot_method_bind_get_method) (class_name , "get_selection\0" . as_ptr () as * const c_char) ; table . inspect_object = (gd_api . godot_method_bind_get_method) (class_name , "inspect_object\0" . as_ptr () as * const c_char) ; table . is_distraction_free_mode_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_distraction_free_mode_enabled\0" . as_ptr () as * const c_char) ; table . is_playing_scene = (gd_api . godot_method_bind_get_method) (class_name , "is_playing_scene\0" . as_ptr () as * const c_char) ; table . is_plugin_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_plugin_enabled\0" . as_ptr () as * const c_char) ; table . make_mesh_previews = (gd_api . godot_method_bind_get_method) (class_name , "make_mesh_previews\0" . as_ptr () as * const c_char) ; table . open_scene_from_path = (gd_api . godot_method_bind_get_method) (class_name , "open_scene_from_path\0" . as_ptr () as * const c_char) ; table . play_current_scene = (gd_api . godot_method_bind_get_method) (class_name , "play_current_scene\0" . as_ptr () as * const c_char) ; table . play_custom_scene = (gd_api . godot_method_bind_get_method) (class_name , "play_custom_scene\0" . as_ptr () as * const c_char) ; table . play_main_scene = (gd_api . godot_method_bind_get_method) (class_name , "play_main_scene\0" . as_ptr () as * const c_char) ; table . reload_scene_from_path = (gd_api . godot_method_bind_get_method) (class_name , "reload_scene_from_path\0" . as_ptr () as * const c_char) ; table . save_scene = (gd_api . godot_method_bind_get_method) (class_name , "save_scene\0" . as_ptr () as * const c_char) ; table . save_scene_as = (gd_api . godot_method_bind_get_method) (class_name , "save_scene_as\0" . as_ptr () as * const c_char) ; table . select_file = (gd_api . godot_method_bind_get_method) (class_name , "select_file\0" . as_ptr () as * const c_char) ; table . set_distraction_free_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_distraction_free_mode\0" . as_ptr () as * const c_char) ; table . set_main_screen_editor = (gd_api . godot_method_bind_get_method) (class_name , "set_main_screen_editor\0" . as_ptr () as * const c_char) ; table . set_plugin_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_plugin_enabled\0" . as_ptr () as * const c_char) ; table . stop_playing_scene = (gd_api . godot_method_bind_get_method) (class_name , "stop_playing_scene\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:586:23650 [INFO] [stdout] | [INFO] [stdout] 586 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 586 | # [doc = "`core class Particles2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_particles2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Particles2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nParticles2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Particles2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct DrawOrder (pub i64) ; impl DrawOrder { pub const INDEX : DrawOrder = DrawOrder (0i64) ; pub const LIFETIME : DrawOrder = DrawOrder (1i64) ; } impl From < i64 > for DrawOrder { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < DrawOrder > for i64 { # [inline] fn from (v : DrawOrder) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Particles2D { pub const DRAW_ORDER_INDEX : i64 = 0i64 ; pub const DRAW_ORDER_LIFETIME : i64 = 1i64 ; } impl Particles2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = Particles2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Returns a rectangle containing the positions of all existing particles."] # [doc = ""] # [inline] pub fn capture_rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . capture_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Number of particles emitted in one emission cycle."] # [doc = ""] # [inline] pub fn amount (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_amount ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Particle draw order. Uses [enum DrawOrder] values."] # [doc = ""] # [inline] pub fn draw_order (& self) -> crate :: generated :: particles_2d :: DrawOrder { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_draw_order ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: particles_2d :: DrawOrder (ret) } } # [doc = "How rapidly particles in an emission cycle are emitted. If greater than `0`, there will be a gap in emissions before the next cycle begins."] # [doc = ""] # [inline] pub fn explosiveness_ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_explosiveness_ratio ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The particle system's frame rate is fixed to a value. For instance, changing the value to 2 will make the particles render at 2 frames per second. Note this does not slow down the simulation of the particle system itself."] # [doc = ""] # [inline] pub fn fixed_fps (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_fixed_fps ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, results in fractional delta calculation which has a smoother particles display effect."] # [doc = ""] # [inline] pub fn fractional_delta (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_fractional_delta ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of time each particle will exist."] # [doc = ""] # [inline] pub fn lifetime (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_lifetime ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Normal map to be used for the [member texture] property.\n**Note:** Godot expects the normal map to use X+, Y-, and Z+ coordinates. See [url=http://wiki.polycount.com/wiki/Normal_Map_Technical_Details#Common_Swizzle_Coordinates]this page[/url] for a comparison of normal map coordinates expected by popular engines."] # [doc = ""] # [inline] pub fn normal_map (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_normal_map ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, only one emission cycle occurs. If set `true` during a cycle, emission will stop at the cycle's end."] # [doc = ""] # [inline] pub fn one_shot (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_one_shot ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Particle system starts as if it had already run for this many seconds."] # [doc = ""] # [inline] pub fn pre_process_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_pre_process_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "[Material] for processing particles. Can be a [ParticlesMaterial] or a [ShaderMaterial]."] # [doc = ""] # [inline] pub fn process_material (& self) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_process_material ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: material :: Material , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Emission lifetime randomness ratio."] # [doc = ""] # [inline] pub fn randomness_ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_randomness_ratio ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Particle system's running speed scaling ratio. A value of `0` can be used to pause the particles."] # [doc = ""] # [inline] pub fn speed_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_speed_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Particle texture. If `null`, particles will be squares."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_texture ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, particles use the parent node's coordinate space. If `false`, they use global coordinates."] # [doc = ""] # [inline] pub fn use_local_coordinates (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_use_local_coordinates ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Editor visibility helper."] # [doc = ""] # [inline] pub fn visibility_rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . get_visibility_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, particles are being emitted."] # [doc = ""] # [inline] pub fn is_emitting (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . is_emitting ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Restarts all the existing particles."] # [doc = ""] # [inline] pub fn restart (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . restart ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Number of particles emitted in one emission cycle."] # [doc = ""] # [inline] pub fn set_amount (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_amount ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Particle draw order. Uses [enum DrawOrder] values."] # [doc = ""] # [inline] pub fn set_draw_order (& self , order : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_draw_order ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , order) ; } } # [doc = "If `true`, particles are being emitted."] # [doc = ""] # [inline] pub fn set_emitting (& self , emitting : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_emitting ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , emitting) ; } } # [doc = "How rapidly particles in an emission cycle are emitted. If greater than `0`, there will be a gap in emissions before the next cycle begins."] # [doc = ""] # [inline] pub fn set_explosiveness_ratio (& self , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_explosiveness_ratio ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ratio) ; } } # [doc = "The particle system's frame rate is fixed to a value. For instance, changing the value to 2 will make the particles render at 2 frames per second. Note this does not slow down the simulation of the particle system itself."] # [doc = ""] # [inline] pub fn set_fixed_fps (& self , fps : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_fixed_fps ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , fps) ; } } # [doc = "If `true`, results in fractional delta calculation which has a smoother particles display effect."] # [doc = ""] # [inline] pub fn set_fractional_delta (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_fractional_delta ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Amount of time each particle will exist."] # [doc = ""] # [inline] pub fn set_lifetime (& self , secs : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_lifetime ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , secs) ; } } # [doc = "Normal map to be used for the [member texture] property.\n**Note:** Godot expects the normal map to use X+, Y-, and Z+ coordinates. See [url=http://wiki.polycount.com/wiki/Normal_Map_Technical_Details#Common_Swizzle_Coordinates]this page[/url] for a comparison of normal map coordinates expected by popular engines."] # [doc = ""] # [inline] pub fn set_normal_map (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_normal_map ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "If `true`, only one emission cycle occurs. If set `true` during a cycle, emission will stop at the cycle's end."] # [doc = ""] # [inline] pub fn set_one_shot (& self , secs : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_one_shot ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , secs) ; } } # [doc = "Particle system starts as if it had already run for this many seconds."] # [doc = ""] # [inline] pub fn set_pre_process_time (& self , secs : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_pre_process_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , secs) ; } } # [doc = "[Material] for processing particles. Can be a [ParticlesMaterial] or a [ShaderMaterial]."] # [doc = ""] # [inline] pub fn set_process_material (& self , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_process_material ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , material . as_arg_ptr ()) ; } } # [doc = "Emission lifetime randomness ratio."] # [doc = ""] # [inline] pub fn set_randomness_ratio (& self , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_randomness_ratio ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ratio) ; } } # [doc = "Particle system's running speed scaling ratio. A value of `0` can be used to pause the particles."] # [doc = ""] # [inline] pub fn set_speed_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_speed_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Particle texture. If `null`, particles will be squares."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "If `true`, particles use the parent node's coordinate space. If `false`, they use global coordinates."] # [doc = ""] # [inline] pub fn set_use_local_coordinates (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_use_local_coordinates ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Editor visibility helper."] # [doc = ""] # [inline] pub fn set_visibility_rect (& self , visibility_rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Particles2DMethodTable :: get (get_api ()) . set_visibility_rect ; let ret = crate :: icalls :: icallptr_void_rect2 (method_bind , self . this . sys () . as_ptr () , visibility_rect) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Particles2D { } unsafe impl GodotObject for Particles2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Particles2D" } } impl QueueFree for Particles2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Particles2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Particles2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for Particles2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Particles2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Particles2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Particles2D { } impl Instanciable for Particles2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Particles2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Particles2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub capture_rect : * mut sys :: godot_method_bind , pub get_amount : * mut sys :: godot_method_bind , pub get_draw_order : * mut sys :: godot_method_bind , pub get_explosiveness_ratio : * mut sys :: godot_method_bind , pub get_fixed_fps : * mut sys :: godot_method_bind , pub get_fractional_delta : * mut sys :: godot_method_bind , pub get_lifetime : * mut sys :: godot_method_bind , pub get_normal_map : * mut sys :: godot_method_bind , pub get_one_shot : * mut sys :: godot_method_bind , pub get_pre_process_time : * mut sys :: godot_method_bind , pub get_process_material : * mut sys :: godot_method_bind , pub get_randomness_ratio : * mut sys :: godot_method_bind , pub get_speed_scale : * mut sys :: godot_method_bind , pub get_texture : * mut sys :: godot_method_bind , pub get_use_local_coordinates : * mut sys :: godot_method_bind , pub get_visibility_rect : * mut sys :: godot_method_bind , pub is_emitting : * mut sys :: godot_method_bind , pub restart : * mut sys :: godot_method_bind , pub set_amount : * mut sys :: godot_method_bind , pub set_draw_order : * mut sys :: godot_method_bind , pub set_emitting : * mut sys :: godot_method_bind , pub set_explosiveness_ratio : * mut sys :: godot_method_bind , pub set_fixed_fps : * mut sys :: godot_method_bind , pub set_fractional_delta : * mut sys :: godot_method_bind , pub set_lifetime : * mut sys :: godot_method_bind , pub set_normal_map : * mut sys :: godot_method_bind , pub set_one_shot : * mut sys :: godot_method_bind , pub set_pre_process_time : * mut sys :: godot_method_bind , pub set_process_material : * mut sys :: godot_method_bind , pub set_randomness_ratio : * mut sys :: godot_method_bind , pub set_speed_scale : * mut sys :: godot_method_bind , pub set_texture : * mut sys :: godot_method_bind , pub set_use_local_coordinates : * mut sys :: godot_method_bind , pub set_visibility_rect : * mut sys :: godot_method_bind } impl Particles2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Particles2DMethodTable = Particles2DMethodTable { class_constructor : None , capture_rect : 0 as * mut sys :: godot_method_bind , get_amount : 0 as * mut sys :: godot_method_bind , get_draw_order : 0 as * mut sys :: godot_method_bind , get_explosiveness_ratio : 0 as * mut sys :: godot_method_bind , get_fixed_fps : 0 as * mut sys :: godot_method_bind , get_fractional_delta : 0 as * mut sys :: godot_method_bind , get_lifetime : 0 as * mut sys :: godot_method_bind , get_normal_map : 0 as * mut sys :: godot_method_bind , get_one_shot : 0 as * mut sys :: godot_method_bind , get_pre_process_time : 0 as * mut sys :: godot_method_bind , get_process_material : 0 as * mut sys :: godot_method_bind , get_randomness_ratio : 0 as * mut sys :: godot_method_bind , get_speed_scale : 0 as * mut sys :: godot_method_bind , get_texture : 0 as * mut sys :: godot_method_bind , get_use_local_coordinates : 0 as * mut sys :: godot_method_bind , get_visibility_rect : 0 as * mut sys :: godot_method_bind , is_emitting : 0 as * mut sys :: godot_method_bind , restart : 0 as * mut sys :: godot_method_bind , set_amount : 0 as * mut sys :: godot_method_bind , set_draw_order : 0 as * mut sys :: godot_method_bind , set_emitting : 0 as * mut sys :: godot_method_bind , set_explosiveness_ratio : 0 as * mut sys :: godot_method_bind , set_fixed_fps : 0 as * mut sys :: godot_method_bind , set_fractional_delta : 0 as * mut sys :: godot_method_bind , set_lifetime : 0 as * mut sys :: godot_method_bind , set_normal_map : 0 as * mut sys :: godot_method_bind , set_one_shot : 0 as * mut sys :: godot_method_bind , set_pre_process_time : 0 as * mut sys :: godot_method_bind , set_process_material : 0 as * mut sys :: godot_method_bind , set_randomness_ratio : 0 as * mut sys :: godot_method_bind , set_speed_scale : 0 as * mut sys :: godot_method_bind , set_texture : 0 as * mut sys :: godot_method_bind , set_use_local_coordinates : 0 as * mut sys :: godot_method_bind , set_visibility_rect : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Particles2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Particles2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . capture_rect = (gd_api . godot_method_bind_get_method) (class_name , "capture_rect\0" . as_ptr () as * const c_char) ; table . get_amount = (gd_api . godot_method_bind_get_method) (class_name , "get_amount\0" . as_ptr () as * const c_char) ; table . get_draw_order = (gd_api . godot_method_bind_get_method) (class_name , "get_draw_order\0" . as_ptr () as * const c_char) ; table . get_explosiveness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "get_explosiveness_ratio\0" . as_ptr () as * const c_char) ; table . get_fixed_fps = (gd_api . godot_method_bind_get_method) (class_name , "get_fixed_fps\0" . as_ptr () as * const c_char) ; table . get_fractional_delta = (gd_api . godot_method_bind_get_method) (class_name , "get_fractional_delta\0" . as_ptr () as * const c_char) ; table . get_lifetime = (gd_api . godot_method_bind_get_method) (class_name , "get_lifetime\0" . as_ptr () as * const c_char) ; table . get_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "get_normal_map\0" . as_ptr () as * const c_char) ; table . get_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "get_one_shot\0" . as_ptr () as * const c_char) ; table . get_pre_process_time = (gd_api . godot_method_bind_get_method) (class_name , "get_pre_process_time\0" . as_ptr () as * const c_char) ; table . get_process_material = (gd_api . godot_method_bind_get_method) (class_name , "get_process_material\0" . as_ptr () as * const c_char) ; table . get_randomness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "get_randomness_ratio\0" . as_ptr () as * const c_char) ; table . get_speed_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_speed_scale\0" . as_ptr () as * const c_char) ; table . get_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_texture\0" . as_ptr () as * const c_char) ; table . get_use_local_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "get_use_local_coordinates\0" . as_ptr () as * const c_char) ; table . get_visibility_rect = (gd_api . godot_method_bind_get_method) (class_name , "get_visibility_rect\0" . as_ptr () as * const c_char) ; table . is_emitting = (gd_api . godot_method_bind_get_method) (class_name , "is_emitting\0" . as_ptr () as * const c_char) ; table . restart = (gd_api . godot_method_bind_get_method) (class_name , "restart\0" . as_ptr () as * const c_char) ; table . set_amount = (gd_api . godot_method_bind_get_method) (class_name , "set_amount\0" . as_ptr () as * const c_char) ; table . set_draw_order = (gd_api . godot_method_bind_get_method) (class_name , "set_draw_order\0" . as_ptr () as * const c_char) ; table . set_emitting = (gd_api . godot_method_bind_get_method) (class_name , "set_emitting\0" . as_ptr () as * const c_char) ; table . set_explosiveness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "set_explosiveness_ratio\0" . as_ptr () as * const c_char) ; table . set_fixed_fps = (gd_api . godot_method_bind_get_method) (class_name , "set_fixed_fps\0" . as_ptr () as * const c_char) ; table . set_fractional_delta = (gd_api . godot_method_bind_get_method) (class_name , "set_fractional_delta\0" . as_ptr () as * const c_char) ; table . set_lifetime = (gd_api . godot_method_bind_get_method) (class_name , "set_lifetime\0" . as_ptr () as * const c_char) ; table . set_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "set_normal_map\0" . as_ptr () as * const c_char) ; table . set_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "set_one_shot\0" . as_ptr () as * const c_char) ; table . set_pre_process_time = (gd_api . godot_method_bind_get_method) (class_name , "set_pre_process_time\0" . as_ptr () as * const c_char) ; table . set_process_material = (gd_api . godot_method_bind_get_method) (class_name , "set_process_material\0" . as_ptr () as * const c_char) ; table . set_randomness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "set_randomness_ratio\0" . as_ptr () as * const c_char) ; table . set_speed_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_speed_scale\0" . as_ptr () as * const c_char) ; table . set_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_texture\0" . as_ptr () as * const c_char) ; table . set_use_local_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "set_use_local_coordinates\0" . as_ptr () as * const c_char) ; table . set_visibility_rect = (gd_api . godot_method_bind_get_method) (class_name , "set_visibility_rect\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:592:11603 [INFO] [stdout] | [INFO] [stdout] 592 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 592 | # [doc = "`core class BakedLightmapData` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_bakedlightmapdata.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nBakedLightmapData inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct BakedLightmapData { this : RawObject < Self > , } impl BakedLightmapData { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = BakedLightmapDataMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn add_user (& self , path : impl Into < NodePath > , lightmap : impl AsArg < crate :: generated :: resource :: Resource > , lightmap_slice : i64 , lightmap_uv_rect : Rect2 , instance : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . add_user ; let ret = crate :: icalls :: icallptr_void_nodepath_obj_i64_rect2_i64 (method_bind , self . this . sys () . as_ptr () , path . into () , lightmap . as_arg_ptr () , lightmap_slice , lightmap_uv_rect , instance) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn clear_data (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . clear_data ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn clear_users (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . clear_users ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn bounds (& self) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_bounds ; let ret = crate :: icalls :: icallptr_aabb (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn cell_space_transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_cell_space_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn cell_subdiv (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_cell_subdiv ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn octree (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_octree ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_user_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_user_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_user_lightmap (& self , user_idx : i64) -> Option < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_user_lightmap ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , user_idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_user_path (& self , user_idx : i64) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . get_user_path ; let ret = crate :: icalls :: icallptr_nodepath_i64 (method_bind , self . this . sys () . as_ptr () , user_idx) ; NodePath :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_interior (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . is_interior ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_bounds (& self , bounds : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . set_bounds ; let ret = crate :: icalls :: icallptr_void_aabb (method_bind , self . this . sys () . as_ptr () , bounds) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_space_transform (& self , xform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . set_cell_space_transform ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , xform) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_subdiv (& self , cell_subdiv : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . set_cell_subdiv ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , cell_subdiv) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . set_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_interior (& self , interior : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . set_interior ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , interior) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_octree (& self , octree : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BakedLightmapDataMethodTable :: get (get_api ()) . set_octree ; let ret = crate :: icalls :: icallptr_void_bytearr (method_bind , self . this . sys () . as_ptr () , octree) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for BakedLightmapData { } unsafe impl GodotObject for BakedLightmapData { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "BakedLightmapData" } } impl std :: ops :: Deref for BakedLightmapData { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for BakedLightmapData { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for BakedLightmapData { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for BakedLightmapData { } unsafe impl SubClass < crate :: generated :: object :: Object > for BakedLightmapData { } impl Instanciable for BakedLightmapData { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { BakedLightmapData :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct BakedLightmapDataMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_user : * mut sys :: godot_method_bind , pub clear_data : * mut sys :: godot_method_bind , pub clear_users : * mut sys :: godot_method_bind , pub get_bounds : * mut sys :: godot_method_bind , pub get_cell_space_transform : * mut sys :: godot_method_bind , pub get_cell_subdiv : * mut sys :: godot_method_bind , pub get_energy : * mut sys :: godot_method_bind , pub get_octree : * mut sys :: godot_method_bind , pub get_user_count : * mut sys :: godot_method_bind , pub get_user_lightmap : * mut sys :: godot_method_bind , pub get_user_path : * mut sys :: godot_method_bind , pub is_interior : * mut sys :: godot_method_bind , pub set_bounds : * mut sys :: godot_method_bind , pub set_cell_space_transform : * mut sys :: godot_method_bind , pub set_cell_subdiv : * mut sys :: godot_method_bind , pub set_energy : * mut sys :: godot_method_bind , pub set_interior : * mut sys :: godot_method_bind , pub set_octree : * mut sys :: godot_method_bind } impl BakedLightmapDataMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : BakedLightmapDataMethodTable = BakedLightmapDataMethodTable { class_constructor : None , add_user : 0 as * mut sys :: godot_method_bind , clear_data : 0 as * mut sys :: godot_method_bind , clear_users : 0 as * mut sys :: godot_method_bind , get_bounds : 0 as * mut sys :: godot_method_bind , get_cell_space_transform : 0 as * mut sys :: godot_method_bind , get_cell_subdiv : 0 as * mut sys :: godot_method_bind , get_energy : 0 as * mut sys :: godot_method_bind , get_octree : 0 as * mut sys :: godot_method_bind , get_user_count : 0 as * mut sys :: godot_method_bind , get_user_lightmap : 0 as * mut sys :: godot_method_bind , get_user_path : 0 as * mut sys :: godot_method_bind , is_interior : 0 as * mut sys :: godot_method_bind , set_bounds : 0 as * mut sys :: godot_method_bind , set_cell_space_transform : 0 as * mut sys :: godot_method_bind , set_cell_subdiv : 0 as * mut sys :: godot_method_bind , set_energy : 0 as * mut sys :: godot_method_bind , set_interior : 0 as * mut sys :: godot_method_bind , set_octree : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { BakedLightmapDataMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "BakedLightmapData\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_user = (gd_api . godot_method_bind_get_method) (class_name , "add_user\0" . as_ptr () as * const c_char) ; table . clear_data = (gd_api . godot_method_bind_get_method) (class_name , "clear_data\0" . as_ptr () as * const c_char) ; table . clear_users = (gd_api . godot_method_bind_get_method) (class_name , "clear_users\0" . as_ptr () as * const c_char) ; table . get_bounds = (gd_api . godot_method_bind_get_method) (class_name , "get_bounds\0" . as_ptr () as * const c_char) ; table . get_cell_space_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_cell_space_transform\0" . as_ptr () as * const c_char) ; table . get_cell_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "get_cell_subdiv\0" . as_ptr () as * const c_char) ; table . get_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_energy\0" . as_ptr () as * const c_char) ; table . get_octree = (gd_api . godot_method_bind_get_method) (class_name , "get_octree\0" . as_ptr () as * const c_char) ; table . get_user_count = (gd_api . godot_method_bind_get_method) (class_name , "get_user_count\0" . as_ptr () as * const c_char) ; table . get_user_lightmap = (gd_api . godot_method_bind_get_method) (class_name , "get_user_lightmap\0" . as_ptr () as * const c_char) ; table . get_user_path = (gd_api . godot_method_bind_get_method) (class_name , "get_user_path\0" . as_ptr () as * const c_char) ; table . is_interior = (gd_api . godot_method_bind_get_method) (class_name , "is_interior\0" . as_ptr () as * const c_char) ; table . set_bounds = (gd_api . godot_method_bind_get_method) (class_name , "set_bounds\0" . as_ptr () as * const c_char) ; table . set_cell_space_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_cell_space_transform\0" . as_ptr () as * const c_char) ; table . set_cell_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "set_cell_subdiv\0" . as_ptr () as * const c_char) ; table . set_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_energy\0" . as_ptr () as * const c_char) ; table . set_interior = (gd_api . godot_method_bind_get_method) (class_name , "set_interior\0" . as_ptr () as * const c_char) ; table . set_octree = (gd_api . godot_method_bind_get_method) (class_name , "set_octree\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:598:11805 [INFO] [stdout] | [INFO] [stdout] 598 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 598 | # [doc = "`core class CSGShape` inherits `GeometryInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_csgshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nCSGShape inherits methods from:\n - [GeometryInstance](struct.GeometryInstance.html)\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct CSGShape { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Operation (pub i64) ; impl Operation { pub const UNION : Operation = Operation (0i64) ; pub const INTERSECTION : Operation = Operation (1i64) ; pub const SUBTRACTION : Operation = Operation (2i64) ; } impl From < i64 > for Operation { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Operation > for i64 { # [inline] fn from (v : Operation) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl CSGShape { pub const OPERATION_INTERSECTION : i64 = 1i64 ; pub const OPERATION_SUBTRACTION : i64 = 2i64 ; pub const OPERATION_UNION : i64 = 0i64 ; } impl CSGShape { # [doc = ""] # [doc = ""] # [inline] pub fn collision_layer (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . get_collision_layer ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_collision_layer_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . get_collision_layer_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . get_collision_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_collision_mask_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . get_collision_mask_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_meshes (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . get_meshes ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = ""] # [doc = ""] # [inline] pub fn operation (& self) -> crate :: generated :: csg_shape :: Operation { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . get_operation ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: csg_shape :: Operation (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn snap (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . get_snap ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_calculating_tangents (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . is_calculating_tangents ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_root_shape (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . is_root_shape ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_using_collision (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . is_using_collision ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_calculate_tangents (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_calculate_tangents ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_collision_layer (& self , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_collision_layer ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , layer) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_collision_layer_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_collision_layer_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_collision_mask (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_collision_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mask) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_collision_mask_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_collision_mask_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_operation (& self , operation : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_operation ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , operation) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_snap (& self , snap : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_snap ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , snap) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_use_collision (& self , operation : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGShapeMethodTable :: get (get_api ()) . set_use_collision ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , operation) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CSGShape { } unsafe impl GodotObject for CSGShape { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CSGShape" } } impl QueueFree for CSGShape { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for CSGShape { type Target = crate :: generated :: geometry_instance :: GeometryInstance ; # [inline] fn deref (& self) -> & crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CSGShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for CSGShape { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for CSGShape { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CSGShape { } unsafe impl SubClass < crate :: generated :: node :: Node > for CSGShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for CSGShape { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CSGShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_collision_layer : * mut sys :: godot_method_bind , pub get_collision_layer_bit : * mut sys :: godot_method_bind , pub get_collision_mask : * mut sys :: godot_method_bind , pub get_collision_mask_bit : * mut sys :: godot_method_bind , pub get_meshes : * mut sys :: godot_method_bind , pub get_operation : * mut sys :: godot_method_bind , pub get_snap : * mut sys :: godot_method_bind , pub is_calculating_tangents : * mut sys :: godot_method_bind , pub is_root_shape : * mut sys :: godot_method_bind , pub is_using_collision : * mut sys :: godot_method_bind , pub set_calculate_tangents : * mut sys :: godot_method_bind , pub set_collision_layer : * mut sys :: godot_method_bind , pub set_collision_layer_bit : * mut sys :: godot_method_bind , pub set_collision_mask : * mut sys :: godot_method_bind , pub set_collision_mask_bit : * mut sys :: godot_method_bind , pub set_operation : * mut sys :: godot_method_bind , pub set_snap : * mut sys :: godot_method_bind , pub set_use_collision : * mut sys :: godot_method_bind } impl CSGShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CSGShapeMethodTable = CSGShapeMethodTable { class_constructor : None , get_collision_layer : 0 as * mut sys :: godot_method_bind , get_collision_layer_bit : 0 as * mut sys :: godot_method_bind , get_collision_mask : 0 as * mut sys :: godot_method_bind , get_collision_mask_bit : 0 as * mut sys :: godot_method_bind , get_meshes : 0 as * mut sys :: godot_method_bind , get_operation : 0 as * mut sys :: godot_method_bind , get_snap : 0 as * mut sys :: godot_method_bind , is_calculating_tangents : 0 as * mut sys :: godot_method_bind , is_root_shape : 0 as * mut sys :: godot_method_bind , is_using_collision : 0 as * mut sys :: godot_method_bind , set_calculate_tangents : 0 as * mut sys :: godot_method_bind , set_collision_layer : 0 as * mut sys :: godot_method_bind , set_collision_layer_bit : 0 as * mut sys :: godot_method_bind , set_collision_mask : 0 as * mut sys :: godot_method_bind , set_collision_mask_bit : 0 as * mut sys :: godot_method_bind , set_operation : 0 as * mut sys :: godot_method_bind , set_snap : 0 as * mut sys :: godot_method_bind , set_use_collision : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CSGShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CSGShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_layer\0" . as_ptr () as * const c_char) ; table . get_collision_layer_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_layer_bit\0" . as_ptr () as * const c_char) ; table . get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask\0" . as_ptr () as * const c_char) ; table . get_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . get_meshes = (gd_api . godot_method_bind_get_method) (class_name , "get_meshes\0" . as_ptr () as * const c_char) ; table . get_operation = (gd_api . godot_method_bind_get_method) (class_name , "get_operation\0" . as_ptr () as * const c_char) ; table . get_snap = (gd_api . godot_method_bind_get_method) (class_name , "get_snap\0" . as_ptr () as * const c_char) ; table . is_calculating_tangents = (gd_api . godot_method_bind_get_method) (class_name , "is_calculating_tangents\0" . as_ptr () as * const c_char) ; table . is_root_shape = (gd_api . godot_method_bind_get_method) (class_name , "is_root_shape\0" . as_ptr () as * const c_char) ; table . is_using_collision = (gd_api . godot_method_bind_get_method) (class_name , "is_using_collision\0" . as_ptr () as * const c_char) ; table . set_calculate_tangents = (gd_api . godot_method_bind_get_method) (class_name , "set_calculate_tangents\0" . as_ptr () as * const c_char) ; table . set_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_layer\0" . as_ptr () as * const c_char) ; table . set_collision_layer_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_layer_bit\0" . as_ptr () as * const c_char) ; table . set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask\0" . as_ptr () as * const c_char) ; table . set_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . set_operation = (gd_api . godot_method_bind_get_method) (class_name , "set_operation\0" . as_ptr () as * const c_char) ; table . set_snap = (gd_api . godot_method_bind_get_method) (class_name , "set_snap\0" . as_ptr () as * const c_char) ; table . set_use_collision = (gd_api . godot_method_bind_get_method) (class_name , "set_use_collision\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:604:3393 [INFO] [stdout] | [INFO] [stdout] 604 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 604 | # [doc = "`core class PacketPeerGDNative` inherits `PacketPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_packetpeergdnative.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPacketPeerGDNative inherits methods from:\n - [PacketPeer](struct.PacketPeer.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PacketPeerGDNative { this : RawObject < Self > , } impl PacketPeerGDNative { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PacketPeerGDNativeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for PacketPeerGDNative { } unsafe impl GodotObject for PacketPeerGDNative { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PacketPeerGDNative" } } impl std :: ops :: Deref for PacketPeerGDNative { type Target = crate :: generated :: packet_peer :: PacketPeer ; # [inline] fn deref (& self) -> & crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PacketPeerGDNative { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: packet_peer :: PacketPeer > for PacketPeerGDNative { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PacketPeerGDNative { } unsafe impl SubClass < crate :: generated :: object :: Object > for PacketPeerGDNative { } impl Instanciable for PacketPeerGDNative { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PacketPeerGDNative :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PacketPeerGDNativeMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl PacketPeerGDNativeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PacketPeerGDNativeMethodTable = PacketPeerGDNativeMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PacketPeerGDNativeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PacketPeerGDNative\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:610:7494 [INFO] [stdout] | [INFO] [stdout] 610 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 610 | # [doc = "`tools class EditorSpatialGizmoPlugin` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorspatialgizmoplugin.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nEditorSpatialGizmoPlugin inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorSpatialGizmoPlugin { this : RawObject < Self > , } impl EditorSpatialGizmoPlugin { # [doc = "Adds a new material to the internal material list for the plugin. It can then be accessed with [method get_material]. Should not be overridden."] # [doc = ""] # [inline] pub fn add_material (& self , name : impl Into < GodotString > , material : impl AsArg < crate :: generated :: spatial_material :: SpatialMaterial >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpatialGizmoPluginMethodTable :: get (get_api ()) . add_material ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , material . as_arg_ptr ()) ; } } # [doc = "Creates a handle material with its variants (selected and/or editable) and adds them to the internal material list. They can then be accessed with [method get_material] and used in [method EditorSpatialGizmo.add_handles]. Should not be overridden.\n# Default Arguments\n* `billboard` - `false`"] # [doc = ""] # [inline] pub fn create_handle_material (& self , name : impl Into < GodotString > , billboard : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpatialGizmoPluginMethodTable :: get (get_api ()) . create_handle_material ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , name . into () , billboard) ; } } # [doc = "Creates an icon material with its variants (selected and/or editable) and adds them to the internal material list. They can then be accessed with [method get_material] and used in [method EditorSpatialGizmo.add_unscaled_billboard]. Should not be overridden.\n# Default Arguments\n* `on_top` - `false`\n* `color` - `Color( 1, 1, 1, 1 )`"] # [doc = ""] # [inline] pub fn create_icon_material (& self , name : impl Into < GodotString > , texture : impl AsArg < crate :: generated :: texture :: Texture > , on_top : bool , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpatialGizmoPluginMethodTable :: get (get_api ()) . create_icon_material ; let ret = crate :: icalls :: icallptr_void_str_obj_bool_color (method_bind , self . this . sys () . as_ptr () , name . into () , texture . as_arg_ptr () , on_top , color) ; } } # [doc = "Creates an unshaded material with its variants (selected and/or editable) and adds them to the internal material list. They can then be accessed with [method get_material] and used in [method EditorSpatialGizmo.add_mesh] and [method EditorSpatialGizmo.add_lines]. Should not be overridden.\n# Default Arguments\n* `billboard` - `false`\n* `on_top` - `false`\n* `use_vertex_color` - `false`"] # [doc = ""] # [inline] pub fn create_material (& self , name : impl Into < GodotString > , color : Color , billboard : bool , on_top : bool , use_vertex_color : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpatialGizmoPluginMethodTable :: get (get_api ()) . create_material ; let ret = crate :: icalls :: icallptr_void_str_color_bool_bool_bool (method_bind , self . this . sys () . as_ptr () , name . into () , color , billboard , on_top , use_vertex_color) ; } } # [doc = "Gets material from the internal list of materials. If an [EditorSpatialGizmo] is provided, it will try to get the corresponding variant (selected and/or editable)."] # [doc = ""] # [inline] pub fn get_material (& self , name : impl Into < GodotString > , gizmo : impl AsArg < crate :: generated :: editor_spatial_gizmo :: EditorSpatialGizmo >) -> Option < Ref < crate :: generated :: spatial_material :: SpatialMaterial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSpatialGizmoPluginMethodTable :: get (get_api ()) . get_material ; let ret = crate :: icalls :: icallptr_obj_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , gizmo . as_arg_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: spatial_material :: SpatialMaterial , thread_access :: Shared >> :: move_from_sys (sys)) } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorSpatialGizmoPlugin { } unsafe impl GodotObject for EditorSpatialGizmoPlugin { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "EditorSpatialGizmoPlugin" } } impl std :: ops :: Deref for EditorSpatialGizmoPlugin { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorSpatialGizmoPlugin { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for EditorSpatialGizmoPlugin { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for EditorSpatialGizmoPlugin { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorSpatialGizmoPlugin { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorSpatialGizmoPluginMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_material : * mut sys :: godot_method_bind , pub create_handle_material : * mut sys :: godot_method_bind , pub create_icon_material : * mut sys :: godot_method_bind , pub create_material : * mut sys :: godot_method_bind , pub get_material : * mut sys :: godot_method_bind } impl EditorSpatialGizmoPluginMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorSpatialGizmoPluginMethodTable = EditorSpatialGizmoPluginMethodTable { class_constructor : None , add_material : 0 as * mut sys :: godot_method_bind , create_handle_material : 0 as * mut sys :: godot_method_bind , create_icon_material : 0 as * mut sys :: godot_method_bind , create_material : 0 as * mut sys :: godot_method_bind , get_material : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorSpatialGizmoPluginMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorSpatialGizmoPlugin\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_material = (gd_api . godot_method_bind_get_method) (class_name , "add_material\0" . as_ptr () as * const c_char) ; table . create_handle_material = (gd_api . godot_method_bind_get_method) (class_name , "create_handle_material\0" . as_ptr () as * const c_char) ; table . create_icon_material = (gd_api . godot_method_bind_get_method) (class_name , "create_icon_material\0" . as_ptr () as * const c_char) ; table . create_material = (gd_api . godot_method_bind_get_method) (class_name , "create_material\0" . as_ptr () as * const c_char) ; table . get_material = (gd_api . godot_method_bind_get_method) (class_name , "get_material\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:616:4913 [INFO] [stdout] | [INFO] [stdout] 616 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 616 | # [doc = "`core class InputEventMagnifyGesture` inherits `InputEventGesture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventmagnifygesture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventMagnifyGesture inherits methods from:\n - [InputEventGesture](struct.InputEventGesture.html)\n - [InputEventWithModifiers](struct.InputEventWithModifiers.html)\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventMagnifyGesture { this : RawObject < Self > , } impl InputEventMagnifyGesture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = InputEventMagnifyGestureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn factor (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMagnifyGestureMethodTable :: get (get_api ()) . get_factor ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_factor (& self , factor : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMagnifyGestureMethodTable :: get (get_api ()) . set_factor ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , factor) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventMagnifyGesture { } unsafe impl GodotObject for InputEventMagnifyGesture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventMagnifyGesture" } } impl std :: ops :: Deref for InputEventMagnifyGesture { type Target = crate :: generated :: input_event_gesture :: InputEventGesture ; # [inline] fn deref (& self) -> & crate :: generated :: input_event_gesture :: InputEventGesture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventMagnifyGesture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event_gesture :: InputEventGesture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event_gesture :: InputEventGesture > for InputEventMagnifyGesture { } unsafe impl SubClass < crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers > for InputEventMagnifyGesture { } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventMagnifyGesture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventMagnifyGesture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventMagnifyGesture { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventMagnifyGesture { } impl Instanciable for InputEventMagnifyGesture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventMagnifyGesture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventMagnifyGestureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_factor : * mut sys :: godot_method_bind , pub set_factor : * mut sys :: godot_method_bind } impl InputEventMagnifyGestureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventMagnifyGestureMethodTable = InputEventMagnifyGestureMethodTable { class_constructor : None , get_factor : 0 as * mut sys :: godot_method_bind , set_factor : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventMagnifyGestureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventMagnifyGesture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_factor = (gd_api . godot_method_bind_get_method) (class_name , "get_factor\0" . as_ptr () as * const c_char) ; table . set_factor = (gd_api . godot_method_bind_get_method) (class_name , "set_factor\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:622:9237 [INFO] [stdout] | [INFO] [stdout] 622 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 622 | # [doc = "`core class DirectionalLight` inherits `Light` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_directionallight.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`DirectionalLight` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nDirectionalLight inherits methods from:\n - [Light](struct.Light.html)\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct DirectionalLight { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShadowDepthRange (pub i64) ; impl ShadowDepthRange { pub const STABLE : ShadowDepthRange = ShadowDepthRange (0i64) ; pub const OPTIMIZED : ShadowDepthRange = ShadowDepthRange (1i64) ; } impl From < i64 > for ShadowDepthRange { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShadowDepthRange > for i64 { # [inline] fn from (v : ShadowDepthRange) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShadowMode (pub i64) ; impl ShadowMode { pub const ORTHOGONAL : ShadowMode = ShadowMode (0i64) ; pub const PARALLEL_2_SPLITS : ShadowMode = ShadowMode (1i64) ; pub const PARALLEL_4_SPLITS : ShadowMode = ShadowMode (2i64) ; } impl From < i64 > for ShadowMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShadowMode > for i64 { # [inline] fn from (v : ShadowMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl DirectionalLight { pub const SHADOW_DEPTH_RANGE_OPTIMIZED : i64 = 1i64 ; pub const SHADOW_DEPTH_RANGE_STABLE : i64 = 0i64 ; pub const SHADOW_ORTHOGONAL : i64 = 0i64 ; pub const SHADOW_PARALLEL_2_SPLITS : i64 = 1i64 ; pub const SHADOW_PARALLEL_4_SPLITS : i64 = 2i64 ; } impl DirectionalLight { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = DirectionalLightMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Optimizes shadow rendering for detail versus movement. See [enum ShadowDepthRange]."] # [doc = ""] # [inline] pub fn shadow_depth_range (& self) -> crate :: generated :: directional_light :: ShadowDepthRange { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectionalLightMethodTable :: get (get_api ()) . get_shadow_depth_range ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: directional_light :: ShadowDepthRange (ret) } } # [doc = "The light's shadow rendering algorithm. See [enum ShadowMode]."] # [doc = ""] # [inline] pub fn shadow_mode (& self) -> crate :: generated :: directional_light :: ShadowMode { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectionalLightMethodTable :: get (get_api ()) . get_shadow_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: directional_light :: ShadowMode (ret) } } # [doc = "If `true`, shadow detail is sacrificed in exchange for smoother transitions between splits."] # [doc = ""] # [inline] pub fn is_blend_splits_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectionalLightMethodTable :: get (get_api ()) . is_blend_splits_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, shadow detail is sacrificed in exchange for smoother transitions between splits."] # [doc = ""] # [inline] pub fn set_blend_splits (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectionalLightMethodTable :: get (get_api ()) . set_blend_splits ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Optimizes shadow rendering for detail versus movement. See [enum ShadowDepthRange]."] # [doc = ""] # [inline] pub fn set_shadow_depth_range (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectionalLightMethodTable :: get (get_api ()) . set_shadow_depth_range ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The light's shadow rendering algorithm. See [enum ShadowMode]."] # [doc = ""] # [inline] pub fn set_shadow_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DirectionalLightMethodTable :: get (get_api ()) . set_shadow_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for DirectionalLight { } unsafe impl GodotObject for DirectionalLight { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "DirectionalLight" } } impl QueueFree for DirectionalLight { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for DirectionalLight { type Target = crate :: generated :: light :: Light ; # [inline] fn deref (& self) -> & crate :: generated :: light :: Light { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for DirectionalLight { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: light :: Light { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: light :: Light > for DirectionalLight { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for DirectionalLight { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for DirectionalLight { } unsafe impl SubClass < crate :: generated :: node :: Node > for DirectionalLight { } unsafe impl SubClass < crate :: generated :: object :: Object > for DirectionalLight { } impl Instanciable for DirectionalLight { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { DirectionalLight :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct DirectionalLightMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_shadow_depth_range : * mut sys :: godot_method_bind , pub get_shadow_mode : * mut sys :: godot_method_bind , pub is_blend_splits_enabled : * mut sys :: godot_method_bind , pub set_blend_splits : * mut sys :: godot_method_bind , pub set_shadow_depth_range : * mut sys :: godot_method_bind , pub set_shadow_mode : * mut sys :: godot_method_bind } impl DirectionalLightMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : DirectionalLightMethodTable = DirectionalLightMethodTable { class_constructor : None , get_shadow_depth_range : 0 as * mut sys :: godot_method_bind , get_shadow_mode : 0 as * mut sys :: godot_method_bind , is_blend_splits_enabled : 0 as * mut sys :: godot_method_bind , set_blend_splits : 0 as * mut sys :: godot_method_bind , set_shadow_depth_range : 0 as * mut sys :: godot_method_bind , set_shadow_mode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { DirectionalLightMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "DirectionalLight\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_shadow_depth_range = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_depth_range\0" . as_ptr () as * const c_char) ; table . get_shadow_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_mode\0" . as_ptr () as * const c_char) ; table . is_blend_splits_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_blend_splits_enabled\0" . as_ptr () as * const c_char) ; table . set_blend_splits = (gd_api . godot_method_bind_get_method) (class_name , "set_blend_splits\0" . as_ptr () as * const c_char) ; table . set_shadow_depth_range = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_depth_range\0" . as_ptr () as * const c_char) ; table . set_shadow_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_mode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:628:6259 [INFO] [stdout] | [INFO] [stdout] 628 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 628 | # [doc = "`core class VisualScriptComment` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptcomment.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptComment inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptComment { this : RawObject < Self > , } impl VisualScriptComment { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptCommentMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn description (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptCommentMethodTable :: get (get_api ()) . get_description ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptCommentMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn title (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptCommentMethodTable :: get (get_api ()) . get_title ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_description (& self , description : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptCommentMethodTable :: get (get_api ()) . set_description ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , description . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptCommentMethodTable :: get (get_api ()) . set_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_title (& self , title : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptCommentMethodTable :: get (get_api ()) . set_title ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , title . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptComment { } unsafe impl GodotObject for VisualScriptComment { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptComment" } } impl std :: ops :: Deref for VisualScriptComment { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptComment { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptComment { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptComment { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptComment { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptComment { } impl Instanciable for VisualScriptComment { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptComment :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptCommentMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_description : * mut sys :: godot_method_bind , pub get_size : * mut sys :: godot_method_bind , pub get_title : * mut sys :: godot_method_bind , pub set_description : * mut sys :: godot_method_bind , pub set_size : * mut sys :: godot_method_bind , pub set_title : * mut sys :: godot_method_bind } impl VisualScriptCommentMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptCommentMethodTable = VisualScriptCommentMethodTable { class_constructor : None , get_description : 0 as * mut sys :: godot_method_bind , get_size : 0 as * mut sys :: godot_method_bind , get_title : 0 as * mut sys :: godot_method_bind , set_description : 0 as * mut sys :: godot_method_bind , set_size : 0 as * mut sys :: godot_method_bind , set_title : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptCommentMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptComment\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_description = (gd_api . godot_method_bind_get_method) (class_name , "get_description\0" . as_ptr () as * const c_char) ; table . get_size = (gd_api . godot_method_bind_get_method) (class_name , "get_size\0" . as_ptr () as * const c_char) ; table . get_title = (gd_api . godot_method_bind_get_method) (class_name , "get_title\0" . as_ptr () as * const c_char) ; table . set_description = (gd_api . godot_method_bind_get_method) (class_name , "set_description\0" . as_ptr () as * const c_char) ; table . set_size = (gd_api . godot_method_bind_get_method) (class_name , "set_size\0" . as_ptr () as * const c_char) ; table . set_title = (gd_api . godot_method_bind_get_method) (class_name , "set_title\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:634:12142 [INFO] [stdout] | [INFO] [stdout] 634 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 634 | # [doc = "`core class AudioEffectChorus` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectchorus.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectChorus inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectChorus { this : RawObject < Self > , } impl AudioEffectChorus { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectChorusMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The effect's raw signal."] # [doc = ""] # [inline] pub fn dry (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_dry ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The amount of voices in the effect."] # [doc = ""] # [inline] pub fn voice_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_voice_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The voice's cutoff frequency."] # [doc = ""] # [inline] pub fn voice_cutoff_hz (& self , voice_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_voice_cutoff_hz ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , voice_idx) ; ret as _ } } # [doc = "The voice's signal delay."] # [doc = ""] # [inline] pub fn voice_delay_ms (& self , voice_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_voice_delay_ms ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , voice_idx) ; ret as _ } } # [doc = "The voice filter's depth."] # [doc = ""] # [inline] pub fn voice_depth_ms (& self , voice_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_voice_depth_ms ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , voice_idx) ; ret as _ } } # [doc = "The voice's volume."] # [doc = ""] # [inline] pub fn voice_level_db (& self , voice_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_voice_level_db ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , voice_idx) ; ret as _ } } # [doc = "The voice's pan level."] # [doc = ""] # [inline] pub fn voice_pan (& self , voice_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_voice_pan ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , voice_idx) ; ret as _ } } # [doc = "The voice's filter rate."] # [doc = ""] # [inline] pub fn voice_rate_hz (& self , voice_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_voice_rate_hz ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , voice_idx) ; ret as _ } } # [doc = "The effect's processed signal."] # [doc = ""] # [inline] pub fn wet (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . get_wet ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The effect's raw signal."] # [doc = ""] # [inline] pub fn set_dry (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_dry ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The amount of voices in the effect."] # [doc = ""] # [inline] pub fn set_voice_count (& self , voices : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_voice_count ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , voices) ; } } # [doc = "The voice's cutoff frequency."] # [doc = ""] # [inline] pub fn set_voice_cutoff_hz (& self , voice_idx : i64 , cutoff_hz : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_voice_cutoff_hz ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , voice_idx , cutoff_hz) ; } } # [doc = "The voice's signal delay."] # [doc = ""] # [inline] pub fn set_voice_delay_ms (& self , voice_idx : i64 , delay_ms : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_voice_delay_ms ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , voice_idx , delay_ms) ; } } # [doc = "The voice filter's depth."] # [doc = ""] # [inline] pub fn set_voice_depth_ms (& self , voice_idx : i64 , depth_ms : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_voice_depth_ms ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , voice_idx , depth_ms) ; } } # [doc = "The voice's volume."] # [doc = ""] # [inline] pub fn set_voice_level_db (& self , voice_idx : i64 , level_db : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_voice_level_db ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , voice_idx , level_db) ; } } # [doc = "The voice's pan level."] # [doc = ""] # [inline] pub fn set_voice_pan (& self , voice_idx : i64 , pan : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_voice_pan ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , voice_idx , pan) ; } } # [doc = "The voice's filter rate."] # [doc = ""] # [inline] pub fn set_voice_rate_hz (& self , voice_idx : i64 , rate_hz : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_voice_rate_hz ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , voice_idx , rate_hz) ; } } # [doc = "The effect's processed signal."] # [doc = ""] # [inline] pub fn set_wet (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectChorusMethodTable :: get (get_api ()) . set_wet ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectChorus { } unsafe impl GodotObject for AudioEffectChorus { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectChorus" } } impl std :: ops :: Deref for AudioEffectChorus { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectChorus { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectChorus { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectChorus { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectChorus { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectChorus { } impl Instanciable for AudioEffectChorus { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectChorus :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectChorusMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_dry : * mut sys :: godot_method_bind , pub get_voice_count : * mut sys :: godot_method_bind , pub get_voice_cutoff_hz : * mut sys :: godot_method_bind , pub get_voice_delay_ms : * mut sys :: godot_method_bind , pub get_voice_depth_ms : * mut sys :: godot_method_bind , pub get_voice_level_db : * mut sys :: godot_method_bind , pub get_voice_pan : * mut sys :: godot_method_bind , pub get_voice_rate_hz : * mut sys :: godot_method_bind , pub get_wet : * mut sys :: godot_method_bind , pub set_dry : * mut sys :: godot_method_bind , pub set_voice_count : * mut sys :: godot_method_bind , pub set_voice_cutoff_hz : * mut sys :: godot_method_bind , pub set_voice_delay_ms : * mut sys :: godot_method_bind , pub set_voice_depth_ms : * mut sys :: godot_method_bind , pub set_voice_level_db : * mut sys :: godot_method_bind , pub set_voice_pan : * mut sys :: godot_method_bind , pub set_voice_rate_hz : * mut sys :: godot_method_bind , pub set_wet : * mut sys :: godot_method_bind } impl AudioEffectChorusMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectChorusMethodTable = AudioEffectChorusMethodTable { class_constructor : None , get_dry : 0 as * mut sys :: godot_method_bind , get_voice_count : 0 as * mut sys :: godot_method_bind , get_voice_cutoff_hz : 0 as * mut sys :: godot_method_bind , get_voice_delay_ms : 0 as * mut sys :: godot_method_bind , get_voice_depth_ms : 0 as * mut sys :: godot_method_bind , get_voice_level_db : 0 as * mut sys :: godot_method_bind , get_voice_pan : 0 as * mut sys :: godot_method_bind , get_voice_rate_hz : 0 as * mut sys :: godot_method_bind , get_wet : 0 as * mut sys :: godot_method_bind , set_dry : 0 as * mut sys :: godot_method_bind , set_voice_count : 0 as * mut sys :: godot_method_bind , set_voice_cutoff_hz : 0 as * mut sys :: godot_method_bind , set_voice_delay_ms : 0 as * mut sys :: godot_method_bind , set_voice_depth_ms : 0 as * mut sys :: godot_method_bind , set_voice_level_db : 0 as * mut sys :: godot_method_bind , set_voice_pan : 0 as * mut sys :: godot_method_bind , set_voice_rate_hz : 0 as * mut sys :: godot_method_bind , set_wet : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectChorusMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectChorus\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_dry = (gd_api . godot_method_bind_get_method) (class_name , "get_dry\0" . as_ptr () as * const c_char) ; table . get_voice_count = (gd_api . godot_method_bind_get_method) (class_name , "get_voice_count\0" . as_ptr () as * const c_char) ; table . get_voice_cutoff_hz = (gd_api . godot_method_bind_get_method) (class_name , "get_voice_cutoff_hz\0" . as_ptr () as * const c_char) ; table . get_voice_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "get_voice_delay_ms\0" . as_ptr () as * const c_char) ; table . get_voice_depth_ms = (gd_api . godot_method_bind_get_method) (class_name , "get_voice_depth_ms\0" . as_ptr () as * const c_char) ; table . get_voice_level_db = (gd_api . godot_method_bind_get_method) (class_name , "get_voice_level_db\0" . as_ptr () as * const c_char) ; table . get_voice_pan = (gd_api . godot_method_bind_get_method) (class_name , "get_voice_pan\0" . as_ptr () as * const c_char) ; table . get_voice_rate_hz = (gd_api . godot_method_bind_get_method) (class_name , "get_voice_rate_hz\0" . as_ptr () as * const c_char) ; table . get_wet = (gd_api . godot_method_bind_get_method) (class_name , "get_wet\0" . as_ptr () as * const c_char) ; table . set_dry = (gd_api . godot_method_bind_get_method) (class_name , "set_dry\0" . as_ptr () as * const c_char) ; table . set_voice_count = (gd_api . godot_method_bind_get_method) (class_name , "set_voice_count\0" . as_ptr () as * const c_char) ; table . set_voice_cutoff_hz = (gd_api . godot_method_bind_get_method) (class_name , "set_voice_cutoff_hz\0" . as_ptr () as * const c_char) ; table . set_voice_delay_ms = (gd_api . godot_method_bind_get_method) (class_name , "set_voice_delay_ms\0" . as_ptr () as * const c_char) ; table . set_voice_depth_ms = (gd_api . godot_method_bind_get_method) (class_name , "set_voice_depth_ms\0" . as_ptr () as * const c_char) ; table . set_voice_level_db = (gd_api . godot_method_bind_get_method) (class_name , "set_voice_level_db\0" . as_ptr () as * const c_char) ; table . set_voice_pan = (gd_api . godot_method_bind_get_method) (class_name , "set_voice_pan\0" . as_ptr () as * const c_char) ; table . set_voice_rate_hz = (gd_api . godot_method_bind_get_method) (class_name , "set_voice_rate_hz\0" . as_ptr () as * const c_char) ; table . set_wet = (gd_api . godot_method_bind_get_method) (class_name , "set_wet\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:640:5999 [INFO] [stdout] | [INFO] [stdout] 640 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 640 | # [doc = "`core class AudioStreamGeneratorPlayback` inherits `AudioStreamPlaybackResampled` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audiostreamgeneratorplayback.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioStreamGeneratorPlayback inherits methods from:\n - [AudioStreamPlaybackResampled](struct.AudioStreamPlaybackResampled.html)\n - [AudioStreamPlayback](struct.AudioStreamPlayback.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioStreamGeneratorPlayback { this : RawObject < Self > , } impl AudioStreamGeneratorPlayback { # [doc = ""] # [doc = ""] # [inline] pub fn can_push_buffer (& self , amount : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorPlaybackMethodTable :: get (get_api ()) . can_push_buffer ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn clear_buffer (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorPlaybackMethodTable :: get (get_api ()) . clear_buffer ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_frames_available (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorPlaybackMethodTable :: get (get_api ()) . get_frames_available ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_skips (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorPlaybackMethodTable :: get (get_api ()) . get_skips ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn push_buffer (& self , frames : Vector2Array) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorPlaybackMethodTable :: get (get_api ()) . push_buffer ; let ret = crate :: icalls :: icallptr_bool_vec2arr (method_bind , self . this . sys () . as_ptr () , frames) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn push_frame (& self , frame : Vector2) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorPlaybackMethodTable :: get (get_api ()) . push_frame ; let ret = crate :: icalls :: icallptr_bool_vec2 (method_bind , self . this . sys () . as_ptr () , frame) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioStreamGeneratorPlayback { } unsafe impl GodotObject for AudioStreamGeneratorPlayback { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioStreamGeneratorPlayback" } } impl std :: ops :: Deref for AudioStreamGeneratorPlayback { type Target = crate :: generated :: audio_stream_playback_resampled :: AudioStreamPlaybackResampled ; # [inline] fn deref (& self) -> & crate :: generated :: audio_stream_playback_resampled :: AudioStreamPlaybackResampled { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioStreamGeneratorPlayback { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_stream_playback_resampled :: AudioStreamPlaybackResampled { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_stream_playback_resampled :: AudioStreamPlaybackResampled > for AudioStreamGeneratorPlayback { } unsafe impl SubClass < crate :: generated :: audio_stream_playback :: AudioStreamPlayback > for AudioStreamGeneratorPlayback { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioStreamGeneratorPlayback { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioStreamGeneratorPlayback { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioStreamGeneratorPlaybackMethodTable { pub class_constructor : sys :: godot_class_constructor , pub can_push_buffer : * mut sys :: godot_method_bind , pub clear_buffer : * mut sys :: godot_method_bind , pub get_frames_available : * mut sys :: godot_method_bind , pub get_skips : * mut sys :: godot_method_bind , pub push_buffer : * mut sys :: godot_method_bind , pub push_frame : * mut sys :: godot_method_bind } impl AudioStreamGeneratorPlaybackMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioStreamGeneratorPlaybackMethodTable = AudioStreamGeneratorPlaybackMethodTable { class_constructor : None , can_push_buffer : 0 as * mut sys :: godot_method_bind , clear_buffer : 0 as * mut sys :: godot_method_bind , get_frames_available : 0 as * mut sys :: godot_method_bind , get_skips : 0 as * mut sys :: godot_method_bind , push_buffer : 0 as * mut sys :: godot_method_bind , push_frame : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioStreamGeneratorPlaybackMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioStreamGeneratorPlayback\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . can_push_buffer = (gd_api . godot_method_bind_get_method) (class_name , "can_push_buffer\0" . as_ptr () as * const c_char) ; table . clear_buffer = (gd_api . godot_method_bind_get_method) (class_name , "clear_buffer\0" . as_ptr () as * const c_char) ; table . get_frames_available = (gd_api . godot_method_bind_get_method) (class_name , "get_frames_available\0" . as_ptr () as * const c_char) ; table . get_skips = (gd_api . godot_method_bind_get_method) (class_name , "get_skips\0" . as_ptr () as * const c_char) ; table . push_buffer = (gd_api . godot_method_bind_get_method) (class_name , "push_buffer\0" . as_ptr () as * const c_char) ; table . push_frame = (gd_api . godot_method_bind_get_method) (class_name , "push_frame\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:646:13645 [INFO] [stdout] | [INFO] [stdout] 646 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 646 | # [doc = "`core class UndoRedo` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_undoredo.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`UndoRedo` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nUndoRedo inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct UndoRedo { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MergeMode (pub i64) ; impl MergeMode { pub const DISABLE : MergeMode = MergeMode (0i64) ; pub const ENDS : MergeMode = MergeMode (1i64) ; pub const ALL : MergeMode = MergeMode (2i64) ; } impl From < i64 > for MergeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MergeMode > for i64 { # [inline] fn from (v : MergeMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl UndoRedo { pub const MERGE_ALL : i64 = 2i64 ; pub const MERGE_DISABLE : i64 = 0i64 ; pub const MERGE_ENDS : i64 = 1i64 ; } impl UndoRedo { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = UndoRedoMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Register a method that will be called when the action is committed."] # [doc = ""] # [inline] pub fn add_do_method (& self , object : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . add_do_method ; let ret = crate :: icalls :: icallvarargs__obj_str (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr () , method . into () , varargs) ; ret } } # [doc = "Register a property value change for \"do\"."] # [doc = ""] # [inline] pub fn add_do_property (& self , object : impl AsArg < crate :: generated :: object :: Object > , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . add_do_property ; let ret = crate :: icalls :: icallptr_void_obj_str_var (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Register a reference for \"do\" that will be erased if the \"do\" history is lost. This is useful mostly for new nodes created for the \"do\" call. Do not use for resources."] # [doc = ""] # [inline] pub fn add_do_reference (& self , object : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . add_do_reference ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr ()) ; } } # [doc = "Register a method that will be called when the action is undone."] # [doc = ""] # [inline] pub fn add_undo_method (& self , object : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . add_undo_method ; let ret = crate :: icalls :: icallvarargs__obj_str (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr () , method . into () , varargs) ; ret } } # [doc = "Register a property value change for \"undo\"."] # [doc = ""] # [inline] pub fn add_undo_property (& self , object : impl AsArg < crate :: generated :: object :: Object > , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . add_undo_property ; let ret = crate :: icalls :: icallptr_void_obj_str_var (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Register a reference for \"undo\" that will be erased if the \"undo\" history is lost. This is useful mostly for nodes removed with the \"do\" call (not the \"undo\" call!)."] # [doc = ""] # [inline] pub fn add_undo_reference (& self , object : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . add_undo_reference ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , object . as_arg_ptr ()) ; } } # [doc = "Clear the undo/redo history and associated references.\nPassing `false` to `increase_version` will prevent the version number to be increased from this.\n# Default Arguments\n* `increase_version` - `true`"] # [doc = ""] # [inline] pub fn clear_history (& self , increase_version : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . clear_history ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , increase_version) ; } } # [doc = "Commit the action. All \"do\" methods/properties are called/set when this function is called."] # [doc = ""] # [inline] pub fn commit_action (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . commit_action ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Create a new action. After this is called, do all your calls to [method add_do_method], [method add_undo_method], [method add_do_property], and [method add_undo_property], then commit the action with [method commit_action].\nThe way actions are merged is dictated by the `merge_mode` argument. See [enum MergeMode] for details.\n# Default Arguments\n* `merge_mode` - `0`"] # [doc = ""] # [inline] pub fn create_action (& self , name : impl Into < GodotString > , merge_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . create_action ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , merge_mode) ; } } # [doc = "Gets the name of the current action."] # [doc = ""] # [inline] pub fn get_current_action_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . get_current_action_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Gets the version. Every time a new action is committed, the [UndoRedo]'s version number is increased automatically.\nThis is useful mostly to check if something changed from a saved version."] # [doc = ""] # [inline] pub fn get_version (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . get_version ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if a \"redo\" action is available."] # [doc = ""] # [inline] pub fn has_redo (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . has_redo ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if an \"undo\" action is available."] # [doc = ""] # [inline] pub fn has_undo (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . has_undo ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the [UndoRedo] is currently committing the action, i.e. running its \"do\" method or property change (see [method commit_action])."] # [doc = ""] # [inline] pub fn is_commiting_action (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . is_commiting_action ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Redo the last action."] # [doc = ""] # [inline] pub fn redo (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . redo ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Undo the last action."] # [doc = ""] # [inline] pub fn undo (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = UndoRedoMethodTable :: get (get_api ()) . undo ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for UndoRedo { } unsafe impl GodotObject for UndoRedo { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "UndoRedo" } } impl std :: ops :: Deref for UndoRedo { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for UndoRedo { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for UndoRedo { } impl Instanciable for UndoRedo { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { UndoRedo :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct UndoRedoMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_do_method : * mut sys :: godot_method_bind , pub add_do_property : * mut sys :: godot_method_bind , pub add_do_reference : * mut sys :: godot_method_bind , pub add_undo_method : * mut sys :: godot_method_bind , pub add_undo_property : * mut sys :: godot_method_bind , pub add_undo_reference : * mut sys :: godot_method_bind , pub clear_history : * mut sys :: godot_method_bind , pub commit_action : * mut sys :: godot_method_bind , pub create_action : * mut sys :: godot_method_bind , pub get_current_action_name : * mut sys :: godot_method_bind , pub get_version : * mut sys :: godot_method_bind , pub has_redo : * mut sys :: godot_method_bind , pub has_undo : * mut sys :: godot_method_bind , pub is_commiting_action : * mut sys :: godot_method_bind , pub redo : * mut sys :: godot_method_bind , pub undo : * mut sys :: godot_method_bind } impl UndoRedoMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : UndoRedoMethodTable = UndoRedoMethodTable { class_constructor : None , add_do_method : 0 as * mut sys :: godot_method_bind , add_do_property : 0 as * mut sys :: godot_method_bind , add_do_reference : 0 as * mut sys :: godot_method_bind , add_undo_method : 0 as * mut sys :: godot_method_bind , add_undo_property : 0 as * mut sys :: godot_method_bind , add_undo_reference : 0 as * mut sys :: godot_method_bind , clear_history : 0 as * mut sys :: godot_method_bind , commit_action : 0 as * mut sys :: godot_method_bind , create_action : 0 as * mut sys :: godot_method_bind , get_current_action_name : 0 as * mut sys :: godot_method_bind , get_version : 0 as * mut sys :: godot_method_bind , has_redo : 0 as * mut sys :: godot_method_bind , has_undo : 0 as * mut sys :: godot_method_bind , is_commiting_action : 0 as * mut sys :: godot_method_bind , redo : 0 as * mut sys :: godot_method_bind , undo : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { UndoRedoMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "UndoRedo\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_do_method = (gd_api . godot_method_bind_get_method) (class_name , "add_do_method\0" . as_ptr () as * const c_char) ; table . add_do_property = (gd_api . godot_method_bind_get_method) (class_name , "add_do_property\0" . as_ptr () as * const c_char) ; table . add_do_reference = (gd_api . godot_method_bind_get_method) (class_name , "add_do_reference\0" . as_ptr () as * const c_char) ; table . add_undo_method = (gd_api . godot_method_bind_get_method) (class_name , "add_undo_method\0" . as_ptr () as * const c_char) ; table . add_undo_property = (gd_api . godot_method_bind_get_method) (class_name , "add_undo_property\0" . as_ptr () as * const c_char) ; table . add_undo_reference = (gd_api . godot_method_bind_get_method) (class_name , "add_undo_reference\0" . as_ptr () as * const c_char) ; table . clear_history = (gd_api . godot_method_bind_get_method) (class_name , "clear_history\0" . as_ptr () as * const c_char) ; table . commit_action = (gd_api . godot_method_bind_get_method) (class_name , "commit_action\0" . as_ptr () as * const c_char) ; table . create_action = (gd_api . godot_method_bind_get_method) (class_name , "create_action\0" . as_ptr () as * const c_char) ; table . get_current_action_name = (gd_api . godot_method_bind_get_method) (class_name , "get_current_action_name\0" . as_ptr () as * const c_char) ; table . get_version = (gd_api . godot_method_bind_get_method) (class_name , "get_version\0" . as_ptr () as * const c_char) ; table . has_redo = (gd_api . godot_method_bind_get_method) (class_name , "has_redo\0" . as_ptr () as * const c_char) ; table . has_undo = (gd_api . godot_method_bind_get_method) (class_name , "has_undo\0" . as_ptr () as * const c_char) ; table . is_commiting_action = (gd_api . godot_method_bind_get_method) (class_name , "is_commiting_action\0" . as_ptr () as * const c_char) ; table . redo = (gd_api . godot_method_bind_get_method) (class_name , "redo\0" . as_ptr () as * const c_char) ; table . undo = (gd_api . godot_method_bind_get_method) (class_name , "undo\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:652:9148 [INFO] [stdout] | [INFO] [stdout] 652 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 652 | # [doc = "`core class KinematicCollision` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_kinematiccollision.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nKinematicCollision inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct KinematicCollision { this : RawObject < Self > , } impl KinematicCollision { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = KinematicCollisionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The colliding body."] # [doc = ""] # [inline] pub fn collider (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_collider ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The colliding body's unique instance ID. See [method Object.get_instance_id]."] # [doc = ""] # [inline] pub fn collider_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_collider_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The colliding body's metadata. See [Object]."] # [doc = ""] # [inline] pub fn collider_metadata (& self) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_collider_metadata ; let ret = crate :: icalls :: icallptr_var (method_bind , self . this . sys () . as_ptr ()) ; Variant :: from_sys (ret) } } # [doc = "The colliding body's shape."] # [doc = ""] # [inline] pub fn collider_shape (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_collider_shape ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The colliding shape's index. See [CollisionObject]."] # [doc = ""] # [inline] pub fn collider_shape_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_collider_shape_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The colliding object's velocity."] # [doc = ""] # [inline] pub fn collider_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_collider_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The moving object's colliding shape."] # [doc = ""] # [inline] pub fn local_shape (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_local_shape ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The colliding body's shape's normal at the point of collision."] # [doc = ""] # [inline] pub fn normal (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_normal ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The point of collision, in global coordinates."] # [doc = ""] # [inline] pub fn position (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The moving object's remaining movement vector."] # [doc = ""] # [inline] pub fn remainder (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_remainder ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The distance the moving object traveled before collision."] # [doc = ""] # [inline] pub fn travel (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollisionMethodTable :: get (get_api ()) . get_travel ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for KinematicCollision { } unsafe impl GodotObject for KinematicCollision { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "KinematicCollision" } } impl std :: ops :: Deref for KinematicCollision { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for KinematicCollision { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for KinematicCollision { } unsafe impl SubClass < crate :: generated :: object :: Object > for KinematicCollision { } impl Instanciable for KinematicCollision { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { KinematicCollision :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct KinematicCollisionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_collider : * mut sys :: godot_method_bind , pub get_collider_id : * mut sys :: godot_method_bind , pub get_collider_metadata : * mut sys :: godot_method_bind , pub get_collider_shape : * mut sys :: godot_method_bind , pub get_collider_shape_index : * mut sys :: godot_method_bind , pub get_collider_velocity : * mut sys :: godot_method_bind , pub get_local_shape : * mut sys :: godot_method_bind , pub get_normal : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub get_remainder : * mut sys :: godot_method_bind , pub get_travel : * mut sys :: godot_method_bind } impl KinematicCollisionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : KinematicCollisionMethodTable = KinematicCollisionMethodTable { class_constructor : None , get_collider : 0 as * mut sys :: godot_method_bind , get_collider_id : 0 as * mut sys :: godot_method_bind , get_collider_metadata : 0 as * mut sys :: godot_method_bind , get_collider_shape : 0 as * mut sys :: godot_method_bind , get_collider_shape_index : 0 as * mut sys :: godot_method_bind , get_collider_velocity : 0 as * mut sys :: godot_method_bind , get_local_shape : 0 as * mut sys :: godot_method_bind , get_normal : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , get_remainder : 0 as * mut sys :: godot_method_bind , get_travel : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { KinematicCollisionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "KinematicCollision\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_collider = (gd_api . godot_method_bind_get_method) (class_name , "get_collider\0" . as_ptr () as * const c_char) ; table . get_collider_id = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_id\0" . as_ptr () as * const c_char) ; table . get_collider_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_metadata\0" . as_ptr () as * const c_char) ; table . get_collider_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_shape\0" . as_ptr () as * const c_char) ; table . get_collider_shape_index = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_shape_index\0" . as_ptr () as * const c_char) ; table . get_collider_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_velocity\0" . as_ptr () as * const c_char) ; table . get_local_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_local_shape\0" . as_ptr () as * const c_char) ; table . get_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_normal\0" . as_ptr () as * const c_char) ; table . get_position = (gd_api . godot_method_bind_get_method) (class_name , "get_position\0" . as_ptr () as * const c_char) ; table . get_remainder = (gd_api . godot_method_bind_get_method) (class_name , "get_remainder\0" . as_ptr () as * const c_char) ; table . get_travel = (gd_api . godot_method_bind_get_method) (class_name , "get_travel\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:658:4401 [INFO] [stdout] | [INFO] [stdout] 658 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 658 | # [doc = "`core class VisualShaderNodeGlobalExpression` inherits `VisualShaderNodeExpression` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodeglobalexpression.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeGlobalExpression inherits methods from:\n - [VisualShaderNodeExpression](struct.VisualShaderNodeExpression.html)\n - [VisualShaderNodeGroupBase](struct.VisualShaderNodeGroupBase.html)\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeGlobalExpression { this : RawObject < Self > , } impl VisualShaderNodeGlobalExpression { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeGlobalExpressionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeGlobalExpression { } unsafe impl GodotObject for VisualShaderNodeGlobalExpression { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeGlobalExpression" } } impl std :: ops :: Deref for VisualShaderNodeGlobalExpression { type Target = crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeGlobalExpression { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: visual_shader_node_group_base :: VisualShaderNodeGroupBase > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeGlobalExpression { } impl Instanciable for VisualShaderNodeGlobalExpression { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeGlobalExpression :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeGlobalExpressionMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeGlobalExpressionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeGlobalExpressionMethodTable = VisualShaderNodeGlobalExpressionMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeGlobalExpressionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeGlobalExpression\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:664:8263 [INFO] [stdout] | [INFO] [stdout] 664 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 664 | # [doc = "`core class SphereMesh` inherits `PrimitiveMesh` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_spheremesh.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nSphereMesh inherits methods from:\n - [PrimitiveMesh](struct.PrimitiveMesh.html)\n - [Mesh](struct.Mesh.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct SphereMesh { this : RawObject < Self > , } impl SphereMesh { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = SphereMeshMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Full height of the sphere."] # [doc = ""] # [inline] pub fn height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, a hemisphere is created rather than a full sphere.\n**Note:** To get a regular hemisphere, the height and radius of the sphere must be equal."] # [doc = ""] # [inline] pub fn is_hemisphere (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . get_is_hemisphere ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of radial segments on the sphere."] # [doc = ""] # [inline] pub fn radial_segments (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . get_radial_segments ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Radius of sphere."] # [doc = ""] # [inline] pub fn radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . get_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of segments along the height of the sphere."] # [doc = ""] # [inline] pub fn rings (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . get_rings ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Full height of the sphere."] # [doc = ""] # [inline] pub fn set_height (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . set_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "If `true`, a hemisphere is created rather than a full sphere.\n**Note:** To get a regular hemisphere, the height and radius of the sphere must be equal."] # [doc = ""] # [inline] pub fn set_is_hemisphere (& self , is_hemisphere : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . set_is_hemisphere ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , is_hemisphere) ; } } # [doc = "Number of radial segments on the sphere."] # [doc = ""] # [inline] pub fn set_radial_segments (& self , radial_segments : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . set_radial_segments ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , radial_segments) ; } } # [doc = "Radius of sphere."] # [doc = ""] # [inline] pub fn set_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . set_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = "Number of segments along the height of the sphere."] # [doc = ""] # [inline] pub fn set_rings (& self , rings : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SphereMeshMethodTable :: get (get_api ()) . set_rings ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , rings) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SphereMesh { } unsafe impl GodotObject for SphereMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "SphereMesh" } } impl std :: ops :: Deref for SphereMesh { type Target = crate :: generated :: primitive_mesh :: PrimitiveMesh ; # [inline] fn deref (& self) -> & crate :: generated :: primitive_mesh :: PrimitiveMesh { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SphereMesh { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: primitive_mesh :: PrimitiveMesh { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: primitive_mesh :: PrimitiveMesh > for SphereMesh { } unsafe impl SubClass < crate :: generated :: mesh :: Mesh > for SphereMesh { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for SphereMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for SphereMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for SphereMesh { } impl Instanciable for SphereMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SphereMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SphereMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_height : * mut sys :: godot_method_bind , pub get_is_hemisphere : * mut sys :: godot_method_bind , pub get_radial_segments : * mut sys :: godot_method_bind , pub get_radius : * mut sys :: godot_method_bind , pub get_rings : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_is_hemisphere : * mut sys :: godot_method_bind , pub set_radial_segments : * mut sys :: godot_method_bind , pub set_radius : * mut sys :: godot_method_bind , pub set_rings : * mut sys :: godot_method_bind } impl SphereMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SphereMeshMethodTable = SphereMeshMethodTable { class_constructor : None , get_height : 0 as * mut sys :: godot_method_bind , get_is_hemisphere : 0 as * mut sys :: godot_method_bind , get_radial_segments : 0 as * mut sys :: godot_method_bind , get_radius : 0 as * mut sys :: godot_method_bind , get_rings : 0 as * mut sys :: godot_method_bind , set_height : 0 as * mut sys :: godot_method_bind , set_is_hemisphere : 0 as * mut sys :: godot_method_bind , set_radial_segments : 0 as * mut sys :: godot_method_bind , set_radius : 0 as * mut sys :: godot_method_bind , set_rings : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SphereMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SphereMesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_height = (gd_api . godot_method_bind_get_method) (class_name , "get_height\0" . as_ptr () as * const c_char) ; table . get_is_hemisphere = (gd_api . godot_method_bind_get_method) (class_name , "get_is_hemisphere\0" . as_ptr () as * const c_char) ; table . get_radial_segments = (gd_api . godot_method_bind_get_method) (class_name , "get_radial_segments\0" . as_ptr () as * const c_char) ; table . get_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_radius\0" . as_ptr () as * const c_char) ; table . get_rings = (gd_api . godot_method_bind_get_method) (class_name , "get_rings\0" . as_ptr () as * const c_char) ; table . set_height = (gd_api . godot_method_bind_get_method) (class_name , "set_height\0" . as_ptr () as * const c_char) ; table . set_is_hemisphere = (gd_api . godot_method_bind_get_method) (class_name , "set_is_hemisphere\0" . as_ptr () as * const c_char) ; table . set_radial_segments = (gd_api . godot_method_bind_get_method) (class_name , "set_radial_segments\0" . as_ptr () as * const c_char) ; table . set_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_radius\0" . as_ptr () as * const c_char) ; table . set_rings = (gd_api . godot_method_bind_get_method) (class_name , "set_rings\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:670:4664 [INFO] [stdout] | [INFO] [stdout] 670 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 670 | # [doc = "`core class ViewportTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_viewporttexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nViewportTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ViewportTexture { this : RawObject < Self > , } impl ViewportTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ViewportTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The path to the [Viewport] node to display. This is relative to the scene root, not to the node which uses the texture."] # [doc = ""] # [inline] pub fn viewport_path_in_scene (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportTextureMethodTable :: get (get_api ()) . get_viewport_path_in_scene ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The path to the [Viewport] node to display. This is relative to the scene root, not to the node which uses the texture."] # [doc = ""] # [inline] pub fn set_viewport_path_in_scene (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportTextureMethodTable :: get (get_api ()) . set_viewport_path_in_scene ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ViewportTexture { } unsafe impl GodotObject for ViewportTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ViewportTexture" } } impl std :: ops :: Deref for ViewportTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ViewportTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for ViewportTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ViewportTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ViewportTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for ViewportTexture { } impl Instanciable for ViewportTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ViewportTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ViewportTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_viewport_path_in_scene : * mut sys :: godot_method_bind , pub set_viewport_path_in_scene : * mut sys :: godot_method_bind } impl ViewportTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ViewportTextureMethodTable = ViewportTextureMethodTable { class_constructor : None , get_viewport_path_in_scene : 0 as * mut sys :: godot_method_bind , set_viewport_path_in_scene : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ViewportTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ViewportTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_viewport_path_in_scene = (gd_api . godot_method_bind_get_method) (class_name , "get_viewport_path_in_scene\0" . as_ptr () as * const c_char) ; table . set_viewport_path_in_scene = (gd_api . godot_method_bind_get_method) (class_name , "set_viewport_path_in_scene\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:676:8754 [INFO] [stdout] | [INFO] [stdout] 676 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 676 | # [doc = "`core class MeshInstance2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_meshinstance2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`MeshInstance2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nMeshInstance2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct MeshInstance2D { this : RawObject < Self > , } impl MeshInstance2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = MeshInstance2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The [Mesh] that will be drawn by the [MeshInstance2D]."] # [doc = ""] # [inline] pub fn mesh (& self) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstance2DMethodTable :: get (get_api ()) . get_mesh ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The normal map that will be used if using the default [CanvasItemMaterial].\n**Note:** Godot expects the normal map to use X+, Y-, and Z+ coordinates. See [url=http://wiki.polycount.com/wiki/Normal_Map_Technical_Details#Common_Swizzle_Coordinates]this page[/url] for a comparison of normal map coordinates expected by popular engines."] # [doc = ""] # [inline] pub fn normal_map (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstance2DMethodTable :: get (get_api ()) . get_normal_map ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [Texture] that will be used if using the default [CanvasItemMaterial]. Can be accessed as `TEXTURE` in CanvasItem shader."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstance2DMethodTable :: get (get_api ()) . get_texture ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [Mesh] that will be drawn by the [MeshInstance2D]."] # [doc = ""] # [inline] pub fn set_mesh (& self , mesh : impl AsArg < crate :: generated :: mesh :: Mesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstance2DMethodTable :: get (get_api ()) . set_mesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , mesh . as_arg_ptr ()) ; } } # [doc = "The normal map that will be used if using the default [CanvasItemMaterial].\n**Note:** Godot expects the normal map to use X+, Y-, and Z+ coordinates. See [url=http://wiki.polycount.com/wiki/Normal_Map_Technical_Details#Common_Swizzle_Coordinates]this page[/url] for a comparison of normal map coordinates expected by popular engines."] # [doc = ""] # [inline] pub fn set_normal_map (& self , normal_map : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstance2DMethodTable :: get (get_api ()) . set_normal_map ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , normal_map . as_arg_ptr ()) ; } } # [doc = "The [Texture] that will be used if using the default [CanvasItemMaterial]. Can be accessed as `TEXTURE` in CanvasItem shader."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstance2DMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for MeshInstance2D { } unsafe impl GodotObject for MeshInstance2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "MeshInstance2D" } } impl QueueFree for MeshInstance2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for MeshInstance2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for MeshInstance2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for MeshInstance2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for MeshInstance2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for MeshInstance2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for MeshInstance2D { } impl Instanciable for MeshInstance2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MeshInstance2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MeshInstance2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_mesh : * mut sys :: godot_method_bind , pub get_normal_map : * mut sys :: godot_method_bind , pub get_texture : * mut sys :: godot_method_bind , pub set_mesh : * mut sys :: godot_method_bind , pub set_normal_map : * mut sys :: godot_method_bind , pub set_texture : * mut sys :: godot_method_bind } impl MeshInstance2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MeshInstance2DMethodTable = MeshInstance2DMethodTable { class_constructor : None , get_mesh : 0 as * mut sys :: godot_method_bind , get_normal_map : 0 as * mut sys :: godot_method_bind , get_texture : 0 as * mut sys :: godot_method_bind , set_mesh : 0 as * mut sys :: godot_method_bind , set_normal_map : 0 as * mut sys :: godot_method_bind , set_texture : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { MeshInstance2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MeshInstance2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_mesh = (gd_api . godot_method_bind_get_method) (class_name , "get_mesh\0" . as_ptr () as * const c_char) ; table . get_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "get_normal_map\0" . as_ptr () as * const c_char) ; table . get_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_texture\0" . as_ptr () as * const c_char) ; table . set_mesh = (gd_api . godot_method_bind_get_method) (class_name , "set_mesh\0" . as_ptr () as * const c_char) ; table . set_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "set_normal_map\0" . as_ptr () as * const c_char) ; table . set_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_texture\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:682:7682 [INFO] [stdout] | [INFO] [stdout] 682 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 682 | # [doc = "`core class AtlasTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_atlastexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAtlasTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AtlasTexture { this : RawObject < Self > , } impl AtlasTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AtlasTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The texture that contains the atlas. Can be any [Texture] subtype."] # [doc = ""] # [inline] pub fn atlas (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . get_atlas ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The margin around the region. The [Rect2]'s [member Rect2.size] parameter (\"w\" and \"h\" in the editor) resizes the texture so it fits within the margin."] # [doc = ""] # [inline] pub fn margin (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . get_margin ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The AtlasTexture's used region."] # [doc = ""] # [inline] pub fn region (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . get_region ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, clips the area outside of the region to avoid bleeding of the surrounding texture pixels."] # [doc = ""] # [inline] pub fn has_filter_clip (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . has_filter_clip ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The texture that contains the atlas. Can be any [Texture] subtype."] # [doc = ""] # [inline] pub fn set_atlas (& self , atlas : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . set_atlas ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , atlas . as_arg_ptr ()) ; } } # [doc = "If `true`, clips the area outside of the region to avoid bleeding of the surrounding texture pixels."] # [doc = ""] # [inline] pub fn set_filter_clip (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . set_filter_clip ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The margin around the region. The [Rect2]'s [member Rect2.size] parameter (\"w\" and \"h\" in the editor) resizes the texture so it fits within the margin."] # [doc = ""] # [inline] pub fn set_margin (& self , margin : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . set_margin ; let ret = crate :: icalls :: icallptr_void_rect2 (method_bind , self . this . sys () . as_ptr () , margin) ; } } # [doc = "The AtlasTexture's used region."] # [doc = ""] # [inline] pub fn set_region (& self , region : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AtlasTextureMethodTable :: get (get_api ()) . set_region ; let ret = crate :: icalls :: icallptr_void_rect2 (method_bind , self . this . sys () . as_ptr () , region) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AtlasTexture { } unsafe impl GodotObject for AtlasTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AtlasTexture" } } impl std :: ops :: Deref for AtlasTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AtlasTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for AtlasTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AtlasTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AtlasTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for AtlasTexture { } impl Instanciable for AtlasTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AtlasTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AtlasTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_atlas : * mut sys :: godot_method_bind , pub get_margin : * mut sys :: godot_method_bind , pub get_region : * mut sys :: godot_method_bind , pub has_filter_clip : * mut sys :: godot_method_bind , pub set_atlas : * mut sys :: godot_method_bind , pub set_filter_clip : * mut sys :: godot_method_bind , pub set_margin : * mut sys :: godot_method_bind , pub set_region : * mut sys :: godot_method_bind } impl AtlasTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AtlasTextureMethodTable = AtlasTextureMethodTable { class_constructor : None , get_atlas : 0 as * mut sys :: godot_method_bind , get_margin : 0 as * mut sys :: godot_method_bind , get_region : 0 as * mut sys :: godot_method_bind , has_filter_clip : 0 as * mut sys :: godot_method_bind , set_atlas : 0 as * mut sys :: godot_method_bind , set_filter_clip : 0 as * mut sys :: godot_method_bind , set_margin : 0 as * mut sys :: godot_method_bind , set_region : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AtlasTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AtlasTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_atlas = (gd_api . godot_method_bind_get_method) (class_name , "get_atlas\0" . as_ptr () as * const c_char) ; table . get_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_margin\0" . as_ptr () as * const c_char) ; table . get_region = (gd_api . godot_method_bind_get_method) (class_name , "get_region\0" . as_ptr () as * const c_char) ; table . has_filter_clip = (gd_api . godot_method_bind_get_method) (class_name , "has_filter_clip\0" . as_ptr () as * const c_char) ; table . set_atlas = (gd_api . godot_method_bind_get_method) (class_name , "set_atlas\0" . as_ptr () as * const c_char) ; table . set_filter_clip = (gd_api . godot_method_bind_get_method) (class_name , "set_filter_clip\0" . as_ptr () as * const c_char) ; table . set_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_margin\0" . as_ptr () as * const c_char) ; table . set_region = (gd_api . godot_method_bind_get_method) (class_name , "set_region\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:688:4384 [INFO] [stdout] | [INFO] [stdout] 688 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 688 | # [doc = "`core class StreamTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_streamtexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nStreamTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct StreamTexture { this : RawObject < Self > , } impl StreamTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = StreamTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The StreamTexture's file path to a `.stex` file."] # [doc = ""] # [inline] pub fn load_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamTextureMethodTable :: get (get_api ()) . get_load_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The StreamTexture's file path to a `.stex` file."] # [doc = ""] # [inline] pub fn load (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamTextureMethodTable :: get (get_api ()) . load ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for StreamTexture { } unsafe impl GodotObject for StreamTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StreamTexture" } } impl std :: ops :: Deref for StreamTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for StreamTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for StreamTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for StreamTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StreamTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for StreamTexture { } impl Instanciable for StreamTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StreamTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StreamTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_load_path : * mut sys :: godot_method_bind , pub load : * mut sys :: godot_method_bind } impl StreamTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StreamTextureMethodTable = StreamTextureMethodTable { class_constructor : None , get_load_path : 0 as * mut sys :: godot_method_bind , load : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { StreamTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StreamTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_load_path = (gd_api . godot_method_bind_get_method) (class_name , "get_load_path\0" . as_ptr () as * const c_char) ; table . load = (gd_api . godot_method_bind_get_method) (class_name , "load\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:694:10366 [INFO] [stdout] | [INFO] [stdout] 694 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 694 | # [doc = "`core class RemoteTransform2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_remotetransform2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RemoteTransform2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRemoteTransform2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RemoteTransform2D { this : RawObject < Self > , } impl RemoteTransform2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RemoteTransform2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "[RemoteTransform2D] caches the remote node. It may not notice if the remote node disappears; [method force_update_cache] forces it to update the cache again."] # [doc = ""] # [inline] pub fn force_update_cache (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . force_update_cache ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The [NodePath] to the remote node, relative to the RemoteTransform2D's position in the scene."] # [doc = ""] # [inline] pub fn remote_node (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_remote_node ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "If `true`, the remote node's position is updated."] # [doc = ""] # [inline] pub fn update_position (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_update_position ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the remote node's rotation is updated."] # [doc = ""] # [inline] pub fn update_rotation (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_update_rotation ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the remote node's scale is updated."] # [doc = ""] # [inline] pub fn update_scale (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_update_scale ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, global coordinates are used. If `false`, local coordinates are used."] # [doc = ""] # [inline] pub fn use_global_coordinates (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_use_global_coordinates ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [NodePath] to the remote node, relative to the RemoteTransform2D's position in the scene."] # [doc = ""] # [inline] pub fn set_remote_node (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_remote_node ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "If `true`, the remote node's position is updated."] # [doc = ""] # [inline] pub fn set_update_position (& self , update_remote_position : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_update_position ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_position) ; } } # [doc = "If `true`, the remote node's rotation is updated."] # [doc = ""] # [inline] pub fn set_update_rotation (& self , update_remote_rotation : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_update_rotation ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_rotation) ; } } # [doc = "If `true`, the remote node's scale is updated."] # [doc = ""] # [inline] pub fn set_update_scale (& self , update_remote_scale : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_update_scale ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_scale) ; } } # [doc = "If `true`, global coordinates are used. If `false`, local coordinates are used."] # [doc = ""] # [inline] pub fn set_use_global_coordinates (& self , use_global_coordinates : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_use_global_coordinates ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , use_global_coordinates) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RemoteTransform2D { } unsafe impl GodotObject for RemoteTransform2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RemoteTransform2D" } } impl QueueFree for RemoteTransform2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RemoteTransform2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RemoteTransform2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for RemoteTransform2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for RemoteTransform2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for RemoteTransform2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for RemoteTransform2D { } impl Instanciable for RemoteTransform2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RemoteTransform2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RemoteTransform2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub force_update_cache : * mut sys :: godot_method_bind , pub get_remote_node : * mut sys :: godot_method_bind , pub get_update_position : * mut sys :: godot_method_bind , pub get_update_rotation : * mut sys :: godot_method_bind , pub get_update_scale : * mut sys :: godot_method_bind , pub get_use_global_coordinates : * mut sys :: godot_method_bind , pub set_remote_node : * mut sys :: godot_method_bind , pub set_update_position : * mut sys :: godot_method_bind , pub set_update_rotation : * mut sys :: godot_method_bind , pub set_update_scale : * mut sys :: godot_method_bind , pub set_use_global_coordinates : * mut sys :: godot_method_bind } impl RemoteTransform2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RemoteTransform2DMethodTable = RemoteTransform2DMethodTable { class_constructor : None , force_update_cache : 0 as * mut sys :: godot_method_bind , get_remote_node : 0 as * mut sys :: godot_method_bind , get_update_position : 0 as * mut sys :: godot_method_bind , get_update_rotation : 0 as * mut sys :: godot_method_bind , get_update_scale : 0 as * mut sys :: godot_method_bind , get_use_global_coordinates : 0 as * mut sys :: godot_method_bind , set_remote_node : 0 as * mut sys :: godot_method_bind , set_update_position : 0 as * mut sys :: godot_method_bind , set_update_rotation : 0 as * mut sys :: godot_method_bind , set_update_scale : 0 as * mut sys :: godot_method_bind , set_use_global_coordinates : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RemoteTransform2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RemoteTransform2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . force_update_cache = (gd_api . godot_method_bind_get_method) (class_name , "force_update_cache\0" . as_ptr () as * const c_char) ; table . get_remote_node = (gd_api . godot_method_bind_get_method) (class_name , "get_remote_node\0" . as_ptr () as * const c_char) ; table . get_update_position = (gd_api . godot_method_bind_get_method) (class_name , "get_update_position\0" . as_ptr () as * const c_char) ; table . get_update_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_update_rotation\0" . as_ptr () as * const c_char) ; table . get_update_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_update_scale\0" . as_ptr () as * const c_char) ; table . get_use_global_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "get_use_global_coordinates\0" . as_ptr () as * const c_char) ; table . set_remote_node = (gd_api . godot_method_bind_get_method) (class_name , "set_remote_node\0" . as_ptr () as * const c_char) ; table . set_update_position = (gd_api . godot_method_bind_get_method) (class_name , "set_update_position\0" . as_ptr () as * const c_char) ; table . set_update_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_update_rotation\0" . as_ptr () as * const c_char) ; table . set_update_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_update_scale\0" . as_ptr () as * const c_char) ; table . set_use_global_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "set_use_global_coordinates\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:700:4670 [INFO] [stdout] | [INFO] [stdout] 700 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 700 | # [doc = "`core class VisualScriptGlobalConstant` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptglobalconstant.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptGlobalConstant inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptGlobalConstant { this : RawObject < Self > , } impl VisualScriptGlobalConstant { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptGlobalConstantMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn global_constant (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptGlobalConstantMethodTable :: get (get_api ()) . get_global_constant ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_global_constant (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptGlobalConstantMethodTable :: get (get_api ()) . set_global_constant ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptGlobalConstant { } unsafe impl GodotObject for VisualScriptGlobalConstant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptGlobalConstant" } } impl std :: ops :: Deref for VisualScriptGlobalConstant { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptGlobalConstant { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptGlobalConstant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptGlobalConstant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptGlobalConstant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptGlobalConstant { } impl Instanciable for VisualScriptGlobalConstant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptGlobalConstant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptGlobalConstantMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_global_constant : * mut sys :: godot_method_bind , pub set_global_constant : * mut sys :: godot_method_bind } impl VisualScriptGlobalConstantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptGlobalConstantMethodTable = VisualScriptGlobalConstantMethodTable { class_constructor : None , get_global_constant : 0 as * mut sys :: godot_method_bind , set_global_constant : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptGlobalConstantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptGlobalConstant\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_global_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_global_constant\0" . as_ptr () as * const c_char) ; table . set_global_constant = (gd_api . godot_method_bind_get_method) (class_name , "set_global_constant\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:706:26008 [INFO] [stdout] | [INFO] [stdout] 706 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 706 | # [doc = "`core class VisualScript` inherits `Script` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscript.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScript inherits methods from:\n - [Script](struct.Script.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScript { this : RawObject < Self > , } impl VisualScript { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn add_custom_signal (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_custom_signal ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_function (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_function ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_node (& self , func : impl Into < GodotString > , id : i64 , node : impl AsArg < crate :: generated :: visual_script_node :: VisualScriptNode > , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_node ; let ret = crate :: icalls :: icallptr_void_str_i64_obj_vec2 (method_bind , self . this . sys () . as_ptr () , func . into () , id , node . as_arg_ptr () , position) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_variable (& self , name : impl Into < GodotString > , default_value : impl OwnedToVariant , export : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_variable ; let ret = crate :: icalls :: icallptr_void_str_var_bool (method_bind , self . this . sys () . as_ptr () , name . into () , default_value . owned_to_variant () , export) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_add_argument (& self , name : impl Into < GodotString > , _type : i64 , argname : impl Into < GodotString > , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_add_argument ; let ret = crate :: icalls :: icallptr_void_str_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , _type , argname . into () , index) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_get_argument_count (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_get_argument_count ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_get_argument_name (& self , name : impl Into < GodotString > , argidx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_get_argument_name ; let ret = crate :: icalls :: icallptr_str_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_get_argument_type (& self , name : impl Into < GodotString > , argidx : i64) -> VariantType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_get_argument_type ; let ret = crate :: icalls :: icallptr_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx) ; VariantType :: from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_remove_argument (& self , name : impl Into < GodotString > , argidx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_remove_argument ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_set_argument_name (& self , name : impl Into < GodotString > , argidx : i64 , argname : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_set_argument_name ; let ret = crate :: icalls :: icallptr_void_str_i64_str (method_bind , self . this . sys () . as_ptr () , name . into () , argidx , argname . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_set_argument_type (& self , name : impl Into < GodotString > , argidx : i64 , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_set_argument_type ; let ret = crate :: icalls :: icallptr_void_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx , _type) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_swap_argument (& self , name : impl Into < GodotString > , argidx : i64 , withidx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_swap_argument ; let ret = crate :: icalls :: icallptr_void_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx , withidx) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn data_connect (& self , func : impl Into < GodotString > , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . data_connect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_port , to_node , to_port) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn data_disconnect (& self , func : impl Into < GodotString > , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . data_disconnect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_port , to_node , to_port) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_function_node_id (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_function_node_id ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_function_scroll (& self , name : impl Into < GodotString >) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_function_scroll ; let ret = crate :: icalls :: icallptr_vec2_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_node (& self , func : impl Into < GodotString > , id : i64) -> Option < Ref < crate :: generated :: visual_script_node :: VisualScriptNode , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_node ; let ret = crate :: icalls :: icallptr_obj_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: visual_script_node :: VisualScriptNode , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_node_position (& self , func : impl Into < GodotString > , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_node_position ; let ret = crate :: icalls :: icallptr_vec2_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_variable_default_value (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_variable_default_value ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_variable_export (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_variable_export ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_variable_info (& self , name : impl Into < GodotString >) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_variable_info ; let ret = crate :: icalls :: icallptr_dict_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Dictionary :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn has_custom_signal (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_custom_signal ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_data_connection (& self , func : impl Into < GodotString > , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_data_connection ; let ret = crate :: icalls :: icallptr_bool_str_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_port , to_node , to_port) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_function (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_function ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_node (& self , func : impl Into < GodotString > , id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_node ; let ret = crate :: icalls :: icallptr_bool_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_sequence_connection (& self , func : impl Into < GodotString > , from_node : i64 , from_output : i64 , to_node : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_sequence_connection ; let ret = crate :: icalls :: icallptr_bool_str_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_output , to_node) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_variable (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_variable ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_custom_signal (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_custom_signal ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_function (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_function ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_node (& self , func : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_node ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_variable (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_variable ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn rename_custom_signal (& self , name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . rename_custom_signal ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , new_name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn rename_function (& self , name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . rename_function ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , new_name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn rename_variable (& self , name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . rename_variable ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , new_name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn sequence_connect (& self , func : impl Into < GodotString > , from_node : i64 , from_output : i64 , to_node : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . sequence_connect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_output , to_node) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn sequence_disconnect (& self , func : impl Into < GodotString > , from_node : i64 , from_output : i64 , to_node : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . sequence_disconnect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_output , to_node) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_function_scroll (& self , name : impl Into < GodotString > , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_function_scroll ; let ret = crate :: icalls :: icallptr_void_str_vec2 (method_bind , self . this . sys () . as_ptr () , name . into () , ofs) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_instance_base_type (& self , _type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_instance_base_type ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , _type . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_node_position (& self , func : impl Into < GodotString > , id : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_node_position ; let ret = crate :: icalls :: icallptr_void_str_i64_vec2 (method_bind , self . this . sys () . as_ptr () , func . into () , id , position) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable_default_value (& self , name : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_variable_default_value ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , name . into () , value . owned_to_variant ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable_export (& self , name : impl Into < GodotString > , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_variable_export ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , name . into () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable_info (& self , name : impl Into < GodotString > , value : Dictionary) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_variable_info ; let ret = crate :: icalls :: icallptr_void_str_dict (method_bind , self . this . sys () . as_ptr () , name . into () , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScript { } unsafe impl GodotObject for VisualScript { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScript" } } impl std :: ops :: Deref for VisualScript { type Target = crate :: generated :: script :: Script ; # [inline] fn deref (& self) -> & crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScript { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: script :: Script > for VisualScript { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScript { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScript { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScript { } impl Instanciable for VisualScript { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScript :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_custom_signal : * mut sys :: godot_method_bind , pub add_function : * mut sys :: godot_method_bind , pub add_node : * mut sys :: godot_method_bind , pub add_variable : * mut sys :: godot_method_bind , pub custom_signal_add_argument : * mut sys :: godot_method_bind , pub custom_signal_get_argument_count : * mut sys :: godot_method_bind , pub custom_signal_get_argument_name : * mut sys :: godot_method_bind , pub custom_signal_get_argument_type : * mut sys :: godot_method_bind , pub custom_signal_remove_argument : * mut sys :: godot_method_bind , pub custom_signal_set_argument_name : * mut sys :: godot_method_bind , pub custom_signal_set_argument_type : * mut sys :: godot_method_bind , pub custom_signal_swap_argument : * mut sys :: godot_method_bind , pub data_connect : * mut sys :: godot_method_bind , pub data_disconnect : * mut sys :: godot_method_bind , pub get_function_node_id : * mut sys :: godot_method_bind , pub get_function_scroll : * mut sys :: godot_method_bind , pub get_node : * mut sys :: godot_method_bind , pub get_node_position : * mut sys :: godot_method_bind , pub get_variable_default_value : * mut sys :: godot_method_bind , pub get_variable_export : * mut sys :: godot_method_bind , pub get_variable_info : * mut sys :: godot_method_bind , pub has_custom_signal : * mut sys :: godot_method_bind , pub has_data_connection : * mut sys :: godot_method_bind , pub has_function : * mut sys :: godot_method_bind , pub has_node : * mut sys :: godot_method_bind , pub has_sequence_connection : * mut sys :: godot_method_bind , pub has_variable : * mut sys :: godot_method_bind , pub remove_custom_signal : * mut sys :: godot_method_bind , pub remove_function : * mut sys :: godot_method_bind , pub remove_node : * mut sys :: godot_method_bind , pub remove_variable : * mut sys :: godot_method_bind , pub rename_custom_signal : * mut sys :: godot_method_bind , pub rename_function : * mut sys :: godot_method_bind , pub rename_variable : * mut sys :: godot_method_bind , pub sequence_connect : * mut sys :: godot_method_bind , pub sequence_disconnect : * mut sys :: godot_method_bind , pub set_function_scroll : * mut sys :: godot_method_bind , pub set_instance_base_type : * mut sys :: godot_method_bind , pub set_node_position : * mut sys :: godot_method_bind , pub set_variable_default_value : * mut sys :: godot_method_bind , pub set_variable_export : * mut sys :: godot_method_bind , pub set_variable_info : * mut sys :: godot_method_bind } impl VisualScriptMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptMethodTable = VisualScriptMethodTable { class_constructor : None , add_custom_signal : 0 as * mut sys :: godot_method_bind , add_function : 0 as * mut sys :: godot_method_bind , add_node : 0 as * mut sys :: godot_method_bind , add_variable : 0 as * mut sys :: godot_method_bind , custom_signal_add_argument : 0 as * mut sys :: godot_method_bind , custom_signal_get_argument_count : 0 as * mut sys :: godot_method_bind , custom_signal_get_argument_name : 0 as * mut sys :: godot_method_bind , custom_signal_get_argument_type : 0 as * mut sys :: godot_method_bind , custom_signal_remove_argument : 0 as * mut sys :: godot_method_bind , custom_signal_set_argument_name : 0 as * mut sys :: godot_method_bind , custom_signal_set_argument_type : 0 as * mut sys :: godot_method_bind , custom_signal_swap_argument : 0 as * mut sys :: godot_method_bind , data_connect : 0 as * mut sys :: godot_method_bind , data_disconnect : 0 as * mut sys :: godot_method_bind , get_function_node_id : 0 as * mut sys :: godot_method_bind , get_function_scroll : 0 as * mut sys :: godot_method_bind , get_node : 0 as * mut sys :: godot_method_bind , get_node_position : 0 as * mut sys :: godot_method_bind , get_variable_default_value : 0 as * mut sys :: godot_method_bind , get_variable_export : 0 as * mut sys :: godot_method_bind , get_variable_info : 0 as * mut sys :: godot_method_bind , has_custom_signal : 0 as * mut sys :: godot_method_bind , has_data_connection : 0 as * mut sys :: godot_method_bind , has_function : 0 as * mut sys :: godot_method_bind , has_node : 0 as * mut sys :: godot_method_bind , has_sequence_connection : 0 as * mut sys :: godot_method_bind , has_variable : 0 as * mut sys :: godot_method_bind , remove_custom_signal : 0 as * mut sys :: godot_method_bind , remove_function : 0 as * mut sys :: godot_method_bind , remove_node : 0 as * mut sys :: godot_method_bind , remove_variable : 0 as * mut sys :: godot_method_bind , rename_custom_signal : 0 as * mut sys :: godot_method_bind , rename_function : 0 as * mut sys :: godot_method_bind , rename_variable : 0 as * mut sys :: godot_method_bind , sequence_connect : 0 as * mut sys :: godot_method_bind , sequence_disconnect : 0 as * mut sys :: godot_method_bind , set_function_scroll : 0 as * mut sys :: godot_method_bind , set_instance_base_type : 0 as * mut sys :: godot_method_bind , set_node_position : 0 as * mut sys :: godot_method_bind , set_variable_default_value : 0 as * mut sys :: godot_method_bind , set_variable_export : 0 as * mut sys :: godot_method_bind , set_variable_info : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScript\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "add_custom_signal\0" . as_ptr () as * const c_char) ; table . add_function = (gd_api . godot_method_bind_get_method) (class_name , "add_function\0" . as_ptr () as * const c_char) ; table . add_node = (gd_api . godot_method_bind_get_method) (class_name , "add_node\0" . as_ptr () as * const c_char) ; table . add_variable = (gd_api . godot_method_bind_get_method) (class_name , "add_variable\0" . as_ptr () as * const c_char) ; table . custom_signal_add_argument = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_add_argument\0" . as_ptr () as * const c_char) ; table . custom_signal_get_argument_count = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_get_argument_count\0" . as_ptr () as * const c_char) ; table . custom_signal_get_argument_name = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_get_argument_name\0" . as_ptr () as * const c_char) ; table . custom_signal_get_argument_type = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_get_argument_type\0" . as_ptr () as * const c_char) ; table . custom_signal_remove_argument = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_remove_argument\0" . as_ptr () as * const c_char) ; table . custom_signal_set_argument_name = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_set_argument_name\0" . as_ptr () as * const c_char) ; table . custom_signal_set_argument_type = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_set_argument_type\0" . as_ptr () as * const c_char) ; table . custom_signal_swap_argument = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_swap_argument\0" . as_ptr () as * const c_char) ; table . data_connect = (gd_api . godot_method_bind_get_method) (class_name , "data_connect\0" . as_ptr () as * const c_char) ; table . data_disconnect = (gd_api . godot_method_bind_get_method) (class_name , "data_disconnect\0" . as_ptr () as * const c_char) ; table . get_function_node_id = (gd_api . godot_method_bind_get_method) (class_name , "get_function_node_id\0" . as_ptr () as * const c_char) ; table . get_function_scroll = (gd_api . godot_method_bind_get_method) (class_name , "get_function_scroll\0" . as_ptr () as * const c_char) ; table . get_node = (gd_api . godot_method_bind_get_method) (class_name , "get_node\0" . as_ptr () as * const c_char) ; table . get_node_position = (gd_api . godot_method_bind_get_method) (class_name , "get_node_position\0" . as_ptr () as * const c_char) ; table . get_variable_default_value = (gd_api . godot_method_bind_get_method) (class_name , "get_variable_default_value\0" . as_ptr () as * const c_char) ; table . get_variable_export = (gd_api . godot_method_bind_get_method) (class_name , "get_variable_export\0" . as_ptr () as * const c_char) ; table . get_variable_info = (gd_api . godot_method_bind_get_method) (class_name , "get_variable_info\0" . as_ptr () as * const c_char) ; table . has_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "has_custom_signal\0" . as_ptr () as * const c_char) ; table . has_data_connection = (gd_api . godot_method_bind_get_method) (class_name , "has_data_connection\0" . as_ptr () as * const c_char) ; table . has_function = (gd_api . godot_method_bind_get_method) (class_name , "has_function\0" . as_ptr () as * const c_char) ; table . has_node = (gd_api . godot_method_bind_get_method) (class_name , "has_node\0" . as_ptr () as * const c_char) ; table . has_sequence_connection = (gd_api . godot_method_bind_get_method) (class_name , "has_sequence_connection\0" . as_ptr () as * const c_char) ; table . has_variable = (gd_api . godot_method_bind_get_method) (class_name , "has_variable\0" . as_ptr () as * const c_char) ; table . remove_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "remove_custom_signal\0" . as_ptr () as * const c_char) ; table . remove_function = (gd_api . godot_method_bind_get_method) (class_name , "remove_function\0" . as_ptr () as * const c_char) ; table . remove_node = (gd_api . godot_method_bind_get_method) (class_name , "remove_node\0" . as_ptr () as * const c_char) ; table . remove_variable = (gd_api . godot_method_bind_get_method) (class_name , "remove_variable\0" . as_ptr () as * const c_char) ; table . rename_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "rename_custom_signal\0" . as_ptr () as * const c_char) ; table . rename_function = (gd_api . godot_method_bind_get_method) (class_name , "rename_function\0" . as_ptr () as * const c_char) ; table . rename_variable = (gd_api . godot_method_bind_get_method) (class_name , "rename_variable\0" . as_ptr () as * const c_char) ; table . sequence_connect = (gd_api . godot_method_bind_get_method) (class_name , "sequence_connect\0" . as_ptr () as * const c_char) ; table . sequence_disconnect = (gd_api . godot_method_bind_get_method) (class_name , "sequence_disconnect\0" . as_ptr () as * const c_char) ; table . set_function_scroll = (gd_api . godot_method_bind_get_method) (class_name , "set_function_scroll\0" . as_ptr () as * const c_char) ; table . set_instance_base_type = (gd_api . godot_method_bind_get_method) (class_name , "set_instance_base_type\0" . as_ptr () as * const c_char) ; table . set_node_position = (gd_api . godot_method_bind_get_method) (class_name , "set_node_position\0" . as_ptr () as * const c_char) ; table . set_variable_default_value = (gd_api . godot_method_bind_get_method) (class_name , "set_variable_default_value\0" . as_ptr () as * const c_char) ; table . set_variable_export = (gd_api . godot_method_bind_get_method) (class_name , "set_variable_export\0" . as_ptr () as * const c_char) ; table . set_variable_info = (gd_api . godot_method_bind_get_method) (class_name , "set_variable_info\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:712:44846 [INFO] [stdout] | [INFO] [stdout] 712 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 712 | # [doc = "`core class TileSet` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_tileset.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nTileSet inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct TileSet { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AutotileBindings (pub i64) ; impl AutotileBindings { pub const TOPLEFT : AutotileBindings = AutotileBindings (1i64) ; pub const TOP : AutotileBindings = AutotileBindings (2i64) ; pub const TOPRIGHT : AutotileBindings = AutotileBindings (4i64) ; pub const LEFT : AutotileBindings = AutotileBindings (8i64) ; pub const CENTER : AutotileBindings = AutotileBindings (16i64) ; pub const RIGHT : AutotileBindings = AutotileBindings (32i64) ; pub const BOTTOMLEFT : AutotileBindings = AutotileBindings (64i64) ; pub const BOTTOM : AutotileBindings = AutotileBindings (128i64) ; pub const BOTTOMRIGHT : AutotileBindings = AutotileBindings (256i64) ; } impl From < i64 > for AutotileBindings { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AutotileBindings > for i64 { # [inline] fn from (v : AutotileBindings) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BitmaskMode (pub i64) ; impl BitmaskMode { pub const _2X2 : BitmaskMode = BitmaskMode (0i64) ; pub const _3X3_MINIMAL : BitmaskMode = BitmaskMode (1i64) ; pub const _3X3 : BitmaskMode = BitmaskMode (2i64) ; } impl From < i64 > for BitmaskMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BitmaskMode > for i64 { # [inline] fn from (v : BitmaskMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TileMode (pub i64) ; impl TileMode { pub const SINGLE_TILE : TileMode = TileMode (0i64) ; pub const AUTO_TILE : TileMode = TileMode (1i64) ; pub const ATLAS_TILE : TileMode = TileMode (2i64) ; } impl From < i64 > for TileMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TileMode > for i64 { # [inline] fn from (v : TileMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl TileSet { pub const ATLAS_TILE : i64 = 2i64 ; pub const AUTO_TILE : i64 = 1i64 ; pub const BIND_BOTTOM : i64 = 128i64 ; pub const BIND_BOTTOMLEFT : i64 = 64i64 ; pub const BIND_BOTTOMRIGHT : i64 = 256i64 ; pub const BIND_CENTER : i64 = 16i64 ; pub const BIND_LEFT : i64 = 8i64 ; pub const BIND_RIGHT : i64 = 32i64 ; pub const BIND_TOP : i64 = 2i64 ; pub const BIND_TOPLEFT : i64 = 1i64 ; pub const BIND_TOPRIGHT : i64 = 4i64 ; pub const BITMASK_2X2 : i64 = 0i64 ; pub const BITMASK_3X3 : i64 = 2i64 ; pub const BITMASK_3X3_MINIMAL : i64 = 1i64 ; pub const SINGLE_TILE : i64 = 0i64 ; } impl TileSet { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = TileSetMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Clears all bitmask information of the autotile."] # [doc = ""] # [inline] pub fn autotile_clear_bitmask_map (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_clear_bitmask_map ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Returns the bitmask of the subtile from an autotile given its coordinates.\nThe value is the sum of the values in [enum AutotileBindings] present in the subtile (e.g. a value of 5 means the bitmask has bindings in both the top left and top right)."] # [doc = ""] # [inline] pub fn autotile_get_bitmask (& self , id : i64 , coord : Vector2) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_bitmask ; let ret = crate :: icalls :: icallptr_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ret as _ } } # [doc = "Returns the [enum BitmaskMode] of the autotile."] # [doc = ""] # [inline] pub fn autotile_get_bitmask_mode (& self , id : i64) -> crate :: generated :: tile_set :: BitmaskMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_bitmask_mode ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; crate :: generated :: tile_set :: BitmaskMode (ret) } } # [doc = "Returns the subtile that's being used as an icon in an atlas/autotile given its coordinates.\nThe subtile defined as the icon will be used as a fallback when the atlas/autotile's bitmask information is incomplete. It will also be used to represent it in the TileSet editor."] # [doc = ""] # [inline] pub fn autotile_get_icon_coordinate (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_icon_coordinate ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the light occluder of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_get_light_occluder (& self , id : i64 , coord : Vector2) -> Option < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_light_occluder ; let ret = crate :: icalls :: icallptr_obj_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the navigation polygon of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_get_navigation_polygon (& self , id : i64 , coord : Vector2) -> Option < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_navigation_polygon ; let ret = crate :: icalls :: icallptr_obj_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the size of the subtiles in an atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_get_size (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_size ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the spacing between subtiles of the atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_get_spacing (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_spacing ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns the priority of the subtile from an autotile given its coordinates.\nWhen more than one subtile has the same bitmask value, one of them will be picked randomly for drawing. Its priority will define how often it will be picked."] # [doc = ""] # [inline] pub fn autotile_get_subtile_priority (& self , id : i64 , coord : Vector2) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_subtile_priority ; let ret = crate :: icalls :: icallptr_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ret as _ } } # [doc = "Returns the drawing index of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_get_z_index (& self , id : i64 , coord : Vector2) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_z_index ; let ret = crate :: icalls :: icallptr_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ret as _ } } # [doc = "Sets the bitmask of the subtile from an autotile given its coordinates.\nThe value is the sum of the values in [enum AutotileBindings] present in the subtile (e.g. a value of 5 means the bitmask has bindings in both the top left and top right)."] # [doc = ""] # [inline] pub fn autotile_set_bitmask (& self , id : i64 , bitmask : Vector2 , flag : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_bitmask ; let ret = crate :: icalls :: icallptr_void_i64_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id , bitmask , flag) ; } } # [doc = "Sets the [enum BitmaskMode] of the autotile."] # [doc = ""] # [inline] pub fn autotile_set_bitmask_mode (& self , id : i64 , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_bitmask_mode ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , mode) ; } } # [doc = "Sets the subtile that will be used as an icon in an atlas/autotile given its coordinates.\nThe subtile defined as the icon will be used as a fallback when the atlas/autotile's bitmask information is incomplete. It will also be used to represent it in the TileSet editor."] # [doc = ""] # [inline] pub fn autotile_set_icon_coordinate (& self , id : i64 , coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_icon_coordinate ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; } } # [doc = "Sets the light occluder of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_set_light_occluder (& self , id : i64 , light_occluder : impl AsArg < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D > , coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_light_occluder ; let ret = crate :: icalls :: icallptr_void_i64_obj_vec2 (method_bind , self . this . sys () . as_ptr () , id , light_occluder . as_arg_ptr () , coord) ; } } # [doc = "Sets the navigation polygon of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_set_navigation_polygon (& self , id : i64 , navigation_polygon : impl AsArg < crate :: generated :: navigation_polygon :: NavigationPolygon > , coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_navigation_polygon ; let ret = crate :: icalls :: icallptr_void_i64_obj_vec2 (method_bind , self . this . sys () . as_ptr () , id , navigation_polygon . as_arg_ptr () , coord) ; } } # [doc = "Sets the size of the subtiles in an atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_set_size (& self , id : i64 , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_size ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , size) ; } } # [doc = "Sets the spacing between subtiles of the atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_set_spacing (& self , id : i64 , spacing : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_spacing ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , spacing) ; } } # [doc = "Sets the priority of the subtile from an autotile given its coordinates.\nWhen more than one subtile has the same bitmask value, one of them will be picked randomly for drawing. Its priority will define how often it will be picked."] # [doc = ""] # [inline] pub fn autotile_set_subtile_priority (& self , id : i64 , coord : Vector2 , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_subtile_priority ; let ret = crate :: icalls :: icallptr_void_i64_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id , coord , priority) ; } } # [doc = "Sets the drawing index of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_set_z_index (& self , id : i64 , coord : Vector2 , z_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_z_index ; let ret = crate :: icalls :: icallptr_void_i64_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id , coord , z_index) ; } } # [doc = "Clears all tiles."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Creates a new tile with the given ID."] # [doc = ""] # [inline] pub fn create_tile (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . create_tile ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Returns the first tile matching the given name."] # [doc = ""] # [inline] pub fn find_tile_by_name (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . find_tile_by_name ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns the ID following the last currently used ID, useful when creating a new tile."] # [doc = ""] # [inline] pub fn get_last_unused_tile_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . get_last_unused_tile_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an array of all currently used tile IDs."] # [doc = ""] # [inline] pub fn get_tiles_ids (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . get_tiles_ids ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Removes the given tile ID."] # [doc = ""] # [inline] pub fn remove_tile (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . remove_tile ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Adds a shape to the tile.\n# Default Arguments\n* `one_way` - `false`\n* `autotile_coord` - `Vector2( 0, 0 )`"] # [doc = ""] # [inline] pub fn tile_add_shape (& self , id : i64 , shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D > , shape_transform : Transform2D , one_way : bool , autotile_coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_add_shape ; let ret = crate :: icalls :: icallptr_void_i64_obj_trans2D_bool_vec2 (method_bind , self . this . sys () . as_ptr () , id , shape . as_arg_ptr () , shape_transform , one_way , autotile_coord) ; } } # [doc = "Returns the tile's light occluder."] # [doc = ""] # [inline] pub fn tile_get_light_occluder (& self , id : i64) -> Option < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_light_occluder ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the tile's material."] # [doc = ""] # [inline] pub fn tile_get_material (& self , id : i64) -> Option < Ref < crate :: generated :: shader_material :: ShaderMaterial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_material ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shader_material :: ShaderMaterial , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the tile's modulation color."] # [doc = ""] # [inline] pub fn tile_get_modulate (& self , id : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_modulate ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile's name."] # [doc = ""] # [inline] pub fn tile_get_name (& self , id : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , id) ; GodotString :: from_sys (ret) } } # [doc = "Returns the navigation polygon of the tile."] # [doc = ""] # [inline] pub fn tile_get_navigation_polygon (& self , id : i64) -> Option < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_navigation_polygon ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the offset of the tile's navigation polygon."] # [doc = ""] # [inline] pub fn tile_get_navigation_polygon_offset (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_navigation_polygon_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile's normal map texture."] # [doc = ""] # [inline] pub fn tile_get_normal_map (& self , id : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_normal_map ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the offset of the tile's light occluder."] # [doc = ""] # [inline] pub fn tile_get_occluder_offset (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_occluder_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile sub-region in the texture."] # [doc = ""] # [inline] pub fn tile_get_region (& self , id : i64) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_region ; let ret = crate :: icalls :: icallptr_rect2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns a tile's given shape."] # [doc = ""] # [inline] pub fn tile_get_shape (& self , id : i64 , shape_id : i64) -> Option < Ref < crate :: generated :: shape_2d :: Shape2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape ; let ret = crate :: icalls :: icallptr_obj_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shape_2d :: Shape2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of shapes assigned to a tile."] # [doc = ""] # [inline] pub fn tile_get_shape_count (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_count ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns the offset of a tile's shape."] # [doc = ""] # [inline] pub fn tile_get_shape_offset (& self , id : i64 , shape_id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_offset ; let ret = crate :: icalls :: icallptr_vec2_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; mem :: transmute (ret) } } # [doc = "Returns the one-way collision value of a tile's shape."] # [doc = ""] # [inline] pub fn tile_get_shape_one_way (& self , id : i64 , shape_id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_one_way ; let ret = crate :: icalls :: icallptr_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn tile_get_shape_one_way_margin (& self , id : i64 , shape_id : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_one_way_margin ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; ret as _ } } # [doc = "Returns the [Transform2D] of a tile's shape."] # [doc = ""] # [inline] pub fn tile_get_shape_transform (& self , id : i64 , shape_id : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_transform ; let ret = crate :: icalls :: icallptr_trans2D_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; mem :: transmute (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns an array of dictionaries describing the tile's shapes.\n**Dictionary structure in the array returned by this method:**\n```gdscript\n{\n \"autotile_coord\": Vector2,\n \"one_way\": bool,\n \"one_way_margin\": int,\n \"shape\": CollisionShape2D,\n \"shape_transform\": Transform2D,\n}\n```"] # [doc = ""] # [inline] pub fn tile_get_shapes (& self , id : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shapes ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , id) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the tile's texture."] # [doc = ""] # [inline] pub fn tile_get_texture (& self , id : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_texture ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the texture offset of the tile."] # [doc = ""] # [inline] pub fn tile_get_texture_offset (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_texture_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile's [enum TileMode]."] # [doc = ""] # [inline] pub fn tile_get_tile_mode (& self , id : i64) -> crate :: generated :: tile_set :: TileMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_tile_mode ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; crate :: generated :: tile_set :: TileMode (ret) } } # [doc = "Returns the tile's Z index (drawing layer)."] # [doc = ""] # [inline] pub fn tile_get_z_index (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_z_index ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Sets a light occluder for the tile."] # [doc = ""] # [inline] pub fn tile_set_light_occluder (& self , id : i64 , light_occluder : impl AsArg < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_light_occluder ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , light_occluder . as_arg_ptr ()) ; } } # [doc = "Sets the tile's material."] # [doc = ""] # [inline] pub fn tile_set_material (& self , id : i64 , material : impl AsArg < crate :: generated :: shader_material :: ShaderMaterial >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_material ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , material . as_arg_ptr ()) ; } } # [doc = "Sets the tile's modulation color."] # [doc = ""] # [inline] pub fn tile_set_modulate (& self , id : i64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_modulate ; let ret = crate :: icalls :: icallptr_void_i64_color (method_bind , self . this . sys () . as_ptr () , id , color) ; } } # [doc = "Sets the tile's name."] # [doc = ""] # [inline] pub fn tile_set_name (& self , id : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , id , name . into ()) ; } } # [doc = "Sets the tile's navigation polygon."] # [doc = ""] # [inline] pub fn tile_set_navigation_polygon (& self , id : i64 , navigation_polygon : impl AsArg < crate :: generated :: navigation_polygon :: NavigationPolygon >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_navigation_polygon ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , navigation_polygon . as_arg_ptr ()) ; } } # [doc = "Sets an offset for the tile's navigation polygon."] # [doc = ""] # [inline] pub fn tile_set_navigation_polygon_offset (& self , id : i64 , navigation_polygon_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_navigation_polygon_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , navigation_polygon_offset) ; } } # [doc = "Sets the tile's normal map texture.\n**Note:** Godot expects the normal map to use X+, Y-, and Z+ coordinates. See [url=http://wiki.polycount.com/wiki/Normal_Map_Technical_Details#Common_Swizzle_Coordinates]this page[/url] for a comparison of normal map coordinates expected by popular engines."] # [doc = ""] # [inline] pub fn tile_set_normal_map (& self , id : i64 , normal_map : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_normal_map ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , normal_map . as_arg_ptr ()) ; } } # [doc = "Sets an offset for the tile's light occluder."] # [doc = ""] # [inline] pub fn tile_set_occluder_offset (& self , id : i64 , occluder_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_occluder_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , occluder_offset) ; } } # [doc = "Sets the tile's sub-region in the texture. This is common in texture atlases."] # [doc = ""] # [inline] pub fn tile_set_region (& self , id : i64 , region : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_region ; let ret = crate :: icalls :: icallptr_void_i64_rect2 (method_bind , self . this . sys () . as_ptr () , id , region) ; } } # [doc = "Sets a shape for the tile, enabling collision."] # [doc = ""] # [inline] pub fn tile_set_shape (& self , id : i64 , shape_id : i64 , shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape ; let ret = crate :: icalls :: icallptr_void_i64_i64_obj (method_bind , self . this . sys () . as_ptr () , id , shape_id , shape . as_arg_ptr ()) ; } } # [doc = "Sets the offset of a tile's shape."] # [doc = ""] # [inline] pub fn tile_set_shape_offset (& self , id : i64 , shape_id : i64 , shape_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_offset ; let ret = crate :: icalls :: icallptr_void_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , shape_id , shape_offset) ; } } # [doc = "Enables one-way collision on a tile's shape."] # [doc = ""] # [inline] pub fn tile_set_shape_one_way (& self , id : i64 , shape_id : i64 , one_way : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_one_way ; let ret = crate :: icalls :: icallptr_void_i64_i64_bool (method_bind , self . this . sys () . as_ptr () , id , shape_id , one_way) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn tile_set_shape_one_way_margin (& self , id : i64 , shape_id : i64 , one_way : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_one_way_margin ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , id , shape_id , one_way) ; } } # [doc = "Sets a [Transform2D] on a tile's shape."] # [doc = ""] # [inline] pub fn tile_set_shape_transform (& self , id : i64 , shape_id : i64 , shape_transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_transform ; let ret = crate :: icalls :: icallptr_void_i64_i64_trans2D (method_bind , self . this . sys () . as_ptr () , id , shape_id , shape_transform) ; } } # [doc = "Sets an array of shapes for the tile, enabling collision."] # [doc = ""] # [inline] pub fn tile_set_shapes (& self , id : i64 , shapes : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shapes ; let ret = crate :: icalls :: icallptr_void_i64_arr (method_bind , self . this . sys () . as_ptr () , id , shapes) ; } } # [doc = "Sets the tile's texture."] # [doc = ""] # [inline] pub fn tile_set_texture (& self , id : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_texture ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , texture . as_arg_ptr ()) ; } } # [doc = "Sets the tile's texture offset."] # [doc = ""] # [inline] pub fn tile_set_texture_offset (& self , id : i64 , texture_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_texture_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , texture_offset) ; } } # [doc = "Sets the tile's [enum TileMode]."] # [doc = ""] # [inline] pub fn tile_set_tile_mode (& self , id : i64 , tilemode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_tile_mode ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , tilemode) ; } } # [doc = "Sets the tile's drawing index."] # [doc = ""] # [inline] pub fn tile_set_z_index (& self , id : i64 , z_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_z_index ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , z_index) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for TileSet { } unsafe impl GodotObject for TileSet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "TileSet" } } impl std :: ops :: Deref for TileSet { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TileSet { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for TileSet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for TileSet { } unsafe impl SubClass < crate :: generated :: object :: Object > for TileSet { } impl Instanciable for TileSet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TileSet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TileSetMethodTable { pub class_constructor : sys :: godot_class_constructor , pub autotile_clear_bitmask_map : * mut sys :: godot_method_bind , pub autotile_get_bitmask : * mut sys :: godot_method_bind , pub autotile_get_bitmask_mode : * mut sys :: godot_method_bind , pub autotile_get_icon_coordinate : * mut sys :: godot_method_bind , pub autotile_get_light_occluder : * mut sys :: godot_method_bind , pub autotile_get_navigation_polygon : * mut sys :: godot_method_bind , pub autotile_get_size : * mut sys :: godot_method_bind , pub autotile_get_spacing : * mut sys :: godot_method_bind , pub autotile_get_subtile_priority : * mut sys :: godot_method_bind , pub autotile_get_z_index : * mut sys :: godot_method_bind , pub autotile_set_bitmask : * mut sys :: godot_method_bind , pub autotile_set_bitmask_mode : * mut sys :: godot_method_bind , pub autotile_set_icon_coordinate : * mut sys :: godot_method_bind , pub autotile_set_light_occluder : * mut sys :: godot_method_bind , pub autotile_set_navigation_polygon : * mut sys :: godot_method_bind , pub autotile_set_size : * mut sys :: godot_method_bind , pub autotile_set_spacing : * mut sys :: godot_method_bind , pub autotile_set_subtile_priority : * mut sys :: godot_method_bind , pub autotile_set_z_index : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub create_tile : * mut sys :: godot_method_bind , pub find_tile_by_name : * mut sys :: godot_method_bind , pub get_last_unused_tile_id : * mut sys :: godot_method_bind , pub get_tiles_ids : * mut sys :: godot_method_bind , pub remove_tile : * mut sys :: godot_method_bind , pub tile_add_shape : * mut sys :: godot_method_bind , pub tile_get_light_occluder : * mut sys :: godot_method_bind , pub tile_get_material : * mut sys :: godot_method_bind , pub tile_get_modulate : * mut sys :: godot_method_bind , pub tile_get_name : * mut sys :: godot_method_bind , pub tile_get_navigation_polygon : * mut sys :: godot_method_bind , pub tile_get_navigation_polygon_offset : * mut sys :: godot_method_bind , pub tile_get_normal_map : * mut sys :: godot_method_bind , pub tile_get_occluder_offset : * mut sys :: godot_method_bind , pub tile_get_region : * mut sys :: godot_method_bind , pub tile_get_shape : * mut sys :: godot_method_bind , pub tile_get_shape_count : * mut sys :: godot_method_bind , pub tile_get_shape_offset : * mut sys :: godot_method_bind , pub tile_get_shape_one_way : * mut sys :: godot_method_bind , pub tile_get_shape_one_way_margin : * mut sys :: godot_method_bind , pub tile_get_shape_transform : * mut sys :: godot_method_bind , pub tile_get_shapes : * mut sys :: godot_method_bind , pub tile_get_texture : * mut sys :: godot_method_bind , pub tile_get_texture_offset : * mut sys :: godot_method_bind , pub tile_get_tile_mode : * mut sys :: godot_method_bind , pub tile_get_z_index : * mut sys :: godot_method_bind , pub tile_set_light_occluder : * mut sys :: godot_method_bind , pub tile_set_material : * mut sys :: godot_method_bind , pub tile_set_modulate : * mut sys :: godot_method_bind , pub tile_set_name : * mut sys :: godot_method_bind , pub tile_set_navigation_polygon : * mut sys :: godot_method_bind , pub tile_set_navigation_polygon_offset : * mut sys :: godot_method_bind , pub tile_set_normal_map : * mut sys :: godot_method_bind , pub tile_set_occluder_offset : * mut sys :: godot_method_bind , pub tile_set_region : * mut sys :: godot_method_bind , pub tile_set_shape : * mut sys :: godot_method_bind , pub tile_set_shape_offset : * mut sys :: godot_method_bind , pub tile_set_shape_one_way : * mut sys :: godot_method_bind , pub tile_set_shape_one_way_margin : * mut sys :: godot_method_bind , pub tile_set_shape_transform : * mut sys :: godot_method_bind , pub tile_set_shapes : * mut sys :: godot_method_bind , pub tile_set_texture : * mut sys :: godot_method_bind , pub tile_set_texture_offset : * mut sys :: godot_method_bind , pub tile_set_tile_mode : * mut sys :: godot_method_bind , pub tile_set_z_index : * mut sys :: godot_method_bind } impl TileSetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TileSetMethodTable = TileSetMethodTable { class_constructor : None , autotile_clear_bitmask_map : 0 as * mut sys :: godot_method_bind , autotile_get_bitmask : 0 as * mut sys :: godot_method_bind , autotile_get_bitmask_mode : 0 as * mut sys :: godot_method_bind , autotile_get_icon_coordinate : 0 as * mut sys :: godot_method_bind , autotile_get_light_occluder : 0 as * mut sys :: godot_method_bind , autotile_get_navigation_polygon : 0 as * mut sys :: godot_method_bind , autotile_get_size : 0 as * mut sys :: godot_method_bind , autotile_get_spacing : 0 as * mut sys :: godot_method_bind , autotile_get_subtile_priority : 0 as * mut sys :: godot_method_bind , autotile_get_z_index : 0 as * mut sys :: godot_method_bind , autotile_set_bitmask : 0 as * mut sys :: godot_method_bind , autotile_set_bitmask_mode : 0 as * mut sys :: godot_method_bind , autotile_set_icon_coordinate : 0 as * mut sys :: godot_method_bind , autotile_set_light_occluder : 0 as * mut sys :: godot_method_bind , autotile_set_navigation_polygon : 0 as * mut sys :: godot_method_bind , autotile_set_size : 0 as * mut sys :: godot_method_bind , autotile_set_spacing : 0 as * mut sys :: godot_method_bind , autotile_set_subtile_priority : 0 as * mut sys :: godot_method_bind , autotile_set_z_index : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , create_tile : 0 as * mut sys :: godot_method_bind , find_tile_by_name : 0 as * mut sys :: godot_method_bind , get_last_unused_tile_id : 0 as * mut sys :: godot_method_bind , get_tiles_ids : 0 as * mut sys :: godot_method_bind , remove_tile : 0 as * mut sys :: godot_method_bind , tile_add_shape : 0 as * mut sys :: godot_method_bind , tile_get_light_occluder : 0 as * mut sys :: godot_method_bind , tile_get_material : 0 as * mut sys :: godot_method_bind , tile_get_modulate : 0 as * mut sys :: godot_method_bind , tile_get_name : 0 as * mut sys :: godot_method_bind , tile_get_navigation_polygon : 0 as * mut sys :: godot_method_bind , tile_get_navigation_polygon_offset : 0 as * mut sys :: godot_method_bind , tile_get_normal_map : 0 as * mut sys :: godot_method_bind , tile_get_occluder_offset : 0 as * mut sys :: godot_method_bind , tile_get_region : 0 as * mut sys :: godot_method_bind , tile_get_shape : 0 as * mut sys :: godot_method_bind , tile_get_shape_count : 0 as * mut sys :: godot_method_bind , tile_get_shape_offset : 0 as * mut sys :: godot_method_bind , tile_get_shape_one_way : 0 as * mut sys :: godot_method_bind , tile_get_shape_one_way_margin : 0 as * mut sys :: godot_method_bind , tile_get_shape_transform : 0 as * mut sys :: godot_method_bind , tile_get_shapes : 0 as * mut sys :: godot_method_bind , tile_get_texture : 0 as * mut sys :: godot_method_bind , tile_get_texture_offset : 0 as * mut sys :: godot_method_bind , tile_get_tile_mode : 0 as * mut sys :: godot_method_bind , tile_get_z_index : 0 as * mut sys :: godot_method_bind , tile_set_light_occluder : 0 as * mut sys :: godot_method_bind , tile_set_material : 0 as * mut sys :: godot_method_bind , tile_set_modulate : 0 as * mut sys :: godot_method_bind , tile_set_name : 0 as * mut sys :: godot_method_bind , tile_set_navigation_polygon : 0 as * mut sys :: godot_method_bind , tile_set_navigation_polygon_offset : 0 as * mut sys :: godot_method_bind , tile_set_normal_map : 0 as * mut sys :: godot_method_bind , tile_set_occluder_offset : 0 as * mut sys :: godot_method_bind , tile_set_region : 0 as * mut sys :: godot_method_bind , tile_set_shape : 0 as * mut sys :: godot_method_bind , tile_set_shape_offset : 0 as * mut sys :: godot_method_bind , tile_set_shape_one_way : 0 as * mut sys :: godot_method_bind , tile_set_shape_one_way_margin : 0 as * mut sys :: godot_method_bind , tile_set_shape_transform : 0 as * mut sys :: godot_method_bind , tile_set_shapes : 0 as * mut sys :: godot_method_bind , tile_set_texture : 0 as * mut sys :: godot_method_bind , tile_set_texture_offset : 0 as * mut sys :: godot_method_bind , tile_set_tile_mode : 0 as * mut sys :: godot_method_bind , tile_set_z_index : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TileSetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TileSet\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . autotile_clear_bitmask_map = (gd_api . godot_method_bind_get_method) (class_name , "autotile_clear_bitmask_map\0" . as_ptr () as * const c_char) ; table . autotile_get_bitmask = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_bitmask\0" . as_ptr () as * const c_char) ; table . autotile_get_bitmask_mode = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_bitmask_mode\0" . as_ptr () as * const c_char) ; table . autotile_get_icon_coordinate = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_icon_coordinate\0" . as_ptr () as * const c_char) ; table . autotile_get_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_light_occluder\0" . as_ptr () as * const c_char) ; table . autotile_get_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_navigation_polygon\0" . as_ptr () as * const c_char) ; table . autotile_get_size = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_size\0" . as_ptr () as * const c_char) ; table . autotile_get_spacing = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_spacing\0" . as_ptr () as * const c_char) ; table . autotile_get_subtile_priority = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_subtile_priority\0" . as_ptr () as * const c_char) ; table . autotile_get_z_index = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_z_index\0" . as_ptr () as * const c_char) ; table . autotile_set_bitmask = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_bitmask\0" . as_ptr () as * const c_char) ; table . autotile_set_bitmask_mode = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_bitmask_mode\0" . as_ptr () as * const c_char) ; table . autotile_set_icon_coordinate = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_icon_coordinate\0" . as_ptr () as * const c_char) ; table . autotile_set_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_light_occluder\0" . as_ptr () as * const c_char) ; table . autotile_set_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_navigation_polygon\0" . as_ptr () as * const c_char) ; table . autotile_set_size = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_size\0" . as_ptr () as * const c_char) ; table . autotile_set_spacing = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_spacing\0" . as_ptr () as * const c_char) ; table . autotile_set_subtile_priority = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_subtile_priority\0" . as_ptr () as * const c_char) ; table . autotile_set_z_index = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_z_index\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . create_tile = (gd_api . godot_method_bind_get_method) (class_name , "create_tile\0" . as_ptr () as * const c_char) ; table . find_tile_by_name = (gd_api . godot_method_bind_get_method) (class_name , "find_tile_by_name\0" . as_ptr () as * const c_char) ; table . get_last_unused_tile_id = (gd_api . godot_method_bind_get_method) (class_name , "get_last_unused_tile_id\0" . as_ptr () as * const c_char) ; table . get_tiles_ids = (gd_api . godot_method_bind_get_method) (class_name , "get_tiles_ids\0" . as_ptr () as * const c_char) ; table . remove_tile = (gd_api . godot_method_bind_get_method) (class_name , "remove_tile\0" . as_ptr () as * const c_char) ; table . tile_add_shape = (gd_api . godot_method_bind_get_method) (class_name , "tile_add_shape\0" . as_ptr () as * const c_char) ; table . tile_get_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_light_occluder\0" . as_ptr () as * const c_char) ; table . tile_get_material = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_material\0" . as_ptr () as * const c_char) ; table . tile_get_modulate = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_modulate\0" . as_ptr () as * const c_char) ; table . tile_get_name = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_name\0" . as_ptr () as * const c_char) ; table . tile_get_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_navigation_polygon\0" . as_ptr () as * const c_char) ; table . tile_get_navigation_polygon_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_navigation_polygon_offset\0" . as_ptr () as * const c_char) ; table . tile_get_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_normal_map\0" . as_ptr () as * const c_char) ; table . tile_get_occluder_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_occluder_offset\0" . as_ptr () as * const c_char) ; table . tile_get_region = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_region\0" . as_ptr () as * const c_char) ; table . tile_get_shape = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape\0" . as_ptr () as * const c_char) ; table . tile_get_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_count\0" . as_ptr () as * const c_char) ; table . tile_get_shape_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_offset\0" . as_ptr () as * const c_char) ; table . tile_get_shape_one_way = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_one_way\0" . as_ptr () as * const c_char) ; table . tile_get_shape_one_way_margin = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_one_way_margin\0" . as_ptr () as * const c_char) ; table . tile_get_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_transform\0" . as_ptr () as * const c_char) ; table . tile_get_shapes = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shapes\0" . as_ptr () as * const c_char) ; table . tile_get_texture = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_texture\0" . as_ptr () as * const c_char) ; table . tile_get_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_texture_offset\0" . as_ptr () as * const c_char) ; table . tile_get_tile_mode = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_tile_mode\0" . as_ptr () as * const c_char) ; table . tile_get_z_index = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_z_index\0" . as_ptr () as * const c_char) ; table . tile_set_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_light_occluder\0" . as_ptr () as * const c_char) ; table . tile_set_material = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_material\0" . as_ptr () as * const c_char) ; table . tile_set_modulate = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_modulate\0" . as_ptr () as * const c_char) ; table . tile_set_name = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_name\0" . as_ptr () as * const c_char) ; table . tile_set_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_navigation_polygon\0" . as_ptr () as * const c_char) ; table . tile_set_navigation_polygon_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_navigation_polygon_offset\0" . as_ptr () as * const c_char) ; table . tile_set_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_normal_map\0" . as_ptr () as * const c_char) ; table . tile_set_occluder_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_occluder_offset\0" . as_ptr () as * const c_char) ; table . tile_set_region = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_region\0" . as_ptr () as * const c_char) ; table . tile_set_shape = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape\0" . as_ptr () as * const c_char) ; table . tile_set_shape_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_offset\0" . as_ptr () as * const c_char) ; table . tile_set_shape_one_way = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_one_way\0" . as_ptr () as * const c_char) ; table . tile_set_shape_one_way_margin = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_one_way_margin\0" . as_ptr () as * const c_char) ; table . tile_set_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_transform\0" . as_ptr () as * const c_char) ; table . tile_set_shapes = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shapes\0" . as_ptr () as * const c_char) ; table . tile_set_texture = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_texture\0" . as_ptr () as * const c_char) ; table . tile_set_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_texture_offset\0" . as_ptr () as * const c_char) ; table . tile_set_tile_mode = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_tile_mode\0" . as_ptr () as * const c_char) ; table . tile_set_z_index = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_z_index\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:718:7886 [INFO] [stdout] | [INFO] [stdout] 718 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 718 | # [doc = "`core class ResourcePreloader` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_resourcepreloader.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ResourcePreloader` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nResourcePreloader inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ResourcePreloader { this : RawObject < Self > , } impl ResourcePreloader { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ResourcePreloaderMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a resource to the preloader with the given `name`. If a resource with the given `name` already exists, the new resource will be renamed to \"`name` N\" where N is an incrementing number starting from 2."] # [doc = ""] # [inline] pub fn add_resource (& self , name : impl Into < GodotString > , resource : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourcePreloaderMethodTable :: get (get_api ()) . add_resource ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , resource . as_arg_ptr ()) ; } } # [doc = "Returns the resource associated to `name`."] # [doc = ""] # [inline] pub fn get_resource (& self , name : impl Into < GodotString >) -> Option < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourcePreloaderMethodTable :: get (get_api ()) . get_resource ; let ret = crate :: icalls :: icallptr_obj_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the list of resources inside the preloader."] # [doc = ""] # [inline] pub fn get_resource_list (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourcePreloaderMethodTable :: get (get_api ()) . get_resource_list ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns `true` if the preloader contains a resource associated to `name`."] # [doc = ""] # [inline] pub fn has_resource (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourcePreloaderMethodTable :: get (get_api ()) . has_resource ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Removes the resource associated to `name` from the preloader."] # [doc = ""] # [inline] pub fn remove_resource (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourcePreloaderMethodTable :: get (get_api ()) . remove_resource ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Renames a resource inside the preloader from `name` to `newname`."] # [doc = ""] # [inline] pub fn rename_resource (& self , name : impl Into < GodotString > , newname : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourcePreloaderMethodTable :: get (get_api ()) . rename_resource ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , newname . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ResourcePreloader { } unsafe impl GodotObject for ResourcePreloader { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ResourcePreloader" } } impl QueueFree for ResourcePreloader { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ResourcePreloader { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ResourcePreloader { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for ResourcePreloader { } unsafe impl SubClass < crate :: generated :: object :: Object > for ResourcePreloader { } impl Instanciable for ResourcePreloader { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ResourcePreloader :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ResourcePreloaderMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_resource : * mut sys :: godot_method_bind , pub get_resource : * mut sys :: godot_method_bind , pub get_resource_list : * mut sys :: godot_method_bind , pub has_resource : * mut sys :: godot_method_bind , pub remove_resource : * mut sys :: godot_method_bind , pub rename_resource : * mut sys :: godot_method_bind } impl ResourcePreloaderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ResourcePreloaderMethodTable = ResourcePreloaderMethodTable { class_constructor : None , add_resource : 0 as * mut sys :: godot_method_bind , get_resource : 0 as * mut sys :: godot_method_bind , get_resource_list : 0 as * mut sys :: godot_method_bind , has_resource : 0 as * mut sys :: godot_method_bind , remove_resource : 0 as * mut sys :: godot_method_bind , rename_resource : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ResourcePreloaderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ResourcePreloader\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_resource = (gd_api . godot_method_bind_get_method) (class_name , "add_resource\0" . as_ptr () as * const c_char) ; table . get_resource = (gd_api . godot_method_bind_get_method) (class_name , "get_resource\0" . as_ptr () as * const c_char) ; table . get_resource_list = (gd_api . godot_method_bind_get_method) (class_name , "get_resource_list\0" . as_ptr () as * const c_char) ; table . has_resource = (gd_api . godot_method_bind_get_method) (class_name , "has_resource\0" . as_ptr () as * const c_char) ; table . remove_resource = (gd_api . godot_method_bind_get_method) (class_name , "remove_resource\0" . as_ptr () as * const c_char) ; table . rename_resource = (gd_api . godot_method_bind_get_method) (class_name , "rename_resource\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:724:11026 [INFO] [stdout] | [INFO] [stdout] 724 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 724 | # [doc = "`core class StaticBody` inherits `PhysicsBody` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_staticbody.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`StaticBody` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nStaticBody inherits methods from:\n - [PhysicsBody](struct.PhysicsBody.html)\n - [CollisionObject](struct.CollisionObject.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct StaticBody { this : RawObject < Self > , } impl StaticBody { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = StaticBodyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn bounce (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_bounce ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's constant angular velocity. This does not rotate the body, but affects other bodies that touch it, as if it was in a state of rotation."] # [doc = ""] # [inline] pub fn constant_angular_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_constant_angular_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's constant linear velocity. This does not move the body, but affects other bodies that touch it, as if it was in a state of movement."] # [doc = ""] # [inline] pub fn constant_linear_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_constant_linear_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's friction, from 0 (frictionless) to 1 (full friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn friction (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_friction ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn physics_material_override (& self) -> Option < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_physics_material_override ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_bounce (& self , bounce : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_bounce ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bounce) ; } } # [doc = "The body's constant angular velocity. This does not rotate the body, but affects other bodies that touch it, as if it was in a state of rotation."] # [doc = ""] # [inline] pub fn set_constant_angular_velocity (& self , vel : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_constant_angular_velocity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , vel) ; } } # [doc = "The body's constant linear velocity. This does not move the body, but affects other bodies that touch it, as if it was in a state of movement."] # [doc = ""] # [inline] pub fn set_constant_linear_velocity (& self , vel : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_constant_linear_velocity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , vel) ; } } # [doc = "The body's friction, from 0 (frictionless) to 1 (full friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_friction (& self , friction : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_friction ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , friction) ; } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn set_physics_material_override (& self , physics_material_override : impl AsArg < crate :: generated :: physics_material :: PhysicsMaterial >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_physics_material_override ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , physics_material_override . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for StaticBody { } unsafe impl GodotObject for StaticBody { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "StaticBody" } } impl QueueFree for StaticBody { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for StaticBody { type Target = crate :: generated :: physics_body :: PhysicsBody ; # [inline] fn deref (& self) -> & crate :: generated :: physics_body :: PhysicsBody { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for StaticBody { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: physics_body :: PhysicsBody { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: physics_body :: PhysicsBody > for StaticBody { } unsafe impl SubClass < crate :: generated :: collision_object :: CollisionObject > for StaticBody { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for StaticBody { } unsafe impl SubClass < crate :: generated :: node :: Node > for StaticBody { } unsafe impl SubClass < crate :: generated :: object :: Object > for StaticBody { } impl Instanciable for StaticBody { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StaticBody :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StaticBodyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bounce : * mut sys :: godot_method_bind , pub get_constant_angular_velocity : * mut sys :: godot_method_bind , pub get_constant_linear_velocity : * mut sys :: godot_method_bind , pub get_friction : * mut sys :: godot_method_bind , pub get_physics_material_override : * mut sys :: godot_method_bind , pub set_bounce : * mut sys :: godot_method_bind , pub set_constant_angular_velocity : * mut sys :: godot_method_bind , pub set_constant_linear_velocity : * mut sys :: godot_method_bind , pub set_friction : * mut sys :: godot_method_bind , pub set_physics_material_override : * mut sys :: godot_method_bind } impl StaticBodyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StaticBodyMethodTable = StaticBodyMethodTable { class_constructor : None , get_bounce : 0 as * mut sys :: godot_method_bind , get_constant_angular_velocity : 0 as * mut sys :: godot_method_bind , get_constant_linear_velocity : 0 as * mut sys :: godot_method_bind , get_friction : 0 as * mut sys :: godot_method_bind , get_physics_material_override : 0 as * mut sys :: godot_method_bind , set_bounce : 0 as * mut sys :: godot_method_bind , set_constant_angular_velocity : 0 as * mut sys :: godot_method_bind , set_constant_linear_velocity : 0 as * mut sys :: godot_method_bind , set_friction : 0 as * mut sys :: godot_method_bind , set_physics_material_override : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { StaticBodyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StaticBody\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bounce = (gd_api . godot_method_bind_get_method) (class_name , "get_bounce\0" . as_ptr () as * const c_char) ; table . get_constant_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_constant_angular_velocity\0" . as_ptr () as * const c_char) ; table . get_constant_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_constant_linear_velocity\0" . as_ptr () as * const c_char) ; table . get_friction = (gd_api . godot_method_bind_get_method) (class_name , "get_friction\0" . as_ptr () as * const c_char) ; table . get_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "get_physics_material_override\0" . as_ptr () as * const c_char) ; table . set_bounce = (gd_api . godot_method_bind_get_method) (class_name , "set_bounce\0" . as_ptr () as * const c_char) ; table . set_constant_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_constant_angular_velocity\0" . as_ptr () as * const c_char) ; table . set_constant_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_constant_linear_velocity\0" . as_ptr () as * const c_char) ; table . set_friction = (gd_api . godot_method_bind_get_method) (class_name , "set_friction\0" . as_ptr () as * const c_char) ; table . set_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "set_physics_material_override\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:730:7201 [INFO] [stdout] | [INFO] [stdout] 730 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 730 | # [doc = "`core class ViewportContainer` inherits `Container` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_viewportcontainer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ViewportContainer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nViewportContainer inherits methods from:\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ViewportContainer { this : RawObject < Self > , } impl ViewportContainer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ViewportContainerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Divides the viewport's effective resolution by this value while preserving its scale. This can be used to speed up rendering.\nFor example, a 1280×720 viewport with [member stretch_shrink] set to `2` will be rendered at 640×360 while occupying the same size in the container.\n**Note:** [member stretch] must be `true` for this property to work."] # [doc = ""] # [inline] pub fn stretch_shrink (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . get_stretch_shrink ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the viewport will be scaled to the control's size."] # [doc = ""] # [inline] pub fn is_stretch_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . is_stretch_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the viewport will be scaled to the control's size."] # [doc = ""] # [inline] pub fn set_stretch (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . set_stretch ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Divides the viewport's effective resolution by this value while preserving its scale. This can be used to speed up rendering.\nFor example, a 1280×720 viewport with [member stretch_shrink] set to `2` will be rendered at 640×360 while occupying the same size in the container.\n**Note:** [member stretch] must be `true` for this property to work."] # [doc = ""] # [inline] pub fn set_stretch_shrink (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . set_stretch_shrink ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ViewportContainer { } unsafe impl GodotObject for ViewportContainer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ViewportContainer" } } impl QueueFree for ViewportContainer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ViewportContainer { type Target = crate :: generated :: container :: Container ; # [inline] fn deref (& self) -> & crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ViewportContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: container :: Container > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: control :: Control > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: node :: Node > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for ViewportContainer { } impl Instanciable for ViewportContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ViewportContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ViewportContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_stretch_shrink : * mut sys :: godot_method_bind , pub is_stretch_enabled : * mut sys :: godot_method_bind , pub set_stretch : * mut sys :: godot_method_bind , pub set_stretch_shrink : * mut sys :: godot_method_bind } impl ViewportContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ViewportContainerMethodTable = ViewportContainerMethodTable { class_constructor : None , get_stretch_shrink : 0 as * mut sys :: godot_method_bind , is_stretch_enabled : 0 as * mut sys :: godot_method_bind , set_stretch : 0 as * mut sys :: godot_method_bind , set_stretch_shrink : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ViewportContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ViewportContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_stretch_shrink = (gd_api . godot_method_bind_get_method) (class_name , "get_stretch_shrink\0" . as_ptr () as * const c_char) ; table . is_stretch_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_stretch_enabled\0" . as_ptr () as * const c_char) ; table . set_stretch = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch\0" . as_ptr () as * const c_char) ; table . set_stretch_shrink = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch_shrink\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:736:13695 [INFO] [stdout] | [INFO] [stdout] 736 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 736 | # [doc = "`core class CanvasLayer` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_canvaslayer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`CanvasLayer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nCanvasLayer inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct CanvasLayer { this : RawObject < Self > , } impl CanvasLayer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = CanvasLayerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Returns the RID of the canvas used by this layer."] # [doc = ""] # [inline] pub fn get_canvas (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_canvas ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "The custom [Viewport] node assigned to the [CanvasLayer]. If `null`, uses the default viewport instead."] # [doc = ""] # [inline] pub fn custom_viewport (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_custom_viewport ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Scales the layer when using [member follow_viewport_enable]. Layers moving into the foreground should have increasing scales, while layers moving into the background should have decreasing scales."] # [doc = ""] # [inline] pub fn follow_viewport_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_follow_viewport_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Layer index for draw order. Lower values are drawn first."] # [doc = ""] # [inline] pub fn layer (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_layer ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The layer's base offset."] # [doc = ""] # [inline] pub fn offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The layer's rotation in radians."] # [doc = ""] # [inline] pub fn rotation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_rotation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The layer's rotation in degrees."] # [doc = ""] # [inline] pub fn rotation_degrees (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_rotation_degrees ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The layer's scale."] # [doc = ""] # [inline] pub fn scale (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_scale ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The layer's transform."] # [doc = ""] # [inline] pub fn transform (& self) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . get_transform ; let ret = crate :: icalls :: icallptr_trans2D (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Sets the layer to follow the viewport in order to simulate a pseudo 3D effect."] # [doc = ""] # [inline] pub fn is_following_viewport (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . is_following_viewport ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The custom [Viewport] node assigned to the [CanvasLayer]. If `null`, uses the default viewport instead."] # [doc = ""] # [inline] pub fn set_custom_viewport (& self , viewport : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_custom_viewport ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , viewport . as_arg_ptr ()) ; } } # [doc = "Sets the layer to follow the viewport in order to simulate a pseudo 3D effect."] # [doc = ""] # [inline] pub fn set_follow_viewport (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_follow_viewport ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Scales the layer when using [member follow_viewport_enable]. Layers moving into the foreground should have increasing scales, while layers moving into the background should have decreasing scales."] # [doc = ""] # [inline] pub fn set_follow_viewport_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_follow_viewport_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Layer index for draw order. Lower values are drawn first."] # [doc = ""] # [inline] pub fn set_layer (& self , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_layer ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , layer) ; } } # [doc = "The layer's base offset."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The layer's rotation in radians."] # [doc = ""] # [inline] pub fn set_rotation (& self , radians : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_rotation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radians) ; } } # [doc = "The layer's rotation in degrees."] # [doc = ""] # [inline] pub fn set_rotation_degrees (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_rotation_degrees ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "The layer's scale."] # [doc = ""] # [inline] pub fn set_scale (& self , scale : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "The layer's transform."] # [doc = ""] # [inline] pub fn set_transform (& self , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasLayerMethodTable :: get (get_api ()) . set_transform ; let ret = crate :: icalls :: icallptr_void_trans2D (method_bind , self . this . sys () . as_ptr () , transform) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CanvasLayer { } unsafe impl GodotObject for CanvasLayer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CanvasLayer" } } impl QueueFree for CanvasLayer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for CanvasLayer { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CanvasLayer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for CanvasLayer { } unsafe impl SubClass < crate :: generated :: object :: Object > for CanvasLayer { } impl Instanciable for CanvasLayer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CanvasLayer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CanvasLayerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_canvas : * mut sys :: godot_method_bind , pub get_custom_viewport : * mut sys :: godot_method_bind , pub get_follow_viewport_scale : * mut sys :: godot_method_bind , pub get_layer : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_rotation : * mut sys :: godot_method_bind , pub get_rotation_degrees : * mut sys :: godot_method_bind , pub get_scale : * mut sys :: godot_method_bind , pub get_transform : * mut sys :: godot_method_bind , pub is_following_viewport : * mut sys :: godot_method_bind , pub set_custom_viewport : * mut sys :: godot_method_bind , pub set_follow_viewport : * mut sys :: godot_method_bind , pub set_follow_viewport_scale : * mut sys :: godot_method_bind , pub set_layer : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_rotation : * mut sys :: godot_method_bind , pub set_rotation_degrees : * mut sys :: godot_method_bind , pub set_scale : * mut sys :: godot_method_bind , pub set_transform : * mut sys :: godot_method_bind } impl CanvasLayerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CanvasLayerMethodTable = CanvasLayerMethodTable { class_constructor : None , get_canvas : 0 as * mut sys :: godot_method_bind , get_custom_viewport : 0 as * mut sys :: godot_method_bind , get_follow_viewport_scale : 0 as * mut sys :: godot_method_bind , get_layer : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_rotation : 0 as * mut sys :: godot_method_bind , get_rotation_degrees : 0 as * mut sys :: godot_method_bind , get_scale : 0 as * mut sys :: godot_method_bind , get_transform : 0 as * mut sys :: godot_method_bind , is_following_viewport : 0 as * mut sys :: godot_method_bind , set_custom_viewport : 0 as * mut sys :: godot_method_bind , set_follow_viewport : 0 as * mut sys :: godot_method_bind , set_follow_viewport_scale : 0 as * mut sys :: godot_method_bind , set_layer : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_rotation : 0 as * mut sys :: godot_method_bind , set_rotation_degrees : 0 as * mut sys :: godot_method_bind , set_scale : 0 as * mut sys :: godot_method_bind , set_transform : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CanvasLayerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CanvasLayer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_canvas = (gd_api . godot_method_bind_get_method) (class_name , "get_canvas\0" . as_ptr () as * const c_char) ; table . get_custom_viewport = (gd_api . godot_method_bind_get_method) (class_name , "get_custom_viewport\0" . as_ptr () as * const c_char) ; table . get_follow_viewport_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_follow_viewport_scale\0" . as_ptr () as * const c_char) ; table . get_layer = (gd_api . godot_method_bind_get_method) (class_name , "get_layer\0" . as_ptr () as * const c_char) ; table . get_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_offset\0" . as_ptr () as * const c_char) ; table . get_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_rotation\0" . as_ptr () as * const c_char) ; table . get_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_rotation_degrees\0" . as_ptr () as * const c_char) ; table . get_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_scale\0" . as_ptr () as * const c_char) ; table . get_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_transform\0" . as_ptr () as * const c_char) ; table . is_following_viewport = (gd_api . godot_method_bind_get_method) (class_name , "is_following_viewport\0" . as_ptr () as * const c_char) ; table . set_custom_viewport = (gd_api . godot_method_bind_get_method) (class_name , "set_custom_viewport\0" . as_ptr () as * const c_char) ; table . set_follow_viewport = (gd_api . godot_method_bind_get_method) (class_name , "set_follow_viewport\0" . as_ptr () as * const c_char) ; table . set_follow_viewport_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_follow_viewport_scale\0" . as_ptr () as * const c_char) ; table . set_layer = (gd_api . godot_method_bind_get_method) (class_name , "set_layer\0" . as_ptr () as * const c_char) ; table . set_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_offset\0" . as_ptr () as * const c_char) ; table . set_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_rotation\0" . as_ptr () as * const c_char) ; table . set_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_rotation_degrees\0" . as_ptr () as * const c_char) ; table . set_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_scale\0" . as_ptr () as * const c_char) ; table . set_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_transform\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:742:14812 [INFO] [stdout] | [INFO] [stdout] 742 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 742 | # [doc = "`core class ClippedCamera` inherits `Camera` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_clippedcamera.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ClippedCamera` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nClippedCamera inherits methods from:\n - [Camera](struct.Camera.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ClippedCamera { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ProcessMode (pub i64) ; impl ProcessMode { pub const PHYSICS : ProcessMode = ProcessMode (0i64) ; pub const IDLE : ProcessMode = ProcessMode (1i64) ; } impl From < i64 > for ProcessMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ProcessMode > for i64 { # [inline] fn from (v : ProcessMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ClippedCamera { pub const CLIP_PROCESS_IDLE : i64 = 1i64 ; pub const CLIP_PROCESS_PHYSICS : i64 = 0i64 ; } impl ClippedCamera { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ClippedCameraMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a collision exception so the camera does not collide with the specified node."] # [doc = ""] # [inline] pub fn add_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . add_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Adds a collision exception so the camera does not collide with the specified [RID]."] # [doc = ""] # [inline] pub fn add_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . add_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "Removes all collision exceptions."] # [doc = ""] # [inline] pub fn clear_exceptions (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . clear_exceptions ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the distance the camera has been offset due to a collision."] # [doc = ""] # [inline] pub fn get_clip_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . get_clip_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The camera's collision mask. Only objects in at least one collision layer matching the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . get_collision_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the specified bit index is on.\n**Note:** Bit indices range from 0-19."] # [doc = ""] # [inline] pub fn get_collision_mask_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . get_collision_mask_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = "The camera's collision margin. The camera can't get closer than this distance to a colliding object."] # [doc = ""] # [inline] pub fn margin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . get_margin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The camera's process callback. See [enum ProcessMode]."] # [doc = ""] # [inline] pub fn process_mode (& self) -> crate :: generated :: clipped_camera :: ProcessMode { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . get_process_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: clipped_camera :: ProcessMode (ret) } } # [doc = "If `true`, the camera stops on contact with [Area]s."] # [doc = ""] # [inline] pub fn is_clip_to_areas_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . is_clip_to_areas_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the camera stops on contact with [PhysicsBody]s."] # [doc = ""] # [inline] pub fn is_clip_to_bodies_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . is_clip_to_bodies_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes a collision exception with the specified node."] # [doc = ""] # [inline] pub fn remove_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . remove_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Removes a collision exception with the specified [RID]."] # [doc = ""] # [inline] pub fn remove_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . remove_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "If `true`, the camera stops on contact with [Area]s."] # [doc = ""] # [inline] pub fn set_clip_to_areas (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . set_clip_to_areas ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the camera stops on contact with [PhysicsBody]s."] # [doc = ""] # [inline] pub fn set_clip_to_bodies (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . set_clip_to_bodies ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The camera's collision mask. Only objects in at least one collision layer matching the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_mask (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . set_collision_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mask) ; } } # [doc = "Sets the specified bit index to the `value`.\n**Note:** Bit indices range from 0-19."] # [doc = ""] # [inline] pub fn set_collision_mask_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . set_collision_mask_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = "The camera's collision margin. The camera can't get closer than this distance to a colliding object."] # [doc = ""] # [inline] pub fn set_margin (& self , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . set_margin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , margin) ; } } # [doc = "The camera's process callback. See [enum ProcessMode]."] # [doc = ""] # [inline] pub fn set_process_mode (& self , process_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ClippedCameraMethodTable :: get (get_api ()) . set_process_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , process_mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ClippedCamera { } unsafe impl GodotObject for ClippedCamera { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ClippedCamera" } } impl QueueFree for ClippedCamera { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ClippedCamera { type Target = crate :: generated :: camera :: Camera ; # [inline] fn deref (& self) -> & crate :: generated :: camera :: Camera { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ClippedCamera { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: camera :: Camera { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: camera :: Camera > for ClippedCamera { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ClippedCamera { } unsafe impl SubClass < crate :: generated :: node :: Node > for ClippedCamera { } unsafe impl SubClass < crate :: generated :: object :: Object > for ClippedCamera { } impl Instanciable for ClippedCamera { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ClippedCamera :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ClippedCameraMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_exception : * mut sys :: godot_method_bind , pub add_exception_rid : * mut sys :: godot_method_bind , pub clear_exceptions : * mut sys :: godot_method_bind , pub get_clip_offset : * mut sys :: godot_method_bind , pub get_collision_mask : * mut sys :: godot_method_bind , pub get_collision_mask_bit : * mut sys :: godot_method_bind , pub get_margin : * mut sys :: godot_method_bind , pub get_process_mode : * mut sys :: godot_method_bind , pub is_clip_to_areas_enabled : * mut sys :: godot_method_bind , pub is_clip_to_bodies_enabled : * mut sys :: godot_method_bind , pub remove_exception : * mut sys :: godot_method_bind , pub remove_exception_rid : * mut sys :: godot_method_bind , pub set_clip_to_areas : * mut sys :: godot_method_bind , pub set_clip_to_bodies : * mut sys :: godot_method_bind , pub set_collision_mask : * mut sys :: godot_method_bind , pub set_collision_mask_bit : * mut sys :: godot_method_bind , pub set_margin : * mut sys :: godot_method_bind , pub set_process_mode : * mut sys :: godot_method_bind } impl ClippedCameraMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ClippedCameraMethodTable = ClippedCameraMethodTable { class_constructor : None , add_exception : 0 as * mut sys :: godot_method_bind , add_exception_rid : 0 as * mut sys :: godot_method_bind , clear_exceptions : 0 as * mut sys :: godot_method_bind , get_clip_offset : 0 as * mut sys :: godot_method_bind , get_collision_mask : 0 as * mut sys :: godot_method_bind , get_collision_mask_bit : 0 as * mut sys :: godot_method_bind , get_margin : 0 as * mut sys :: godot_method_bind , get_process_mode : 0 as * mut sys :: godot_method_bind , is_clip_to_areas_enabled : 0 as * mut sys :: godot_method_bind , is_clip_to_bodies_enabled : 0 as * mut sys :: godot_method_bind , remove_exception : 0 as * mut sys :: godot_method_bind , remove_exception_rid : 0 as * mut sys :: godot_method_bind , set_clip_to_areas : 0 as * mut sys :: godot_method_bind , set_clip_to_bodies : 0 as * mut sys :: godot_method_bind , set_collision_mask : 0 as * mut sys :: godot_method_bind , set_collision_mask_bit : 0 as * mut sys :: godot_method_bind , set_margin : 0 as * mut sys :: godot_method_bind , set_process_mode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ClippedCameraMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ClippedCamera\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_exception = (gd_api . godot_method_bind_get_method) (class_name , "add_exception\0" . as_ptr () as * const c_char) ; table . add_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "add_exception_rid\0" . as_ptr () as * const c_char) ; table . clear_exceptions = (gd_api . godot_method_bind_get_method) (class_name , "clear_exceptions\0" . as_ptr () as * const c_char) ; table . get_clip_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_clip_offset\0" . as_ptr () as * const c_char) ; table . get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask\0" . as_ptr () as * const c_char) ; table . get_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . get_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_margin\0" . as_ptr () as * const c_char) ; table . get_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_process_mode\0" . as_ptr () as * const c_char) ; table . is_clip_to_areas_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_clip_to_areas_enabled\0" . as_ptr () as * const c_char) ; table . is_clip_to_bodies_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_clip_to_bodies_enabled\0" . as_ptr () as * const c_char) ; table . remove_exception = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception\0" . as_ptr () as * const c_char) ; table . remove_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception_rid\0" . as_ptr () as * const c_char) ; table . set_clip_to_areas = (gd_api . godot_method_bind_get_method) (class_name , "set_clip_to_areas\0" . as_ptr () as * const c_char) ; table . set_clip_to_bodies = (gd_api . godot_method_bind_get_method) (class_name , "set_clip_to_bodies\0" . as_ptr () as * const c_char) ; table . set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask\0" . as_ptr () as * const c_char) ; table . set_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . set_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_margin\0" . as_ptr () as * const c_char) ; table . set_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_process_mode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:748:6413 [INFO] [stdout] | [INFO] [stdout] 748 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 748 | # [doc = "`core class HeightMapShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_heightmapshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nHeightMapShape inherits methods from:\n - [Shape](struct.Shape.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct HeightMapShape { this : RawObject < Self > , } impl HeightMapShape { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = HeightMapShapeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Height map data, pool array must be of [member map_width] * [member map_depth] size."] # [doc = ""] # [inline] pub fn map_data (& self) -> Float32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = HeightMapShapeMethodTable :: get (get_api ()) . get_map_data ; let ret = crate :: icalls :: icallptr_f32arr (method_bind , self . this . sys () . as_ptr ()) ; Float32Array :: from_sys (ret) } } # [doc = "Depth of the height map data. Changing this will resize the [member map_data]."] # [doc = ""] # [inline] pub fn map_depth (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HeightMapShapeMethodTable :: get (get_api ()) . get_map_depth ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Width of the height map data. Changing this will resize the [member map_data]."] # [doc = ""] # [inline] pub fn map_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HeightMapShapeMethodTable :: get (get_api ()) . get_map_width ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Height map data, pool array must be of [member map_width] * [member map_depth] size."] # [doc = ""] # [inline] pub fn set_map_data (& self , data : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HeightMapShapeMethodTable :: get (get_api ()) . set_map_data ; let ret = crate :: icalls :: icallptr_void_f32arr (method_bind , self . this . sys () . as_ptr () , data) ; } } # [doc = "Depth of the height map data. Changing this will resize the [member map_data]."] # [doc = ""] # [inline] pub fn set_map_depth (& self , height : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HeightMapShapeMethodTable :: get (get_api ()) . set_map_depth ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "Width of the height map data. Changing this will resize the [member map_data]."] # [doc = ""] # [inline] pub fn set_map_width (& self , width : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HeightMapShapeMethodTable :: get (get_api ()) . set_map_width ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , width) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for HeightMapShape { } unsafe impl GodotObject for HeightMapShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "HeightMapShape" } } impl std :: ops :: Deref for HeightMapShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HeightMapShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for HeightMapShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for HeightMapShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for HeightMapShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for HeightMapShape { } impl Instanciable for HeightMapShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HeightMapShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HeightMapShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_map_data : * mut sys :: godot_method_bind , pub get_map_depth : * mut sys :: godot_method_bind , pub get_map_width : * mut sys :: godot_method_bind , pub set_map_data : * mut sys :: godot_method_bind , pub set_map_depth : * mut sys :: godot_method_bind , pub set_map_width : * mut sys :: godot_method_bind } impl HeightMapShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HeightMapShapeMethodTable = HeightMapShapeMethodTable { class_constructor : None , get_map_data : 0 as * mut sys :: godot_method_bind , get_map_depth : 0 as * mut sys :: godot_method_bind , get_map_width : 0 as * mut sys :: godot_method_bind , set_map_data : 0 as * mut sys :: godot_method_bind , set_map_depth : 0 as * mut sys :: godot_method_bind , set_map_width : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { HeightMapShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HeightMapShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_map_data = (gd_api . godot_method_bind_get_method) (class_name , "get_map_data\0" . as_ptr () as * const c_char) ; table . get_map_depth = (gd_api . godot_method_bind_get_method) (class_name , "get_map_depth\0" . as_ptr () as * const c_char) ; table . get_map_width = (gd_api . godot_method_bind_get_method) (class_name , "get_map_width\0" . as_ptr () as * const c_char) ; table . set_map_data = (gd_api . godot_method_bind_get_method) (class_name , "set_map_data\0" . as_ptr () as * const c_char) ; table . set_map_depth = (gd_api . godot_method_bind_get_method) (class_name , "set_map_depth\0" . as_ptr () as * const c_char) ; table . set_map_width = (gd_api . godot_method_bind_get_method) (class_name , "set_map_width\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:754:3679 [INFO] [stdout] | [INFO] [stdout] 754 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 754 | # [doc = "`core class VisualShaderNodeCustom` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodecustom.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeCustom inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeCustom { this : RawObject < Self > , } impl VisualShaderNodeCustom { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeCustomMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeCustom { } unsafe impl GodotObject for VisualShaderNodeCustom { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeCustom" } } impl std :: ops :: Deref for VisualShaderNodeCustom { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeCustom { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeCustom { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeCustom { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeCustom { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeCustom { } impl Instanciable for VisualShaderNodeCustom { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeCustom :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeCustomMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeCustomMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeCustomMethodTable = VisualShaderNodeCustomMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeCustomMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeCustom\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:766:3839 [INFO] [stdout] | [INFO] [stdout] 766 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 766 | # [doc = "`core class AudioEffectNotchFilter` inherits `AudioEffectFilter` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectnotchfilter.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectNotchFilter inherits methods from:\n - [AudioEffectFilter](struct.AudioEffectFilter.html)\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectNotchFilter { this : RawObject < Self > , } impl AudioEffectNotchFilter { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectNotchFilterMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectNotchFilter { } unsafe impl GodotObject for AudioEffectNotchFilter { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectNotchFilter" } } impl std :: ops :: Deref for AudioEffectNotchFilter { type Target = crate :: generated :: audio_effect_filter :: AudioEffectFilter ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect_filter :: AudioEffectFilter { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectNotchFilter { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect_filter :: AudioEffectFilter { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect_filter :: AudioEffectFilter > for AudioEffectNotchFilter { } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectNotchFilter { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectNotchFilter { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectNotchFilter { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectNotchFilter { } impl Instanciable for AudioEffectNotchFilter { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectNotchFilter :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectNotchFilterMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AudioEffectNotchFilterMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectNotchFilterMethodTable = AudioEffectNotchFilterMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectNotchFilterMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectNotchFilter\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:772:8112 [INFO] [stdout] | [INFO] [stdout] 772 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 772 | # [doc = "`core class InterpolatedCamera` inherits `Camera` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_interpolatedcamera.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`InterpolatedCamera` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nInterpolatedCamera inherits methods from:\n - [Camera](struct.Camera.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InterpolatedCamera { this : RawObject < Self > , } impl InterpolatedCamera { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = InterpolatedCameraMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "How quickly the camera moves toward its target. Higher values will result in tighter camera motion."] # [doc = ""] # [inline] pub fn speed (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InterpolatedCameraMethodTable :: get (get_api ()) . get_speed ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The target's [NodePath]."] # [doc = ""] # [inline] pub fn target_path (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = InterpolatedCameraMethodTable :: get (get_api ()) . get_target_path ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "If `true`, and a target is set, the camera will move automatically."] # [doc = ""] # [inline] pub fn is_interpolation_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InterpolatedCameraMethodTable :: get (get_api ()) . is_interpolation_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, and a target is set, the camera will move automatically."] # [doc = ""] # [inline] pub fn set_interpolation_enabled (& self , target_path : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InterpolatedCameraMethodTable :: get (get_api ()) . set_interpolation_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , target_path) ; } } # [doc = "How quickly the camera moves toward its target. Higher values will result in tighter camera motion."] # [doc = ""] # [inline] pub fn set_speed (& self , speed : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InterpolatedCameraMethodTable :: get (get_api ()) . set_speed ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , speed) ; } } # [doc = "Sets the node to move toward and orient with."] # [doc = ""] # [inline] pub fn set_target (& self , target : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InterpolatedCameraMethodTable :: get (get_api ()) . set_target ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , target . as_arg_ptr ()) ; } } # [doc = "The target's [NodePath]."] # [doc = ""] # [inline] pub fn set_target_path (& self , target_path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InterpolatedCameraMethodTable :: get (get_api ()) . set_target_path ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , target_path . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InterpolatedCamera { } unsafe impl GodotObject for InterpolatedCamera { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "InterpolatedCamera" } } impl QueueFree for InterpolatedCamera { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for InterpolatedCamera { type Target = crate :: generated :: camera :: Camera ; # [inline] fn deref (& self) -> & crate :: generated :: camera :: Camera { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InterpolatedCamera { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: camera :: Camera { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: camera :: Camera > for InterpolatedCamera { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for InterpolatedCamera { } unsafe impl SubClass < crate :: generated :: node :: Node > for InterpolatedCamera { } unsafe impl SubClass < crate :: generated :: object :: Object > for InterpolatedCamera { } impl Instanciable for InterpolatedCamera { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InterpolatedCamera :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InterpolatedCameraMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_speed : * mut sys :: godot_method_bind , pub get_target_path : * mut sys :: godot_method_bind , pub is_interpolation_enabled : * mut sys :: godot_method_bind , pub set_interpolation_enabled : * mut sys :: godot_method_bind , pub set_speed : * mut sys :: godot_method_bind , pub set_target : * mut sys :: godot_method_bind , pub set_target_path : * mut sys :: godot_method_bind } impl InterpolatedCameraMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InterpolatedCameraMethodTable = InterpolatedCameraMethodTable { class_constructor : None , get_speed : 0 as * mut sys :: godot_method_bind , get_target_path : 0 as * mut sys :: godot_method_bind , is_interpolation_enabled : 0 as * mut sys :: godot_method_bind , set_interpolation_enabled : 0 as * mut sys :: godot_method_bind , set_speed : 0 as * mut sys :: godot_method_bind , set_target : 0 as * mut sys :: godot_method_bind , set_target_path : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InterpolatedCameraMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InterpolatedCamera\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_speed = (gd_api . godot_method_bind_get_method) (class_name , "get_speed\0" . as_ptr () as * const c_char) ; table . get_target_path = (gd_api . godot_method_bind_get_method) (class_name , "get_target_path\0" . as_ptr () as * const c_char) ; table . is_interpolation_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_interpolation_enabled\0" . as_ptr () as * const c_char) ; table . set_interpolation_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_interpolation_enabled\0" . as_ptr () as * const c_char) ; table . set_speed = (gd_api . godot_method_bind_get_method) (class_name , "set_speed\0" . as_ptr () as * const c_char) ; table . set_target = (gd_api . godot_method_bind_get_method) (class_name , "set_target\0" . as_ptr () as * const c_char) ; table . set_target_path = (gd_api . godot_method_bind_get_method) (class_name , "set_target_path\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:778:6013 [INFO] [stdout] | [INFO] [stdout] 778 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 778 | # [doc = "`core class VisualScriptMathConstant` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptmathconstant.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptMathConstant inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptMathConstant { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MathConstant (pub i64) ; impl MathConstant { pub const ONE : MathConstant = MathConstant (0i64) ; pub const PI : MathConstant = MathConstant (1i64) ; pub const HALF_PI : MathConstant = MathConstant (2i64) ; pub const TAU : MathConstant = MathConstant (3i64) ; pub const E : MathConstant = MathConstant (4i64) ; pub const SQRT2 : MathConstant = MathConstant (5i64) ; pub const INF : MathConstant = MathConstant (6i64) ; pub const NAN : MathConstant = MathConstant (7i64) ; pub const MAX : MathConstant = MathConstant (8i64) ; } impl From < i64 > for MathConstant { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MathConstant > for i64 { # [inline] fn from (v : MathConstant) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualScriptMathConstant { pub const MATH_CONSTANT_E : i64 = 4i64 ; pub const MATH_CONSTANT_HALF_PI : i64 = 2i64 ; pub const MATH_CONSTANT_INF : i64 = 6i64 ; pub const MATH_CONSTANT_MAX : i64 = 8i64 ; pub const MATH_CONSTANT_NAN : i64 = 7i64 ; pub const MATH_CONSTANT_ONE : i64 = 0i64 ; pub const MATH_CONSTANT_PI : i64 = 1i64 ; pub const MATH_CONSTANT_SQRT2 : i64 = 5i64 ; pub const MATH_CONSTANT_TAU : i64 = 3i64 ; } impl VisualScriptMathConstant { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptMathConstantMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn math_constant (& self) -> crate :: generated :: visual_script_math_constant :: MathConstant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMathConstantMethodTable :: get (get_api ()) . get_math_constant ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_script_math_constant :: MathConstant (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_math_constant (& self , which : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMathConstantMethodTable :: get (get_api ()) . set_math_constant ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , which) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptMathConstant { } unsafe impl GodotObject for VisualScriptMathConstant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptMathConstant" } } impl std :: ops :: Deref for VisualScriptMathConstant { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptMathConstant { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptMathConstant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptMathConstant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptMathConstant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptMathConstant { } impl Instanciable for VisualScriptMathConstant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptMathConstant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptMathConstantMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_math_constant : * mut sys :: godot_method_bind , pub set_math_constant : * mut sys :: godot_method_bind } impl VisualScriptMathConstantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptMathConstantMethodTable = VisualScriptMathConstantMethodTable { class_constructor : None , get_math_constant : 0 as * mut sys :: godot_method_bind , set_math_constant : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptMathConstantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptMathConstant\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_math_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_math_constant\0" . as_ptr () as * const c_char) ; table . set_math_constant = (gd_api . godot_method_bind_get_method) (class_name , "set_math_constant\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:784:6546 [INFO] [stdout] | [INFO] [stdout] 784 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 784 | # [doc = "`core class NavigationMeshInstance` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_navigationmeshinstance.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`NavigationMeshInstance` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nNavigationMeshInstance inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct NavigationMeshInstance { this : RawObject < Self > , } impl NavigationMeshInstance { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = NavigationMeshInstanceMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn navigation_mesh (& self) -> Option < Ref < crate :: generated :: navigation_mesh :: NavigationMesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshInstanceMethodTable :: get (get_api ()) . get_navigation_mesh ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: navigation_mesh :: NavigationMesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshInstanceMethodTable :: get (get_api ()) . is_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshInstanceMethodTable :: get (get_api ()) . set_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_navigation_mesh (& self , navmesh : impl AsArg < crate :: generated :: navigation_mesh :: NavigationMesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshInstanceMethodTable :: get (get_api ()) . set_navigation_mesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , navmesh . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for NavigationMeshInstance { } unsafe impl GodotObject for NavigationMeshInstance { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "NavigationMeshInstance" } } impl QueueFree for NavigationMeshInstance { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for NavigationMeshInstance { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for NavigationMeshInstance { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for NavigationMeshInstance { } unsafe impl SubClass < crate :: generated :: node :: Node > for NavigationMeshInstance { } unsafe impl SubClass < crate :: generated :: object :: Object > for NavigationMeshInstance { } impl Instanciable for NavigationMeshInstance { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { NavigationMeshInstance :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct NavigationMeshInstanceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_navigation_mesh : * mut sys :: godot_method_bind , pub is_enabled : * mut sys :: godot_method_bind , pub set_enabled : * mut sys :: godot_method_bind , pub set_navigation_mesh : * mut sys :: godot_method_bind } impl NavigationMeshInstanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : NavigationMeshInstanceMethodTable = NavigationMeshInstanceMethodTable { class_constructor : None , get_navigation_mesh : 0 as * mut sys :: godot_method_bind , is_enabled : 0 as * mut sys :: godot_method_bind , set_enabled : 0 as * mut sys :: godot_method_bind , set_navigation_mesh : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { NavigationMeshInstanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "NavigationMeshInstance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_navigation_mesh = (gd_api . godot_method_bind_get_method) (class_name , "get_navigation_mesh\0" . as_ptr () as * const c_char) ; table . is_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_enabled\0" . as_ptr () as * const c_char) ; table . set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_enabled\0" . as_ptr () as * const c_char) ; table . set_navigation_mesh = (gd_api . godot_method_bind_get_method) (class_name , "set_navigation_mesh\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:790:3637 [INFO] [stdout] | [INFO] [stdout] 790 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 790 | # [doc = "`core class VisualScriptIndexGet` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptindexget.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptIndexGet inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptIndexGet { this : RawObject < Self > , } impl VisualScriptIndexGet { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptIndexGetMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptIndexGet { } unsafe impl GodotObject for VisualScriptIndexGet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptIndexGet" } } impl std :: ops :: Deref for VisualScriptIndexGet { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptIndexGet { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptIndexGet { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptIndexGet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptIndexGet { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptIndexGet { } impl Instanciable for VisualScriptIndexGet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptIndexGet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptIndexGetMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptIndexGetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptIndexGetMethodTable = VisualScriptIndexGetMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptIndexGetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptIndexGet\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:796:5739 [INFO] [stdout] | [INFO] [stdout] 796 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 796 | # [doc = "`core class VisualScriptBasicTypeConstant` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptbasictypeconstant.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptBasicTypeConstant inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptBasicTypeConstant { this : RawObject < Self > , } impl VisualScriptBasicTypeConstant { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptBasicTypeConstantMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn basic_type (& self) -> VariantType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptBasicTypeConstantMethodTable :: get (get_api ()) . get_basic_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; VariantType :: from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn basic_type_constant (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptBasicTypeConstantMethodTable :: get (get_api ()) . get_basic_type_constant ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_basic_type (& self , name : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptBasicTypeConstantMethodTable :: get (get_api ()) . set_basic_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , name) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_basic_type_constant (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptBasicTypeConstantMethodTable :: get (get_api ()) . set_basic_type_constant ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptBasicTypeConstant { } unsafe impl GodotObject for VisualScriptBasicTypeConstant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptBasicTypeConstant" } } impl std :: ops :: Deref for VisualScriptBasicTypeConstant { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptBasicTypeConstant { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptBasicTypeConstant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptBasicTypeConstant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptBasicTypeConstant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptBasicTypeConstant { } impl Instanciable for VisualScriptBasicTypeConstant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptBasicTypeConstant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptBasicTypeConstantMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_basic_type : * mut sys :: godot_method_bind , pub get_basic_type_constant : * mut sys :: godot_method_bind , pub set_basic_type : * mut sys :: godot_method_bind , pub set_basic_type_constant : * mut sys :: godot_method_bind } impl VisualScriptBasicTypeConstantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptBasicTypeConstantMethodTable = VisualScriptBasicTypeConstantMethodTable { class_constructor : None , get_basic_type : 0 as * mut sys :: godot_method_bind , get_basic_type_constant : 0 as * mut sys :: godot_method_bind , set_basic_type : 0 as * mut sys :: godot_method_bind , set_basic_type_constant : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptBasicTypeConstantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptBasicTypeConstant\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_basic_type = (gd_api . godot_method_bind_get_method) (class_name , "get_basic_type\0" . as_ptr () as * const c_char) ; table . get_basic_type_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_basic_type_constant\0" . as_ptr () as * const c_char) ; table . set_basic_type = (gd_api . godot_method_bind_get_method) (class_name , "set_basic_type\0" . as_ptr () as * const c_char) ; table . set_basic_type_constant = (gd_api . godot_method_bind_get_method) (class_name , "set_basic_type_constant\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:802:4537 [INFO] [stdout] | [INFO] [stdout] 802 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 802 | # [doc = "`core class WebSocketMultiplayerPeer` inherits `NetworkedMultiplayerPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_websocketmultiplayerpeer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nWebSocketMultiplayerPeer inherits methods from:\n - [NetworkedMultiplayerPeer](struct.NetworkedMultiplayerPeer.html)\n - [PacketPeer](struct.PacketPeer.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct WebSocketMultiplayerPeer { this : RawObject < Self > , } impl WebSocketMultiplayerPeer { # [doc = ""] # [doc = ""] # [inline] pub fn get_peer (& self , peer_id : i64) -> Option < Ref < crate :: generated :: web_socket_peer :: WebSocketPeer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketMultiplayerPeerMethodTable :: get (get_api ()) . get_peer ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , peer_id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: web_socket_peer :: WebSocketPeer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_buffers (& self , input_buffer_size_kb : i64 , input_max_packets : i64 , output_buffer_size_kb : i64 , output_max_packets : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketMultiplayerPeerMethodTable :: get (get_api ()) . set_buffers ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , input_buffer_size_kb , input_max_packets , output_buffer_size_kb , output_max_packets) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for WebSocketMultiplayerPeer { } unsafe impl GodotObject for WebSocketMultiplayerPeer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "WebSocketMultiplayerPeer" } } impl std :: ops :: Deref for WebSocketMultiplayerPeer { type Target = crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer ; # [inline] fn deref (& self) -> & crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WebSocketMultiplayerPeer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer > for WebSocketMultiplayerPeer { } unsafe impl SubClass < crate :: generated :: packet_peer :: PacketPeer > for WebSocketMultiplayerPeer { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for WebSocketMultiplayerPeer { } unsafe impl SubClass < crate :: generated :: object :: Object > for WebSocketMultiplayerPeer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WebSocketMultiplayerPeerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_peer : * mut sys :: godot_method_bind , pub set_buffers : * mut sys :: godot_method_bind } impl WebSocketMultiplayerPeerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WebSocketMultiplayerPeerMethodTable = WebSocketMultiplayerPeerMethodTable { class_constructor : None , get_peer : 0 as * mut sys :: godot_method_bind , set_buffers : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { WebSocketMultiplayerPeerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WebSocketMultiplayerPeer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_peer = (gd_api . godot_method_bind_get_method) (class_name , "get_peer\0" . as_ptr () as * const c_char) ; table . set_buffers = (gd_api . godot_method_bind_get_method) (class_name , "set_buffers\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:808:19588 [INFO] [stdout] | [INFO] [stdout] 808 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 808 | # [doc = "`core class ReflectionProbe` inherits `VisualInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_reflectionprobe.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ReflectionProbe` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nReflectionProbe inherits methods from:\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ReflectionProbe { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct UpdateMode (pub i64) ; impl UpdateMode { pub const ONCE : UpdateMode = UpdateMode (0i64) ; pub const ALWAYS : UpdateMode = UpdateMode (1i64) ; } impl From < i64 > for UpdateMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < UpdateMode > for i64 { # [inline] fn from (v : UpdateMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ReflectionProbe { pub const UPDATE_ALWAYS : i64 = 1i64 ; pub const UPDATE_ONCE : i64 = 0i64 ; } impl ReflectionProbe { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ReflectionProbeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "If `true`, computes shadows in the reflection probe. This makes the reflection probe slower to render; you may want to disable this if using the [constant UPDATE_ALWAYS] [member update_mode]."] # [doc = ""] # [inline] pub fn are_shadows_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . are_shadows_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the cull mask which determines what objects are drawn by this probe. Every [VisualInstance] with a layer included in this cull mask will be rendered by the probe. It is best to only include large objects which are likely to take up a lot of space in the reflection in order to save on rendering cost."] # [doc = ""] # [inline] pub fn cull_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_cull_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The size of the reflection probe. The larger the extents the more space covered by the probe which will lower the perceived resolution. It is best to keep the extents only as large as you need them."] # [doc = ""] # [inline] pub fn extents (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_extents ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Defines the reflection intensity. Intensity modulates the strength of the reflection."] # [doc = ""] # [inline] pub fn intensity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_intensity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the ambient light color to be used when this probe is set to [member interior_enable]."] # [doc = ""] # [inline] pub fn interior_ambient (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_interior_ambient ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Sets the energy multiplier for this reflection probe's ambient light contribution when set to [member interior_enable]."] # [doc = ""] # [inline] pub fn interior_ambient_energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_interior_ambient_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the contribution value for how much the reflection affects the ambient light for this reflection probe when set to [member interior_enable]. Useful so that ambient light matches the color of the room."] # [doc = ""] # [inline] pub fn interior_ambient_probe_contribution (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_interior_ambient_probe_contribution ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the max distance away from the probe an object can be before it is culled."] # [doc = ""] # [inline] pub fn max_distance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_max_distance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the origin offset to be used when this reflection probe is in box project mode."] # [doc = ""] # [inline] pub fn origin_offset (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_origin_offset ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Sets how frequently the probe is updated. Can be [constant UPDATE_ONCE] or [constant UPDATE_ALWAYS]."] # [doc = ""] # [inline] pub fn update_mode (& self) -> crate :: generated :: reflection_probe :: UpdateMode { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . get_update_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: reflection_probe :: UpdateMode (ret) } } # [doc = "If `true`, enables box projection. This makes reflections look more correct in rectangle-shaped rooms by offsetting the reflection center depending on the camera's location."] # [doc = ""] # [inline] pub fn is_box_projection_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . is_box_projection_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, reflections will ignore sky contribution. Ambient lighting is then controlled by the `interior_ambient_*` properties."] # [doc = ""] # [inline] pub fn is_set_as_interior (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . is_set_as_interior ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, reflections will ignore sky contribution. Ambient lighting is then controlled by the `interior_ambient_*` properties."] # [doc = ""] # [inline] pub fn set_as_interior (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_as_interior ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets the cull mask which determines what objects are drawn by this probe. Every [VisualInstance] with a layer included in this cull mask will be rendered by the probe. It is best to only include large objects which are likely to take up a lot of space in the reflection in order to save on rendering cost."] # [doc = ""] # [inline] pub fn set_cull_mask (& self , layers : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_cull_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , layers) ; } } # [doc = "If `true`, enables box projection. This makes reflections look more correct in rectangle-shaped rooms by offsetting the reflection center depending on the camera's location."] # [doc = ""] # [inline] pub fn set_enable_box_projection (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_enable_box_projection ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, computes shadows in the reflection probe. This makes the reflection probe slower to render; you may want to disable this if using the [constant UPDATE_ALWAYS] [member update_mode]."] # [doc = ""] # [inline] pub fn set_enable_shadows (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_enable_shadows ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The size of the reflection probe. The larger the extents the more space covered by the probe which will lower the perceived resolution. It is best to keep the extents only as large as you need them."] # [doc = ""] # [inline] pub fn set_extents (& self , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_extents ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , extents) ; } } # [doc = "Defines the reflection intensity. Intensity modulates the strength of the reflection."] # [doc = ""] # [inline] pub fn set_intensity (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_intensity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "Sets the ambient light color to be used when this probe is set to [member interior_enable]."] # [doc = ""] # [inline] pub fn set_interior_ambient (& self , ambient : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_interior_ambient ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , ambient) ; } } # [doc = "Sets the energy multiplier for this reflection probe's ambient light contribution when set to [member interior_enable]."] # [doc = ""] # [inline] pub fn set_interior_ambient_energy (& self , ambient_energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_interior_ambient_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ambient_energy) ; } } # [doc = "Sets the contribution value for how much the reflection affects the ambient light for this reflection probe when set to [member interior_enable]. Useful so that ambient light matches the color of the room."] # [doc = ""] # [inline] pub fn set_interior_ambient_probe_contribution (& self , ambient_probe_contribution : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_interior_ambient_probe_contribution ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ambient_probe_contribution) ; } } # [doc = "Sets the max distance away from the probe an object can be before it is culled."] # [doc = ""] # [inline] pub fn set_max_distance (& self , max_distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_max_distance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , max_distance) ; } } # [doc = "Sets the origin offset to be used when this reflection probe is in box project mode."] # [doc = ""] # [inline] pub fn set_origin_offset (& self , origin_offset : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_origin_offset ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , origin_offset) ; } } # [doc = "Sets how frequently the probe is updated. Can be [constant UPDATE_ONCE] or [constant UPDATE_ALWAYS]."] # [doc = ""] # [inline] pub fn set_update_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ReflectionProbeMethodTable :: get (get_api ()) . set_update_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ReflectionProbe { } unsafe impl GodotObject for ReflectionProbe { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ReflectionProbe" } } impl QueueFree for ReflectionProbe { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ReflectionProbe { type Target = crate :: generated :: visual_instance :: VisualInstance ; # [inline] fn deref (& self) -> & crate :: generated :: visual_instance :: VisualInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ReflectionProbe { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_instance :: VisualInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for ReflectionProbe { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ReflectionProbe { } unsafe impl SubClass < crate :: generated :: node :: Node > for ReflectionProbe { } unsafe impl SubClass < crate :: generated :: object :: Object > for ReflectionProbe { } impl Instanciable for ReflectionProbe { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ReflectionProbe :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ReflectionProbeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub are_shadows_enabled : * mut sys :: godot_method_bind , pub get_cull_mask : * mut sys :: godot_method_bind , pub get_extents : * mut sys :: godot_method_bind , pub get_intensity : * mut sys :: godot_method_bind , pub get_interior_ambient : * mut sys :: godot_method_bind , pub get_interior_ambient_energy : * mut sys :: godot_method_bind , pub get_interior_ambient_probe_contribution : * mut sys :: godot_method_bind , pub get_max_distance : * mut sys :: godot_method_bind , pub get_origin_offset : * mut sys :: godot_method_bind , pub get_update_mode : * mut sys :: godot_method_bind , pub is_box_projection_enabled : * mut sys :: godot_method_bind , pub is_set_as_interior : * mut sys :: godot_method_bind , pub set_as_interior : * mut sys :: godot_method_bind , pub set_cull_mask : * mut sys :: godot_method_bind , pub set_enable_box_projection : * mut sys :: godot_method_bind , pub set_enable_shadows : * mut sys :: godot_method_bind , pub set_extents : * mut sys :: godot_method_bind , pub set_intensity : * mut sys :: godot_method_bind , pub set_interior_ambient : * mut sys :: godot_method_bind , pub set_interior_ambient_energy : * mut sys :: godot_method_bind , pub set_interior_ambient_probe_contribution : * mut sys :: godot_method_bind , pub set_max_distance : * mut sys :: godot_method_bind , pub set_origin_offset : * mut sys :: godot_method_bind , pub set_update_mode : * mut sys :: godot_method_bind } impl ReflectionProbeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ReflectionProbeMethodTable = ReflectionProbeMethodTable { class_constructor : None , are_shadows_enabled : 0 as * mut sys :: godot_method_bind , get_cull_mask : 0 as * mut sys :: godot_method_bind , get_extents : 0 as * mut sys :: godot_method_bind , get_intensity : 0 as * mut sys :: godot_method_bind , get_interior_ambient : 0 as * mut sys :: godot_method_bind , get_interior_ambient_energy : 0 as * mut sys :: godot_method_bind , get_interior_ambient_probe_contribution : 0 as * mut sys :: godot_method_bind , get_max_distance : 0 as * mut sys :: godot_method_bind , get_origin_offset : 0 as * mut sys :: godot_method_bind , get_update_mode : 0 as * mut sys :: godot_method_bind , is_box_projection_enabled : 0 as * mut sys :: godot_method_bind , is_set_as_interior : 0 as * mut sys :: godot_method_bind , set_as_interior : 0 as * mut sys :: godot_method_bind , set_cull_mask : 0 as * mut sys :: godot_method_bind , set_enable_box_projection : 0 as * mut sys :: godot_method_bind , set_enable_shadows : 0 as * mut sys :: godot_method_bind , set_extents : 0 as * mut sys :: godot_method_bind , set_intensity : 0 as * mut sys :: godot_method_bind , set_interior_ambient : 0 as * mut sys :: godot_method_bind , set_interior_ambient_energy : 0 as * mut sys :: godot_method_bind , set_interior_ambient_probe_contribution : 0 as * mut sys :: godot_method_bind , set_max_distance : 0 as * mut sys :: godot_method_bind , set_origin_offset : 0 as * mut sys :: godot_method_bind , set_update_mode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ReflectionProbeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ReflectionProbe\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . are_shadows_enabled = (gd_api . godot_method_bind_get_method) (class_name , "are_shadows_enabled\0" . as_ptr () as * const c_char) ; table . get_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_cull_mask\0" . as_ptr () as * const c_char) ; table . get_extents = (gd_api . godot_method_bind_get_method) (class_name , "get_extents\0" . as_ptr () as * const c_char) ; table . get_intensity = (gd_api . godot_method_bind_get_method) (class_name , "get_intensity\0" . as_ptr () as * const c_char) ; table . get_interior_ambient = (gd_api . godot_method_bind_get_method) (class_name , "get_interior_ambient\0" . as_ptr () as * const c_char) ; table . get_interior_ambient_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_interior_ambient_energy\0" . as_ptr () as * const c_char) ; table . get_interior_ambient_probe_contribution = (gd_api . godot_method_bind_get_method) (class_name , "get_interior_ambient_probe_contribution\0" . as_ptr () as * const c_char) ; table . get_max_distance = (gd_api . godot_method_bind_get_method) (class_name , "get_max_distance\0" . as_ptr () as * const c_char) ; table . get_origin_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_origin_offset\0" . as_ptr () as * const c_char) ; table . get_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_update_mode\0" . as_ptr () as * const c_char) ; table . is_box_projection_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_box_projection_enabled\0" . as_ptr () as * const c_char) ; table . is_set_as_interior = (gd_api . godot_method_bind_get_method) (class_name , "is_set_as_interior\0" . as_ptr () as * const c_char) ; table . set_as_interior = (gd_api . godot_method_bind_get_method) (class_name , "set_as_interior\0" . as_ptr () as * const c_char) ; table . set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_cull_mask\0" . as_ptr () as * const c_char) ; table . set_enable_box_projection = (gd_api . godot_method_bind_get_method) (class_name , "set_enable_box_projection\0" . as_ptr () as * const c_char) ; table . set_enable_shadows = (gd_api . godot_method_bind_get_method) (class_name , "set_enable_shadows\0" . as_ptr () as * const c_char) ; table . set_extents = (gd_api . godot_method_bind_get_method) (class_name , "set_extents\0" . as_ptr () as * const c_char) ; table . set_intensity = (gd_api . godot_method_bind_get_method) (class_name , "set_intensity\0" . as_ptr () as * const c_char) ; table . set_interior_ambient = (gd_api . godot_method_bind_get_method) (class_name , "set_interior_ambient\0" . as_ptr () as * const c_char) ; table . set_interior_ambient_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_interior_ambient_energy\0" . as_ptr () as * const c_char) ; table . set_interior_ambient_probe_contribution = (gd_api . godot_method_bind_get_method) (class_name , "set_interior_ambient_probe_contribution\0" . as_ptr () as * const c_char) ; table . set_max_distance = (gd_api . godot_method_bind_get_method) (class_name , "set_max_distance\0" . as_ptr () as * const c_char) ; table . set_origin_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_origin_offset\0" . as_ptr () as * const c_char) ; table . set_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_update_mode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:814:16138 [INFO] [stdout] | [INFO] [stdout] 814 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 814 | # [doc = "`core class HTTPRequest` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_httprequest.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`HTTPRequest` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nHTTPRequest inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct HTTPRequest { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct HttpRequestResult (pub i64) ; impl HttpRequestResult { pub const SUCCESS : HttpRequestResult = HttpRequestResult (0i64) ; pub const CHUNKED_BODY_SIZE_MISMATCH : HttpRequestResult = HttpRequestResult (1i64) ; pub const CANT_CONNECT : HttpRequestResult = HttpRequestResult (2i64) ; pub const CANT_RESOLVE : HttpRequestResult = HttpRequestResult (3i64) ; pub const CONNECTION_ERROR : HttpRequestResult = HttpRequestResult (4i64) ; pub const SSL_HANDSHAKE_ERROR : HttpRequestResult = HttpRequestResult (5i64) ; pub const NO_RESPONSE : HttpRequestResult = HttpRequestResult (6i64) ; pub const BODY_SIZE_LIMIT_EXCEEDED : HttpRequestResult = HttpRequestResult (7i64) ; pub const REQUEST_FAILED : HttpRequestResult = HttpRequestResult (8i64) ; pub const DOWNLOAD_FILE_CANT_OPEN : HttpRequestResult = HttpRequestResult (9i64) ; pub const DOWNLOAD_FILE_WRITE_ERROR : HttpRequestResult = HttpRequestResult (10i64) ; pub const REDIRECT_LIMIT_REACHED : HttpRequestResult = HttpRequestResult (11i64) ; pub const TIMEOUT : HttpRequestResult = HttpRequestResult (12i64) ; } impl From < i64 > for HttpRequestResult { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < HttpRequestResult > for i64 { # [inline] fn from (v : HttpRequestResult) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl HTTPRequest { pub const RESULT_BODY_SIZE_LIMIT_EXCEEDED : i64 = 7i64 ; pub const RESULT_CANT_CONNECT : i64 = 2i64 ; pub const RESULT_CANT_RESOLVE : i64 = 3i64 ; pub const RESULT_CHUNKED_BODY_SIZE_MISMATCH : i64 = 1i64 ; pub const RESULT_CONNECTION_ERROR : i64 = 4i64 ; pub const RESULT_DOWNLOAD_FILE_CANT_OPEN : i64 = 9i64 ; pub const RESULT_DOWNLOAD_FILE_WRITE_ERROR : i64 = 10i64 ; pub const RESULT_NO_RESPONSE : i64 = 6i64 ; pub const RESULT_REDIRECT_LIMIT_REACHED : i64 = 11i64 ; pub const RESULT_REQUEST_FAILED : i64 = 8i64 ; pub const RESULT_SSL_HANDSHAKE_ERROR : i64 = 5i64 ; pub const RESULT_SUCCESS : i64 = 0i64 ; pub const RESULT_TIMEOUT : i64 = 12i64 ; } impl HTTPRequest { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = HTTPRequestMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Cancels the current request."] # [doc = ""] # [inline] pub fn cancel_request (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . cancel_request ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the response body length.\n**Note:** Some Web servers may not send a body length. In this case, the value returned will be `-1`. If using chunked transfer encoding, the body length will also be `-1`."] # [doc = ""] # [inline] pub fn get_body_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_body_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Maximum allowed size for response bodies."] # [doc = ""] # [inline] pub fn body_size_limit (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_body_size_limit ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The size of the buffer used and maximum bytes to read per iteration. See [member HTTPClient.read_chunk_size].\nSet this to a higher value (e.g. 65536 for 64 KiB) when downloading large files to achieve better speeds at the cost of memory."] # [doc = ""] # [inline] pub fn download_chunk_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_download_chunk_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The file to download into. Will output any received file into it."] # [doc = ""] # [inline] pub fn download_file (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_download_file ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the amount of bytes this HTTPRequest downloaded."] # [doc = ""] # [inline] pub fn get_downloaded_bytes (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_downloaded_bytes ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the current status of the underlying [HTTPClient]. See [enum HTTPClient.Status]."] # [doc = ""] # [inline] pub fn get_http_client_status (& self) -> crate :: generated :: http_client :: Status { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_http_client_status ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: http_client :: Status (ret) } } # [doc = "Maximum number of allowed redirects."] # [doc = ""] # [inline] pub fn max_redirects (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_max_redirects ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn timeout (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . get_timeout ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, multithreading is used to improve performance."] # [doc = ""] # [inline] pub fn is_using_threads (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . is_using_threads ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Creates request on the underlying [HTTPClient]. If there is no configuration errors, it tries to connect using [method HTTPClient.connect_to_host] and passes parameters onto [method HTTPClient.request].\nReturns [constant OK] if request is successfully created. (Does not imply that the server has responded), [constant ERR_UNCONFIGURED] if not in the tree, [constant ERR_BUSY] if still processing previous request, [constant ERR_INVALID_PARAMETER] if given string is not a valid URL format, or [constant ERR_CANT_CONNECT] if not using thread and the [HTTPClient] cannot connect to host.\n**Note:** The `request_data` parameter is ignored if `method` is [constant HTTPClient.METHOD_GET]. This is because GET methods can't contain request data. As a workaround, you can pass request data as a query string in the URL. See [method String.http_escape] for an example.\n# Default Arguments\n* `custom_headers` - `PoolStringArray( )`\n* `ssl_validate_domain` - `true`\n* `method` - `0`\n* `request_data` - `\"\"`"] # [doc = ""] # [inline] pub fn request (& self , url : impl Into < GodotString > , custom_headers : StringArray , ssl_validate_domain : bool , method : i64 , request_data : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . request ; let ret = crate :: icalls :: icallptr_i64_str_strarr_bool_i64_str (method_bind , self . this . sys () . as_ptr () , url . into () , custom_headers , ssl_validate_domain , method , request_data . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Maximum allowed size for response bodies."] # [doc = ""] # [inline] pub fn set_body_size_limit (& self , bytes : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . set_body_size_limit ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , bytes) ; } } # [doc = "The size of the buffer used and maximum bytes to read per iteration. See [member HTTPClient.read_chunk_size].\nSet this to a higher value (e.g. 65536 for 64 KiB) when downloading large files to achieve better speeds at the cost of memory."] # [doc = ""] # [inline] pub fn set_download_chunk_size (& self , arg0 : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . set_download_chunk_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , arg0) ; } } # [doc = "The file to download into. Will output any received file into it."] # [doc = ""] # [inline] pub fn set_download_file (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . set_download_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "Maximum number of allowed redirects."] # [doc = ""] # [inline] pub fn set_max_redirects (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . set_max_redirects ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_timeout (& self , timeout : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . set_timeout ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , timeout) ; } } # [doc = "If `true`, multithreading is used to improve performance."] # [doc = ""] # [inline] pub fn set_use_threads (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HTTPRequestMethodTable :: get (get_api ()) . set_use_threads ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for HTTPRequest { } unsafe impl GodotObject for HTTPRequest { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "HTTPRequest" } } impl QueueFree for HTTPRequest { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for HTTPRequest { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HTTPRequest { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for HTTPRequest { } unsafe impl SubClass < crate :: generated :: object :: Object > for HTTPRequest { } impl Instanciable for HTTPRequest { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HTTPRequest :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HTTPRequestMethodTable { pub class_constructor : sys :: godot_class_constructor , pub cancel_request : * mut sys :: godot_method_bind , pub get_body_size : * mut sys :: godot_method_bind , pub get_body_size_limit : * mut sys :: godot_method_bind , pub get_download_chunk_size : * mut sys :: godot_method_bind , pub get_download_file : * mut sys :: godot_method_bind , pub get_downloaded_bytes : * mut sys :: godot_method_bind , pub get_http_client_status : * mut sys :: godot_method_bind , pub get_max_redirects : * mut sys :: godot_method_bind , pub get_timeout : * mut sys :: godot_method_bind , pub is_using_threads : * mut sys :: godot_method_bind , pub request : * mut sys :: godot_method_bind , pub set_body_size_limit : * mut sys :: godot_method_bind , pub set_download_chunk_size : * mut sys :: godot_method_bind , pub set_download_file : * mut sys :: godot_method_bind , pub set_max_redirects : * mut sys :: godot_method_bind , pub set_timeout : * mut sys :: godot_method_bind , pub set_use_threads : * mut sys :: godot_method_bind } impl HTTPRequestMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HTTPRequestMethodTable = HTTPRequestMethodTable { class_constructor : None , cancel_request : 0 as * mut sys :: godot_method_bind , get_body_size : 0 as * mut sys :: godot_method_bind , get_body_size_limit : 0 as * mut sys :: godot_method_bind , get_download_chunk_size : 0 as * mut sys :: godot_method_bind , get_download_file : 0 as * mut sys :: godot_method_bind , get_downloaded_bytes : 0 as * mut sys :: godot_method_bind , get_http_client_status : 0 as * mut sys :: godot_method_bind , get_max_redirects : 0 as * mut sys :: godot_method_bind , get_timeout : 0 as * mut sys :: godot_method_bind , is_using_threads : 0 as * mut sys :: godot_method_bind , request : 0 as * mut sys :: godot_method_bind , set_body_size_limit : 0 as * mut sys :: godot_method_bind , set_download_chunk_size : 0 as * mut sys :: godot_method_bind , set_download_file : 0 as * mut sys :: godot_method_bind , set_max_redirects : 0 as * mut sys :: godot_method_bind , set_timeout : 0 as * mut sys :: godot_method_bind , set_use_threads : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { HTTPRequestMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HTTPRequest\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . cancel_request = (gd_api . godot_method_bind_get_method) (class_name , "cancel_request\0" . as_ptr () as * const c_char) ; table . get_body_size = (gd_api . godot_method_bind_get_method) (class_name , "get_body_size\0" . as_ptr () as * const c_char) ; table . get_body_size_limit = (gd_api . godot_method_bind_get_method) (class_name , "get_body_size_limit\0" . as_ptr () as * const c_char) ; table . get_download_chunk_size = (gd_api . godot_method_bind_get_method) (class_name , "get_download_chunk_size\0" . as_ptr () as * const c_char) ; table . get_download_file = (gd_api . godot_method_bind_get_method) (class_name , "get_download_file\0" . as_ptr () as * const c_char) ; table . get_downloaded_bytes = (gd_api . godot_method_bind_get_method) (class_name , "get_downloaded_bytes\0" . as_ptr () as * const c_char) ; table . get_http_client_status = (gd_api . godot_method_bind_get_method) (class_name , "get_http_client_status\0" . as_ptr () as * const c_char) ; table . get_max_redirects = (gd_api . godot_method_bind_get_method) (class_name , "get_max_redirects\0" . as_ptr () as * const c_char) ; table . get_timeout = (gd_api . godot_method_bind_get_method) (class_name , "get_timeout\0" . as_ptr () as * const c_char) ; table . is_using_threads = (gd_api . godot_method_bind_get_method) (class_name , "is_using_threads\0" . as_ptr () as * const c_char) ; table . request = (gd_api . godot_method_bind_get_method) (class_name , "request\0" . as_ptr () as * const c_char) ; table . set_body_size_limit = (gd_api . godot_method_bind_get_method) (class_name , "set_body_size_limit\0" . as_ptr () as * const c_char) ; table . set_download_chunk_size = (gd_api . godot_method_bind_get_method) (class_name , "set_download_chunk_size\0" . as_ptr () as * const c_char) ; table . set_download_file = (gd_api . godot_method_bind_get_method) (class_name , "set_download_file\0" . as_ptr () as * const c_char) ; table . set_max_redirects = (gd_api . godot_method_bind_get_method) (class_name , "set_max_redirects\0" . as_ptr () as * const c_char) ; table . set_timeout = (gd_api . godot_method_bind_get_method) (class_name , "set_timeout\0" . as_ptr () as * const c_char) ; table . set_use_threads = (gd_api . godot_method_bind_get_method) (class_name , "set_use_threads\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:820:3658 [INFO] [stdout] | [INFO] [stdout] 820 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 820 | # [doc = "`core class VisualScriptCondition` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptcondition.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptCondition inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptCondition { this : RawObject < Self > , } impl VisualScriptCondition { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptConditionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptCondition { } unsafe impl GodotObject for VisualScriptCondition { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptCondition" } } impl std :: ops :: Deref for VisualScriptCondition { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptCondition { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptCondition { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptCondition { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptCondition { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptCondition { } impl Instanciable for VisualScriptCondition { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptCondition :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptConditionMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptConditionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptConditionMethodTable = VisualScriptConditionMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptConditionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptCondition\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:826:3889 [INFO] [stdout] | [INFO] [stdout] 826 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 826 | # [doc = "`core class VisualShaderNodeTransformCompose` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodetransformcompose.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeTransformCompose inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeTransformCompose { this : RawObject < Self > , } impl VisualShaderNodeTransformCompose { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeTransformComposeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeTransformCompose { } unsafe impl GodotObject for VisualShaderNodeTransformCompose { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeTransformCompose" } } impl std :: ops :: Deref for VisualShaderNodeTransformCompose { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeTransformCompose { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeTransformCompose { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeTransformCompose { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeTransformCompose { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeTransformCompose { } impl Instanciable for VisualShaderNodeTransformCompose { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeTransformCompose :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeTransformComposeMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeTransformComposeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeTransformComposeMethodTable = VisualShaderNodeTransformComposeMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeTransformComposeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeTransformCompose\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:838:11572 [INFO] [stdout] | [INFO] [stdout] 838 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 838 | # [doc = "`core class PhysicsShapeQueryParameters` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physicsshapequeryparameters.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPhysicsShapeQueryParameters inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PhysicsShapeQueryParameters { this : RawObject < Self > , } impl PhysicsShapeQueryParameters { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PhysicsShapeQueryParametersMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The physics layer(s) the query will take into account (as a bitmask). See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . get_collision_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The list of objects or object [RID]s that will be excluded from collisions."] # [doc = ""] # [inline] pub fn exclude (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . get_exclude ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "The collision margin for the shape."] # [doc = ""] # [inline] pub fn margin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . get_margin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The queried shape's [RID]. See also [method set_shape]."] # [doc = ""] # [inline] pub fn shape_rid (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . get_shape_rid ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "The queried shape's transform matrix."] # [doc = ""] # [inline] pub fn transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . get_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, the query will take [Area]s into account."] # [doc = ""] # [inline] pub fn is_collide_with_areas_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . is_collide_with_areas_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the query will take [PhysicsBody]s into account."] # [doc = ""] # [inline] pub fn is_collide_with_bodies_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . is_collide_with_bodies_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the query will take [Area]s into account."] # [doc = ""] # [inline] pub fn set_collide_with_areas (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_collide_with_areas ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the query will take [PhysicsBody]s into account."] # [doc = ""] # [inline] pub fn set_collide_with_bodies (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_collide_with_bodies ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The physics layer(s) the query will take into account (as a bitmask). See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_mask (& self , collision_mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_collision_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , collision_mask) ; } } # [doc = "The list of objects or object [RID]s that will be excluded from collisions."] # [doc = ""] # [inline] pub fn set_exclude (& self , exclude : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_exclude ; let ret = crate :: icalls :: icallptr_void_arr (method_bind , self . this . sys () . as_ptr () , exclude) ; } } # [doc = "The collision margin for the shape."] # [doc = ""] # [inline] pub fn set_margin (& self , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_margin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , margin) ; } } # [doc = "Sets the [Shape] that will be used for collision/intersection queries."] # [doc = ""] # [inline] pub fn set_shape (& self , shape : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_shape ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr ()) ; } } # [doc = "The queried shape's [RID]. See also [method set_shape]."] # [doc = ""] # [inline] pub fn set_shape_rid (& self , shape : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_shape_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , shape) ; } } # [doc = "The queried shape's transform matrix."] # [doc = ""] # [inline] pub fn set_transform (& self , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryParametersMethodTable :: get (get_api ()) . set_transform ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , transform) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PhysicsShapeQueryParameters { } unsafe impl GodotObject for PhysicsShapeQueryParameters { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PhysicsShapeQueryParameters" } } impl std :: ops :: Deref for PhysicsShapeQueryParameters { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PhysicsShapeQueryParameters { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PhysicsShapeQueryParameters { } unsafe impl SubClass < crate :: generated :: object :: Object > for PhysicsShapeQueryParameters { } impl Instanciable for PhysicsShapeQueryParameters { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PhysicsShapeQueryParameters :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PhysicsShapeQueryParametersMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_collision_mask : * mut sys :: godot_method_bind , pub get_exclude : * mut sys :: godot_method_bind , pub get_margin : * mut sys :: godot_method_bind , pub get_shape_rid : * mut sys :: godot_method_bind , pub get_transform : * mut sys :: godot_method_bind , pub is_collide_with_areas_enabled : * mut sys :: godot_method_bind , pub is_collide_with_bodies_enabled : * mut sys :: godot_method_bind , pub set_collide_with_areas : * mut sys :: godot_method_bind , pub set_collide_with_bodies : * mut sys :: godot_method_bind , pub set_collision_mask : * mut sys :: godot_method_bind , pub set_exclude : * mut sys :: godot_method_bind , pub set_margin : * mut sys :: godot_method_bind , pub set_shape : * mut sys :: godot_method_bind , pub set_shape_rid : * mut sys :: godot_method_bind , pub set_transform : * mut sys :: godot_method_bind } impl PhysicsShapeQueryParametersMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PhysicsShapeQueryParametersMethodTable = PhysicsShapeQueryParametersMethodTable { class_constructor : None , get_collision_mask : 0 as * mut sys :: godot_method_bind , get_exclude : 0 as * mut sys :: godot_method_bind , get_margin : 0 as * mut sys :: godot_method_bind , get_shape_rid : 0 as * mut sys :: godot_method_bind , get_transform : 0 as * mut sys :: godot_method_bind , is_collide_with_areas_enabled : 0 as * mut sys :: godot_method_bind , is_collide_with_bodies_enabled : 0 as * mut sys :: godot_method_bind , set_collide_with_areas : 0 as * mut sys :: godot_method_bind , set_collide_with_bodies : 0 as * mut sys :: godot_method_bind , set_collision_mask : 0 as * mut sys :: godot_method_bind , set_exclude : 0 as * mut sys :: godot_method_bind , set_margin : 0 as * mut sys :: godot_method_bind , set_shape : 0 as * mut sys :: godot_method_bind , set_shape_rid : 0 as * mut sys :: godot_method_bind , set_transform : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PhysicsShapeQueryParametersMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PhysicsShapeQueryParameters\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask\0" . as_ptr () as * const c_char) ; table . get_exclude = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude\0" . as_ptr () as * const c_char) ; table . get_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_margin\0" . as_ptr () as * const c_char) ; table . get_shape_rid = (gd_api . godot_method_bind_get_method) (class_name , "get_shape_rid\0" . as_ptr () as * const c_char) ; table . get_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_transform\0" . as_ptr () as * const c_char) ; table . is_collide_with_areas_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_areas_enabled\0" . as_ptr () as * const c_char) ; table . is_collide_with_bodies_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_bodies_enabled\0" . as_ptr () as * const c_char) ; table . set_collide_with_areas = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_areas\0" . as_ptr () as * const c_char) ; table . set_collide_with_bodies = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_bodies\0" . as_ptr () as * const c_char) ; table . set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask\0" . as_ptr () as * const c_char) ; table . set_exclude = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude\0" . as_ptr () as * const c_char) ; table . set_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_margin\0" . as_ptr () as * const c_char) ; table . set_shape = (gd_api . godot_method_bind_get_method) (class_name , "set_shape\0" . as_ptr () as * const c_char) ; table . set_shape_rid = (gd_api . godot_method_bind_get_method) (class_name , "set_shape_rid\0" . as_ptr () as * const c_char) ; table . set_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_transform\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:844:10664 [INFO] [stdout] | [INFO] [stdout] 844 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 844 | # [doc = "`core class TextureRect` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_texturerect.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`TextureRect` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nTextureRect inherits methods from:\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct TextureRect { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct StretchMode (pub i64) ; impl StretchMode { pub const SCALE_ON_EXPAND : StretchMode = StretchMode (0i64) ; pub const SCALE : StretchMode = StretchMode (1i64) ; pub const TILE : StretchMode = StretchMode (2i64) ; pub const KEEP : StretchMode = StretchMode (3i64) ; pub const KEEP_CENTERED : StretchMode = StretchMode (4i64) ; pub const KEEP_ASPECT : StretchMode = StretchMode (5i64) ; pub const KEEP_ASPECT_CENTERED : StretchMode = StretchMode (6i64) ; pub const KEEP_ASPECT_COVERED : StretchMode = StretchMode (7i64) ; } impl From < i64 > for StretchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < StretchMode > for i64 { # [inline] fn from (v : StretchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl TextureRect { pub const STRETCH_KEEP : i64 = 3i64 ; pub const STRETCH_KEEP_ASPECT : i64 = 5i64 ; pub const STRETCH_KEEP_ASPECT_CENTERED : i64 = 6i64 ; pub const STRETCH_KEEP_ASPECT_COVERED : i64 = 7i64 ; pub const STRETCH_KEEP_CENTERED : i64 = 4i64 ; pub const STRETCH_SCALE : i64 = 1i64 ; pub const STRETCH_SCALE_ON_EXPAND : i64 = 0i64 ; pub const STRETCH_TILE : i64 = 2i64 ; } impl TextureRect { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = TextureRectMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Controls the texture's behavior when resizing the node's bounding rectangle. See [enum StretchMode]."] # [doc = ""] # [inline] pub fn stretch_mode (& self) -> crate :: generated :: texture_rect :: StretchMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . get_stretch_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: texture_rect :: StretchMode (ret) } } # [doc = "The node's [Texture] resource."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . get_texture ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, the texture scales to fit its bounding rectangle."] # [doc = ""] # [inline] pub fn has_expand (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . has_expand ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, texture is flipped horizontally."] # [doc = ""] # [inline] pub fn is_flipped_h (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . is_flipped_h ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, texture is flipped vertically."] # [doc = ""] # [inline] pub fn is_flipped_v (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . is_flipped_v ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the texture scales to fit its bounding rectangle."] # [doc = ""] # [inline] pub fn set_expand (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . set_expand ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, texture is flipped horizontally."] # [doc = ""] # [inline] pub fn set_flip_h (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . set_flip_h ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, texture is flipped vertically."] # [doc = ""] # [inline] pub fn set_flip_v (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . set_flip_v ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Controls the texture's behavior when resizing the node's bounding rectangle. See [enum StretchMode]."] # [doc = ""] # [inline] pub fn set_stretch_mode (& self , stretch_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . set_stretch_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , stretch_mode) ; } } # [doc = "The node's [Texture] resource."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureRectMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for TextureRect { } unsafe impl GodotObject for TextureRect { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "TextureRect" } } impl QueueFree for TextureRect { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for TextureRect { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TextureRect { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for TextureRect { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for TextureRect { } unsafe impl SubClass < crate :: generated :: node :: Node > for TextureRect { } unsafe impl SubClass < crate :: generated :: object :: Object > for TextureRect { } impl Instanciable for TextureRect { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TextureRect :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TextureRectMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_stretch_mode : * mut sys :: godot_method_bind , pub get_texture : * mut sys :: godot_method_bind , pub has_expand : * mut sys :: godot_method_bind , pub is_flipped_h : * mut sys :: godot_method_bind , pub is_flipped_v : * mut sys :: godot_method_bind , pub set_expand : * mut sys :: godot_method_bind , pub set_flip_h : * mut sys :: godot_method_bind , pub set_flip_v : * mut sys :: godot_method_bind , pub set_stretch_mode : * mut sys :: godot_method_bind , pub set_texture : * mut sys :: godot_method_bind } impl TextureRectMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TextureRectMethodTable = TextureRectMethodTable { class_constructor : None , get_stretch_mode : 0 as * mut sys :: godot_method_bind , get_texture : 0 as * mut sys :: godot_method_bind , has_expand : 0 as * mut sys :: godot_method_bind , is_flipped_h : 0 as * mut sys :: godot_method_bind , is_flipped_v : 0 as * mut sys :: godot_method_bind , set_expand : 0 as * mut sys :: godot_method_bind , set_flip_h : 0 as * mut sys :: godot_method_bind , set_flip_v : 0 as * mut sys :: godot_method_bind , set_stretch_mode : 0 as * mut sys :: godot_method_bind , set_texture : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TextureRectMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TextureRect\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_stretch_mode\0" . as_ptr () as * const c_char) ; table . get_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_texture\0" . as_ptr () as * const c_char) ; table . has_expand = (gd_api . godot_method_bind_get_method) (class_name , "has_expand\0" . as_ptr () as * const c_char) ; table . is_flipped_h = (gd_api . godot_method_bind_get_method) (class_name , "is_flipped_h\0" . as_ptr () as * const c_char) ; table . is_flipped_v = (gd_api . godot_method_bind_get_method) (class_name , "is_flipped_v\0" . as_ptr () as * const c_char) ; table . set_expand = (gd_api . godot_method_bind_get_method) (class_name , "set_expand\0" . as_ptr () as * const c_char) ; table . set_flip_h = (gd_api . godot_method_bind_get_method) (class_name , "set_flip_h\0" . as_ptr () as * const c_char) ; table . set_flip_v = (gd_api . godot_method_bind_get_method) (class_name , "set_flip_v\0" . as_ptr () as * const c_char) ; table . set_stretch_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch_mode\0" . as_ptr () as * const c_char) ; table . set_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_texture\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:850:6957 [INFO] [stdout] | [INFO] [stdout] 850 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 850 | # [doc = "`core class LightOccluder2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_lightoccluder2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`LightOccluder2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nLightOccluder2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct LightOccluder2D { this : RawObject < Self > , } impl LightOccluder2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = LightOccluder2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The LightOccluder2D's light mask. The LightOccluder2D will cast shadows only from Light2D(s) that have the same light mask(s)."] # [doc = ""] # [inline] pub fn occluder_light_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = LightOccluder2DMethodTable :: get (get_api ()) . get_occluder_light_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [OccluderPolygon2D] used to compute the shadow."] # [doc = ""] # [inline] pub fn occluder_polygon (& self) -> Option < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = LightOccluder2DMethodTable :: get (get_api ()) . get_occluder_polygon ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The LightOccluder2D's light mask. The LightOccluder2D will cast shadows only from Light2D(s) that have the same light mask(s)."] # [doc = ""] # [inline] pub fn set_occluder_light_mask (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightOccluder2DMethodTable :: get (get_api ()) . set_occluder_light_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mask) ; } } # [doc = "The [OccluderPolygon2D] used to compute the shadow."] # [doc = ""] # [inline] pub fn set_occluder_polygon (& self , polygon : impl AsArg < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightOccluder2DMethodTable :: get (get_api ()) . set_occluder_polygon ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , polygon . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for LightOccluder2D { } unsafe impl GodotObject for LightOccluder2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "LightOccluder2D" } } impl QueueFree for LightOccluder2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for LightOccluder2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for LightOccluder2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for LightOccluder2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for LightOccluder2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for LightOccluder2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for LightOccluder2D { } impl Instanciable for LightOccluder2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { LightOccluder2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct LightOccluder2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_occluder_light_mask : * mut sys :: godot_method_bind , pub get_occluder_polygon : * mut sys :: godot_method_bind , pub set_occluder_light_mask : * mut sys :: godot_method_bind , pub set_occluder_polygon : * mut sys :: godot_method_bind } impl LightOccluder2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : LightOccluder2DMethodTable = LightOccluder2DMethodTable { class_constructor : None , get_occluder_light_mask : 0 as * mut sys :: godot_method_bind , get_occluder_polygon : 0 as * mut sys :: godot_method_bind , set_occluder_light_mask : 0 as * mut sys :: godot_method_bind , set_occluder_polygon : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { LightOccluder2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "LightOccluder2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_occluder_light_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_occluder_light_mask\0" . as_ptr () as * const c_char) ; table . get_occluder_polygon = (gd_api . godot_method_bind_get_method) (class_name , "get_occluder_polygon\0" . as_ptr () as * const c_char) ; table . set_occluder_light_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_occluder_light_mask\0" . as_ptr () as * const c_char) ; table . set_occluder_polygon = (gd_api . godot_method_bind_get_method) (class_name , "set_occluder_polygon\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:856:6088 [INFO] [stdout] | [INFO] [stdout] 856 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 856 | # [doc = "`core class MultiMeshInstance` inherits `GeometryInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_multimeshinstance.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`MultiMeshInstance` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nMultiMeshInstance inherits methods from:\n - [GeometryInstance](struct.GeometryInstance.html)\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct MultiMeshInstance { this : RawObject < Self > , } impl MultiMeshInstance { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = MultiMeshInstanceMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The [MultiMesh] resource that will be used and shared among all instances of the [MultiMeshInstance]."] # [doc = ""] # [inline] pub fn multimesh (& self) -> Option < Ref < crate :: generated :: multi_mesh :: MultiMesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiMeshInstanceMethodTable :: get (get_api ()) . get_multimesh ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: multi_mesh :: MultiMesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [MultiMesh] resource that will be used and shared among all instances of the [MultiMeshInstance]."] # [doc = ""] # [inline] pub fn set_multimesh (& self , multimesh : impl AsArg < crate :: generated :: multi_mesh :: MultiMesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiMeshInstanceMethodTable :: get (get_api ()) . set_multimesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , multimesh . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for MultiMeshInstance { } unsafe impl GodotObject for MultiMeshInstance { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "MultiMeshInstance" } } impl QueueFree for MultiMeshInstance { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for MultiMeshInstance { type Target = crate :: generated :: geometry_instance :: GeometryInstance ; # [inline] fn deref (& self) -> & crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for MultiMeshInstance { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: node :: Node > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: object :: Object > for MultiMeshInstance { } impl Instanciable for MultiMeshInstance { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MultiMeshInstance :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MultiMeshInstanceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_multimesh : * mut sys :: godot_method_bind , pub set_multimesh : * mut sys :: godot_method_bind } impl MultiMeshInstanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MultiMeshInstanceMethodTable = MultiMeshInstanceMethodTable { class_constructor : None , get_multimesh : 0 as * mut sys :: godot_method_bind , set_multimesh : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { MultiMeshInstanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MultiMeshInstance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_multimesh = (gd_api . godot_method_bind_get_method) (class_name , "get_multimesh\0" . as_ptr () as * const c_char) ; table . set_multimesh = (gd_api . godot_method_bind_get_method) (class_name , "set_multimesh\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:862:3637 [INFO] [stdout] | [INFO] [stdout] 862 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 862 | # [doc = "`core class VisualScriptFunction` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptfunction.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptFunction inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptFunction { this : RawObject < Self > , } impl VisualScriptFunction { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptFunctionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptFunction { } unsafe impl GodotObject for VisualScriptFunction { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptFunction" } } impl std :: ops :: Deref for VisualScriptFunction { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptFunction { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptFunction { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptFunction { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptFunction { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptFunction { } impl Instanciable for VisualScriptFunction { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptFunction :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptFunctionMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptFunctionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptFunctionMethodTable = VisualScriptFunctionMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptFunctionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptFunction\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:868:6281 [INFO] [stdout] | [INFO] [stdout] 868 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 868 | # [doc = "`core class InputEventAction` inherits `InputEvent` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventaction.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventAction inherits methods from:\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventAction { this : RawObject < Self > , } impl InputEventAction { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = InputEventActionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The action's name. Actions are accessed via this [String]."] # [doc = ""] # [inline] pub fn action (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventActionMethodTable :: get (get_api ()) . get_action ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The action's strength between 0 and 1. This value is considered as equal to 0 if pressed is `false`. The event strength allows faking analog joypad motion events, by precising how strongly is the joypad axis bent or pressed."] # [doc = ""] # [inline] pub fn strength (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventActionMethodTable :: get (get_api ()) . get_strength ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The action's name. Actions are accessed via this [String]."] # [doc = ""] # [inline] pub fn set_action (& self , action : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventActionMethodTable :: get (get_api ()) . set_action ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; } } # [doc = "If `true`, the action's state is pressed. If `false`, the action's state is released."] # [doc = ""] # [inline] pub fn set_pressed (& self , pressed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventActionMethodTable :: get (get_api ()) . set_pressed ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , pressed) ; } } # [doc = "The action's strength between 0 and 1. This value is considered as equal to 0 if pressed is `false`. The event strength allows faking analog joypad motion events, by precising how strongly is the joypad axis bent or pressed."] # [doc = ""] # [inline] pub fn set_strength (& self , strength : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventActionMethodTable :: get (get_api ()) . set_strength ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , strength) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventAction { } unsafe impl GodotObject for InputEventAction { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventAction" } } impl std :: ops :: Deref for InputEventAction { type Target = crate :: generated :: input_event :: InputEvent ; # [inline] fn deref (& self) -> & crate :: generated :: input_event :: InputEvent { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventAction { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event :: InputEvent { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventAction { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventAction { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventAction { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventAction { } impl Instanciable for InputEventAction { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventAction :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventActionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_action : * mut sys :: godot_method_bind , pub get_strength : * mut sys :: godot_method_bind , pub set_action : * mut sys :: godot_method_bind , pub set_pressed : * mut sys :: godot_method_bind , pub set_strength : * mut sys :: godot_method_bind } impl InputEventActionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventActionMethodTable = InputEventActionMethodTable { class_constructor : None , get_action : 0 as * mut sys :: godot_method_bind , get_strength : 0 as * mut sys :: godot_method_bind , set_action : 0 as * mut sys :: godot_method_bind , set_pressed : 0 as * mut sys :: godot_method_bind , set_strength : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventActionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventAction\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_action = (gd_api . godot_method_bind_get_method) (class_name , "get_action\0" . as_ptr () as * const c_char) ; table . get_strength = (gd_api . godot_method_bind_get_method) (class_name , "get_strength\0" . as_ptr () as * const c_char) ; table . set_action = (gd_api . godot_method_bind_get_method) (class_name , "set_action\0" . as_ptr () as * const c_char) ; table . set_pressed = (gd_api . godot_method_bind_get_method) (class_name , "set_pressed\0" . as_ptr () as * const c_char) ; table . set_strength = (gd_api . godot_method_bind_get_method) (class_name , "set_strength\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:874:7245 [INFO] [stdout] | [INFO] [stdout] 874 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 874 | # [doc = "`core class InputEventScreenDrag` inherits `InputEvent` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventscreendrag.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventScreenDrag inherits methods from:\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventScreenDrag { this : RawObject < Self > , } impl InputEventScreenDrag { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = InputEventScreenDragMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The drag event index in the case of a multi-drag event."] # [doc = ""] # [inline] pub fn index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . get_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The drag position."] # [doc = ""] # [inline] pub fn position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The drag position relative to its start position."] # [doc = ""] # [inline] pub fn relative (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . get_relative ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The drag speed."] # [doc = ""] # [inline] pub fn speed (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . get_speed ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The drag event index in the case of a multi-drag event."] # [doc = ""] # [inline] pub fn set_index (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . set_index ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "The drag position."] # [doc = ""] # [inline] pub fn set_position (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . set_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "The drag position relative to its start position."] # [doc = ""] # [inline] pub fn set_relative (& self , relative : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . set_relative ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , relative) ; } } # [doc = "The drag speed."] # [doc = ""] # [inline] pub fn set_speed (& self , speed : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventScreenDragMethodTable :: get (get_api ()) . set_speed ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , speed) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventScreenDrag { } unsafe impl GodotObject for InputEventScreenDrag { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventScreenDrag" } } impl std :: ops :: Deref for InputEventScreenDrag { type Target = crate :: generated :: input_event :: InputEvent ; # [inline] fn deref (& self) -> & crate :: generated :: input_event :: InputEvent { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventScreenDrag { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event :: InputEvent { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventScreenDrag { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventScreenDrag { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventScreenDrag { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventScreenDrag { } impl Instanciable for InputEventScreenDrag { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventScreenDrag :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventScreenDragMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_index : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub get_relative : * mut sys :: godot_method_bind , pub get_speed : * mut sys :: godot_method_bind , pub set_index : * mut sys :: godot_method_bind , pub set_position : * mut sys :: godot_method_bind , pub set_relative : * mut sys :: godot_method_bind , pub set_speed : * mut sys :: godot_method_bind } impl InputEventScreenDragMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventScreenDragMethodTable = InputEventScreenDragMethodTable { class_constructor : None , get_index : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , get_relative : 0 as * mut sys :: godot_method_bind , get_speed : 0 as * mut sys :: godot_method_bind , set_index : 0 as * mut sys :: godot_method_bind , set_position : 0 as * mut sys :: godot_method_bind , set_relative : 0 as * mut sys :: godot_method_bind , set_speed : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventScreenDragMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventScreenDrag\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_index = (gd_api . godot_method_bind_get_method) (class_name , "get_index\0" . as_ptr () as * const c_char) ; table . get_position = (gd_api . godot_method_bind_get_method) (class_name , "get_position\0" . as_ptr () as * const c_char) ; table . get_relative = (gd_api . godot_method_bind_get_method) (class_name , "get_relative\0" . as_ptr () as * const c_char) ; table . get_speed = (gd_api . godot_method_bind_get_method) (class_name , "get_speed\0" . as_ptr () as * const c_char) ; table . set_index = (gd_api . godot_method_bind_get_method) (class_name , "set_index\0" . as_ptr () as * const c_char) ; table . set_position = (gd_api . godot_method_bind_get_method) (class_name , "set_position\0" . as_ptr () as * const c_char) ; table . set_relative = (gd_api . godot_method_bind_get_method) (class_name , "set_relative\0" . as_ptr () as * const c_char) ; table . set_speed = (gd_api . godot_method_bind_get_method) (class_name , "set_speed\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:880:9260 [INFO] [stdout] | [INFO] [stdout] 880 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 880 | # [doc = "`core class TextureLayered` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_texturelayered.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nTextureLayered inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct TextureLayered { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Flags (pub i64) ; impl Flags { pub const FLAG_MIPMAPS : Flags = Flags (1i64) ; pub const FLAG_REPEAT : Flags = Flags (2i64) ; pub const FLAG_FILTER : Flags = Flags (4i64) ; pub const FLAGS_DEFAULT : Flags = Flags (4i64) ; } impl From < i64 > for Flags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Flags > for i64 { # [inline] fn from (v : Flags) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl TextureLayered { pub const FLAGS_DEFAULT : i64 = 4i64 ; pub const FLAG_FILTER : i64 = 4i64 ; pub const FLAG_MIPMAPS : i64 = 1i64 ; pub const FLAG_REPEAT : i64 = 2i64 ; } impl TextureLayered { # [doc = "Creates the [Texture3D] or [TextureArray] with specified `width`, `height`, and `depth`. See [enum Image.Format] for `format` options. See [enum Flags] enumerator for `flags` options.\n# Default Arguments\n* `flags` - `4`"] # [doc = ""] # [inline] pub fn create (& self , width : i64 , height : i64 , depth : i64 , format : i64 , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . create ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , width , height , depth , format , flags) ; } } # [doc = "Returns the depth of the texture. Depth is the 3rd dimension (typically Z-axis)."] # [doc = ""] # [inline] pub fn get_depth (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . get_depth ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Specifies which [enum Flags] apply to this texture."] # [doc = ""] # [inline] pub fn flags (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . get_flags ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the current format being used by this texture. See [enum Image.Format] for details."] # [doc = ""] # [inline] pub fn get_format (& self) -> crate :: generated :: image :: Format { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . get_format ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: image :: Format (ret) } } # [doc = "Returns the height of the texture. Height is typically represented by the Y-axis."] # [doc = ""] # [inline] pub fn get_height (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an [Image] resource with the data from specified `layer`."] # [doc = ""] # [inline] pub fn get_layer_data (& self , layer : i64) -> Option < Ref < crate :: generated :: image :: Image , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . get_layer_data ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , layer) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: image :: Image , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the width of the texture. Width is typically represented by the X-axis."] # [doc = ""] # [inline] pub fn get_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . get_width ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Partially sets the data for a specified `layer` by overwriting using the data of the specified `image`. `x_offset` and `y_offset` determine where the [Image] is \"stamped\" over the texture. The `image` must fit within the texture.\n# Default Arguments\n* `mipmap` - `0`"] # [doc = ""] # [inline] pub fn set_data_partial (& self , image : impl AsArg < crate :: generated :: image :: Image > , x_offset : i64 , y_offset : i64 , layer : i64 , mipmap : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . set_data_partial ; let ret = crate :: icalls :: icallptr_void_obj_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , x_offset , y_offset , layer , mipmap) ; } } # [doc = "Specifies which [enum Flags] apply to this texture."] # [doc = ""] # [inline] pub fn set_flags (& self , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . set_flags ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , flags) ; } } # [doc = "Sets the data for the specified layer. Data takes the form of a 2-dimensional [Image] resource."] # [doc = ""] # [inline] pub fn set_layer_data (& self , image : impl AsArg < crate :: generated :: image :: Image > , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureLayeredMethodTable :: get (get_api ()) . set_layer_data ; let ret = crate :: icalls :: icallptr_void_obj_i64 (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , layer) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for TextureLayered { } unsafe impl GodotObject for TextureLayered { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "TextureLayered" } } impl std :: ops :: Deref for TextureLayered { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TextureLayered { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for TextureLayered { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for TextureLayered { } unsafe impl SubClass < crate :: generated :: object :: Object > for TextureLayered { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TextureLayeredMethodTable { pub class_constructor : sys :: godot_class_constructor , pub create : * mut sys :: godot_method_bind , pub get_depth : * mut sys :: godot_method_bind , pub get_flags : * mut sys :: godot_method_bind , pub get_format : * mut sys :: godot_method_bind , pub get_height : * mut sys :: godot_method_bind , pub get_layer_data : * mut sys :: godot_method_bind , pub get_width : * mut sys :: godot_method_bind , pub set_data_partial : * mut sys :: godot_method_bind , pub set_flags : * mut sys :: godot_method_bind , pub set_layer_data : * mut sys :: godot_method_bind } impl TextureLayeredMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TextureLayeredMethodTable = TextureLayeredMethodTable { class_constructor : None , create : 0 as * mut sys :: godot_method_bind , get_depth : 0 as * mut sys :: godot_method_bind , get_flags : 0 as * mut sys :: godot_method_bind , get_format : 0 as * mut sys :: godot_method_bind , get_height : 0 as * mut sys :: godot_method_bind , get_layer_data : 0 as * mut sys :: godot_method_bind , get_width : 0 as * mut sys :: godot_method_bind , set_data_partial : 0 as * mut sys :: godot_method_bind , set_flags : 0 as * mut sys :: godot_method_bind , set_layer_data : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TextureLayeredMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TextureLayered\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . create = (gd_api . godot_method_bind_get_method) (class_name , "create\0" . as_ptr () as * const c_char) ; table . get_depth = (gd_api . godot_method_bind_get_method) (class_name , "get_depth\0" . as_ptr () as * const c_char) ; table . get_flags = (gd_api . godot_method_bind_get_method) (class_name , "get_flags\0" . as_ptr () as * const c_char) ; table . get_format = (gd_api . godot_method_bind_get_method) (class_name , "get_format\0" . as_ptr () as * const c_char) ; table . get_height = (gd_api . godot_method_bind_get_method) (class_name , "get_height\0" . as_ptr () as * const c_char) ; table . get_layer_data = (gd_api . godot_method_bind_get_method) (class_name , "get_layer_data\0" . as_ptr () as * const c_char) ; table . get_width = (gd_api . godot_method_bind_get_method) (class_name , "get_width\0" . as_ptr () as * const c_char) ; table . set_data_partial = (gd_api . godot_method_bind_get_method) (class_name , "set_data_partial\0" . as_ptr () as * const c_char) ; table . set_flags = (gd_api . godot_method_bind_get_method) (class_name , "set_flags\0" . as_ptr () as * const c_char) ; table . set_layer_data = (gd_api . godot_method_bind_get_method) (class_name , "set_layer_data\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:886:21662 [INFO] [stdout] | [INFO] [stdout] 886 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 886 | # [doc = "`core class PhysicsDirectBodyState` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physicsdirectbodystate.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nPhysicsDirectBodyState inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PhysicsDirectBodyState { this : RawObject < Self > , } impl PhysicsDirectBodyState { # [doc = "Adds a constant directional force without affecting rotation.\nThis is equivalent to `add_force(force, Vector3(0,0,0))`."] # [doc = ""] # [inline] pub fn add_central_force (& self , force : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . add_central_force ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , force) ; } } # [doc = "Adds a positioned force to the body. Both the force and the offset from the body origin are in global coordinates."] # [doc = ""] # [inline] pub fn add_force (& self , force : Vector3 , position : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . add_force ; let ret = crate :: icalls :: icallptr_void_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , force , position) ; } } # [doc = "Adds a constant rotational force without affecting position."] # [doc = ""] # [inline] pub fn add_torque (& self , torque : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . add_torque ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Applies a single directional impulse without affecting rotation.\nThis is equivalent to `apply_impulse(Vector3(0, 0, 0), impulse)`."] # [doc = ""] # [inline] pub fn apply_central_impulse (& self , j : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . apply_central_impulse ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , j) ; } } # [doc = "Applies a positioned impulse to the body. An impulse is time-independent! Applying an impulse every frame would result in a framerate-dependent force. For this reason it should only be used when simulating one-time impacts. The position uses the rotation of the global coordinate system, but is centered at the object's origin."] # [doc = ""] # [inline] pub fn apply_impulse (& self , position : Vector3 , j : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . apply_impulse ; let ret = crate :: icalls :: icallptr_void_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , position , j) ; } } # [doc = "Apply a torque impulse (which will be affected by the body mass and shape). This will rotate the body around the vector `j` passed as parameter."] # [doc = ""] # [inline] pub fn apply_torque_impulse (& self , j : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . apply_torque_impulse ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , j) ; } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn angular_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_angular_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn center_of_mass (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_center_of_mass ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the collider's [RID]."] # [doc = ""] # [inline] pub fn get_contact_collider (& self , contact_idx : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider ; let ret = crate :: icalls :: icallptr_rid_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; Rid :: from_sys (ret) } } # [doc = "Returns the collider's object id."] # [doc = ""] # [inline] pub fn get_contact_collider_id (& self , contact_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_id ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ret as _ } } # [doc = "Returns the collider object."] # [doc = ""] # [inline] pub fn get_contact_collider_object (& self , contact_idx : i64) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_object ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the contact position in the collider."] # [doc = ""] # [inline] pub fn get_contact_collider_position (& self , contact_idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_position ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the collider's shape index."] # [doc = ""] # [inline] pub fn get_contact_collider_shape (& self , contact_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_shape ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ret as _ } } # [doc = "Returns the linear velocity vector at the collider's contact point."] # [doc = ""] # [inline] pub fn get_contact_collider_velocity_at_position (& self , contact_idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_collider_velocity_at_position ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the number of contacts this body has with other bodies.\n**Note:** By default, this returns 0 unless bodies are configured to monitor contacts. See [member RigidBody.contact_monitor]."] # [doc = ""] # [inline] pub fn get_contact_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Impulse created by the contact. Only implemented for Bullet physics."] # [doc = ""] # [inline] pub fn get_contact_impulse (& self , contact_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_impulse ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ret as _ } } # [doc = "Returns the local normal at the contact point."] # [doc = ""] # [inline] pub fn get_contact_local_normal (& self , contact_idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_local_normal ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the local position of the contact point."] # [doc = ""] # [inline] pub fn get_contact_local_position (& self , contact_idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_local_position ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; mem :: transmute (ret) } } # [doc = "Returns the local shape index of the collision."] # [doc = ""] # [inline] pub fn get_contact_local_shape (& self , contact_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_contact_local_shape ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , contact_idx) ; ret as _ } } # [doc = "The inverse of the inertia of the body."] # [doc = ""] # [inline] pub fn inverse_inertia (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_inverse_inertia ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The inverse of the mass of the body."] # [doc = ""] # [inline] pub fn inverse_mass (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_inverse_mass ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn linear_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_linear_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn principal_inertia_axes (& self) -> Basis { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_principal_inertia_axes ; let ret = crate :: icalls :: icallptr_basis (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the current state of the space, useful for queries."] # [doc = ""] # [inline] pub fn get_space_state (& self) -> Option < Ref < crate :: generated :: physics_direct_space_state :: PhysicsDirectSpaceState , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_space_state ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_direct_space_state :: PhysicsDirectSpaceState , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The timestep (delta) used for the simulation."] # [doc = ""] # [inline] pub fn step (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_step ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The rate at which the body stops rotating, if there are not any other forces moving it."] # [doc = ""] # [inline] pub fn total_angular_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_total_angular_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The total gravity vector being currently applied to this body."] # [doc = ""] # [inline] pub fn total_gravity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_total_gravity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The rate at which the body stops moving, if there are not any other forces moving it."] # [doc = ""] # [inline] pub fn total_linear_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_total_linear_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's transformation matrix."] # [doc = ""] # [inline] pub fn transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . get_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Calls the built-in force integration code."] # [doc = ""] # [inline] pub fn integrate_forces (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . integrate_forces ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, this body is currently sleeping (not active)."] # [doc = ""] # [inline] pub fn is_sleeping (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . is_sleeping ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn set_angular_velocity (& self , velocity : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . set_angular_velocity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , velocity) ; } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn set_linear_velocity (& self , velocity : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . set_linear_velocity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , velocity) ; } } # [doc = "If `true`, this body is currently sleeping (not active)."] # [doc = ""] # [inline] pub fn set_sleep_state (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . set_sleep_state ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The body's transformation matrix."] # [doc = ""] # [inline] pub fn set_transform (& self , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectBodyStateMethodTable :: get (get_api ()) . set_transform ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , transform) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PhysicsDirectBodyState { } unsafe impl GodotObject for PhysicsDirectBodyState { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "PhysicsDirectBodyState" } } impl std :: ops :: Deref for PhysicsDirectBodyState { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PhysicsDirectBodyState { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for PhysicsDirectBodyState { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PhysicsDirectBodyStateMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_central_force : * mut sys :: godot_method_bind , pub add_force : * mut sys :: godot_method_bind , pub add_torque : * mut sys :: godot_method_bind , pub apply_central_impulse : * mut sys :: godot_method_bind , pub apply_impulse : * mut sys :: godot_method_bind , pub apply_torque_impulse : * mut sys :: godot_method_bind , pub get_angular_velocity : * mut sys :: godot_method_bind , pub get_center_of_mass : * mut sys :: godot_method_bind , pub get_contact_collider : * mut sys :: godot_method_bind , pub get_contact_collider_id : * mut sys :: godot_method_bind , pub get_contact_collider_object : * mut sys :: godot_method_bind , pub get_contact_collider_position : * mut sys :: godot_method_bind , pub get_contact_collider_shape : * mut sys :: godot_method_bind , pub get_contact_collider_velocity_at_position : * mut sys :: godot_method_bind , pub get_contact_count : * mut sys :: godot_method_bind , pub get_contact_impulse : * mut sys :: godot_method_bind , pub get_contact_local_normal : * mut sys :: godot_method_bind , pub get_contact_local_position : * mut sys :: godot_method_bind , pub get_contact_local_shape : * mut sys :: godot_method_bind , pub get_inverse_inertia : * mut sys :: godot_method_bind , pub get_inverse_mass : * mut sys :: godot_method_bind , pub get_linear_velocity : * mut sys :: godot_method_bind , pub get_principal_inertia_axes : * mut sys :: godot_method_bind , pub get_space_state : * mut sys :: godot_method_bind , pub get_step : * mut sys :: godot_method_bind , pub get_total_angular_damp : * mut sys :: godot_method_bind , pub get_total_gravity : * mut sys :: godot_method_bind , pub get_total_linear_damp : * mut sys :: godot_method_bind , pub get_transform : * mut sys :: godot_method_bind , pub integrate_forces : * mut sys :: godot_method_bind , pub is_sleeping : * mut sys :: godot_method_bind , pub set_angular_velocity : * mut sys :: godot_method_bind , pub set_linear_velocity : * mut sys :: godot_method_bind , pub set_sleep_state : * mut sys :: godot_method_bind , pub set_transform : * mut sys :: godot_method_bind } impl PhysicsDirectBodyStateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PhysicsDirectBodyStateMethodTable = PhysicsDirectBodyStateMethodTable { class_constructor : None , add_central_force : 0 as * mut sys :: godot_method_bind , add_force : 0 as * mut sys :: godot_method_bind , add_torque : 0 as * mut sys :: godot_method_bind , apply_central_impulse : 0 as * mut sys :: godot_method_bind , apply_impulse : 0 as * mut sys :: godot_method_bind , apply_torque_impulse : 0 as * mut sys :: godot_method_bind , get_angular_velocity : 0 as * mut sys :: godot_method_bind , get_center_of_mass : 0 as * mut sys :: godot_method_bind , get_contact_collider : 0 as * mut sys :: godot_method_bind , get_contact_collider_id : 0 as * mut sys :: godot_method_bind , get_contact_collider_object : 0 as * mut sys :: godot_method_bind , get_contact_collider_position : 0 as * mut sys :: godot_method_bind , get_contact_collider_shape : 0 as * mut sys :: godot_method_bind , get_contact_collider_velocity_at_position : 0 as * mut sys :: godot_method_bind , get_contact_count : 0 as * mut sys :: godot_method_bind , get_contact_impulse : 0 as * mut sys :: godot_method_bind , get_contact_local_normal : 0 as * mut sys :: godot_method_bind , get_contact_local_position : 0 as * mut sys :: godot_method_bind , get_contact_local_shape : 0 as * mut sys :: godot_method_bind , get_inverse_inertia : 0 as * mut sys :: godot_method_bind , get_inverse_mass : 0 as * mut sys :: godot_method_bind , get_linear_velocity : 0 as * mut sys :: godot_method_bind , get_principal_inertia_axes : 0 as * mut sys :: godot_method_bind , get_space_state : 0 as * mut sys :: godot_method_bind , get_step : 0 as * mut sys :: godot_method_bind , get_total_angular_damp : 0 as * mut sys :: godot_method_bind , get_total_gravity : 0 as * mut sys :: godot_method_bind , get_total_linear_damp : 0 as * mut sys :: godot_method_bind , get_transform : 0 as * mut sys :: godot_method_bind , integrate_forces : 0 as * mut sys :: godot_method_bind , is_sleeping : 0 as * mut sys :: godot_method_bind , set_angular_velocity : 0 as * mut sys :: godot_method_bind , set_linear_velocity : 0 as * mut sys :: godot_method_bind , set_sleep_state : 0 as * mut sys :: godot_method_bind , set_transform : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PhysicsDirectBodyStateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PhysicsDirectBodyState\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_central_force = (gd_api . godot_method_bind_get_method) (class_name , "add_central_force\0" . as_ptr () as * const c_char) ; table . add_force = (gd_api . godot_method_bind_get_method) (class_name , "add_force\0" . as_ptr () as * const c_char) ; table . add_torque = (gd_api . godot_method_bind_get_method) (class_name , "add_torque\0" . as_ptr () as * const c_char) ; table . apply_central_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_central_impulse\0" . as_ptr () as * const c_char) ; table . apply_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_impulse\0" . as_ptr () as * const c_char) ; table . apply_torque_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_torque_impulse\0" . as_ptr () as * const c_char) ; table . get_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_angular_velocity\0" . as_ptr () as * const c_char) ; table . get_center_of_mass = (gd_api . godot_method_bind_get_method) (class_name , "get_center_of_mass\0" . as_ptr () as * const c_char) ; table . get_contact_collider = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider\0" . as_ptr () as * const c_char) ; table . get_contact_collider_id = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_id\0" . as_ptr () as * const c_char) ; table . get_contact_collider_object = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_object\0" . as_ptr () as * const c_char) ; table . get_contact_collider_position = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_position\0" . as_ptr () as * const c_char) ; table . get_contact_collider_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_shape\0" . as_ptr () as * const c_char) ; table . get_contact_collider_velocity_at_position = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_collider_velocity_at_position\0" . as_ptr () as * const c_char) ; table . get_contact_count = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_count\0" . as_ptr () as * const c_char) ; table . get_contact_impulse = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_impulse\0" . as_ptr () as * const c_char) ; table . get_contact_local_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_local_normal\0" . as_ptr () as * const c_char) ; table . get_contact_local_position = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_local_position\0" . as_ptr () as * const c_char) ; table . get_contact_local_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_contact_local_shape\0" . as_ptr () as * const c_char) ; table . get_inverse_inertia = (gd_api . godot_method_bind_get_method) (class_name , "get_inverse_inertia\0" . as_ptr () as * const c_char) ; table . get_inverse_mass = (gd_api . godot_method_bind_get_method) (class_name , "get_inverse_mass\0" . as_ptr () as * const c_char) ; table . get_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_linear_velocity\0" . as_ptr () as * const c_char) ; table . get_principal_inertia_axes = (gd_api . godot_method_bind_get_method) (class_name , "get_principal_inertia_axes\0" . as_ptr () as * const c_char) ; table . get_space_state = (gd_api . godot_method_bind_get_method) (class_name , "get_space_state\0" . as_ptr () as * const c_char) ; table . get_step = (gd_api . godot_method_bind_get_method) (class_name , "get_step\0" . as_ptr () as * const c_char) ; table . get_total_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_total_angular_damp\0" . as_ptr () as * const c_char) ; table . get_total_gravity = (gd_api . godot_method_bind_get_method) (class_name , "get_total_gravity\0" . as_ptr () as * const c_char) ; table . get_total_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_total_linear_damp\0" . as_ptr () as * const c_char) ; table . get_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_transform\0" . as_ptr () as * const c_char) ; table . integrate_forces = (gd_api . godot_method_bind_get_method) (class_name , "integrate_forces\0" . as_ptr () as * const c_char) ; table . is_sleeping = (gd_api . godot_method_bind_get_method) (class_name , "is_sleeping\0" . as_ptr () as * const c_char) ; table . set_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_angular_velocity\0" . as_ptr () as * const c_char) ; table . set_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_linear_velocity\0" . as_ptr () as * const c_char) ; table . set_sleep_state = (gd_api . godot_method_bind_get_method) (class_name , "set_sleep_state\0" . as_ptr () as * const c_char) ; table . set_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_transform\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:892:4421 [INFO] [stdout] | [INFO] [stdout] 892 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 892 | # [doc = "`core class VideoStreamGDNative` inherits `VideoStream` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_videostreamgdnative.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVideoStreamGDNative inherits methods from:\n - [VideoStream](struct.VideoStream.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VideoStreamGDNative { this : RawObject < Self > , } impl VideoStreamGDNative { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VideoStreamGDNativeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn file (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VideoStreamGDNativeMethodTable :: get (get_api ()) . get_file ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_file (& self , file : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VideoStreamGDNativeMethodTable :: get (get_api ()) . set_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , file . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VideoStreamGDNative { } unsafe impl GodotObject for VideoStreamGDNative { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VideoStreamGDNative" } } impl std :: ops :: Deref for VideoStreamGDNative { type Target = crate :: generated :: video_stream :: VideoStream ; # [inline] fn deref (& self) -> & crate :: generated :: video_stream :: VideoStream { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VideoStreamGDNative { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: video_stream :: VideoStream { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: video_stream :: VideoStream > for VideoStreamGDNative { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VideoStreamGDNative { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VideoStreamGDNative { } unsafe impl SubClass < crate :: generated :: object :: Object > for VideoStreamGDNative { } impl Instanciable for VideoStreamGDNative { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VideoStreamGDNative :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VideoStreamGDNativeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_file : * mut sys :: godot_method_bind , pub set_file : * mut sys :: godot_method_bind } impl VideoStreamGDNativeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VideoStreamGDNativeMethodTable = VideoStreamGDNativeMethodTable { class_constructor : None , get_file : 0 as * mut sys :: godot_method_bind , set_file : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VideoStreamGDNativeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VideoStreamGDNative\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_file = (gd_api . godot_method_bind_get_method) (class_name , "get_file\0" . as_ptr () as * const c_char) ; table . set_file = (gd_api . godot_method_bind_get_method) (class_name , "set_file\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:898:3763 [INFO] [stdout] | [INFO] [stdout] 898 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 898 | # [doc = "`core class VisualShaderNodeDotProduct` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodedotproduct.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeDotProduct inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeDotProduct { this : RawObject < Self > , } impl VisualShaderNodeDotProduct { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeDotProductMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeDotProduct { } unsafe impl GodotObject for VisualShaderNodeDotProduct { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeDotProduct" } } impl std :: ops :: Deref for VisualShaderNodeDotProduct { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeDotProduct { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeDotProduct { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeDotProduct { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeDotProduct { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeDotProduct { } impl Instanciable for VisualShaderNodeDotProduct { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeDotProduct :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeDotProductMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeDotProductMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeDotProductMethodTable = VisualShaderNodeDotProductMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeDotProductMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeDotProduct\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:904:4396 [INFO] [stdout] | [INFO] [stdout] 904 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 904 | # [doc = "`core class InputEventGesture` inherits `InputEventWithModifiers` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventgesture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventGesture inherits methods from:\n - [InputEventWithModifiers](struct.InputEventWithModifiers.html)\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventGesture { this : RawObject < Self > , } impl InputEventGesture { # [doc = "The local gesture position relative to the [Viewport]. If used in [method Control._gui_input], the position is relative to the current [Control] that received this gesture."] # [doc = ""] # [inline] pub fn position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventGestureMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The local gesture position relative to the [Viewport]. If used in [method Control._gui_input], the position is relative to the current [Control] that received this gesture."] # [doc = ""] # [inline] pub fn set_position (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventGestureMethodTable :: get (get_api ()) . set_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventGesture { } unsafe impl GodotObject for InputEventGesture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventGesture" } } impl std :: ops :: Deref for InputEventGesture { type Target = crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers ; # [inline] fn deref (& self) -> & crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventGesture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers > for InputEventGesture { } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventGesture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventGesture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventGesture { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventGesture { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventGestureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_position : * mut sys :: godot_method_bind , pub set_position : * mut sys :: godot_method_bind } impl InputEventGestureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventGestureMethodTable = InputEventGestureMethodTable { class_constructor : None , get_position : 0 as * mut sys :: godot_method_bind , set_position : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventGestureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventGesture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_position = (gd_api . godot_method_bind_get_method) (class_name , "get_position\0" . as_ptr () as * const c_char) ; table . set_position = (gd_api . godot_method_bind_get_method) (class_name , "set_position\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:916:32552 [INFO] [stdout] | [INFO] [stdout] 916 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 916 | # [doc = "`core class Spatial` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_spatial.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Spatial` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nSpatial inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Spatial { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Spatial { pub const NOTIFICATION_ENTER_WORLD : i64 = 41i64 ; pub const NOTIFICATION_EXIT_WORLD : i64 = 42i64 ; pub const NOTIFICATION_TRANSFORM_CHANGED : i64 = 2000i64 ; pub const NOTIFICATION_VISIBILITY_CHANGED : i64 = 43i64 ; } impl Spatial { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = SpatialMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Forces the transform to update. Transform changes in physics are not instant for performance reasons. Transforms are accumulated and then set. Use this if you need an up-to-date transform when doing physics operations."] # [doc = ""] # [inline] pub fn force_update_transform (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . force_update_transform ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The [SpatialGizmo] for this node. Used for example in [EditorSpatialGizmo] as custom visualization and editing handles in Editor."] # [doc = ""] # [inline] pub fn gizmo (& self) -> Option < Ref < crate :: generated :: spatial_gizmo :: SpatialGizmo , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_gizmo ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: spatial_gizmo :: SpatialGizmo , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "World space (global) [Transform] of this node."] # [doc = ""] # [inline] pub fn global_transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_global_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the parent [Spatial], or an empty [Object] if no parent exists or parent is not of type [Spatial]."] # [doc = ""] # [inline] pub fn get_parent_spatial (& self) -> Option < Ref < crate :: generated :: spatial :: Spatial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_parent_spatial ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: spatial :: Spatial , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Rotation part of the local transformation in radians, specified in terms of YXZ-Euler angles in the format (X angle, Y angle, Z angle).\n**Note:** In the mathematical sense, rotation is a matrix and not a vector. The three Euler angles, which are the three independent parameters of the Euler-angle parametrization of the rotation matrix, are stored in a [Vector3] data structure not because the rotation is a vector, but only because [Vector3] exists as a convenient data-structure to store 3 floating-point numbers. Therefore, applying affine operations on the rotation \"vector\" is not meaningful."] # [doc = ""] # [inline] pub fn rotation (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_rotation ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Rotation part of the local transformation in degrees, specified in terms of YXZ-Euler angles in the format (X angle, Y angle, Z angle)."] # [doc = ""] # [inline] pub fn rotation_degrees (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_rotation_degrees ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Scale part of the local transformation."] # [doc = ""] # [inline] pub fn scale (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_scale ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Local space [Transform] of this node, with respect to the parent node."] # [doc = ""] # [inline] pub fn transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Local translation of this node."] # [doc = ""] # [inline] pub fn translation (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_translation ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the current [World] resource this [Spatial] node is registered to."] # [doc = ""] # [inline] pub fn get_world (& self) -> Option < Ref < crate :: generated :: world :: World , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . get_world ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: world :: World , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Rotates the global (world) transformation around axis, a unit [Vector3], by specified angle in radians. The rotation axis is in global coordinate system."] # [doc = ""] # [inline] pub fn global_rotate (& self , axis : Vector3 , angle : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . global_rotate ; let ret = crate :: icalls :: icallptr_void_vec3_f64 (method_bind , self . this . sys () . as_ptr () , axis , angle) ; } } # [doc = "Scales the global (world) transformation by the given [Vector3] scale factors."] # [doc = ""] # [inline] pub fn global_scale (& self , scale : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . global_scale ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Moves the global (world) transformation by [Vector3] offset. The offset is in global coordinate system."] # [doc = ""] # [inline] pub fn global_translate (& self , offset : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . global_translate ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Disables rendering of this node. Changes [member visible] to `false`."] # [doc = ""] # [inline] pub fn hide (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . hide ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns whether node notifies about its local transformation changes. [Spatial] will not propagate this by default."] # [doc = ""] # [inline] pub fn is_local_transform_notification_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . is_local_transform_notification_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether this node uses a scale of `(1, 1, 1)` or its local transformation scale."] # [doc = ""] # [inline] pub fn is_scale_disabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . is_scale_disabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether this node is set as Toplevel, that is whether it ignores its parent nodes transformations."] # [doc = ""] # [inline] pub fn is_set_as_toplevel (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . is_set_as_toplevel ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether the node notifies about its global and local transformation changes. [Spatial] will not propagate this by default."] # [doc = ""] # [inline] pub fn is_transform_notification_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . is_transform_notification_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this node is drawn. The node is only visible if all of its antecedents are visible as well (in other words, [method is_visible_in_tree] must return `true`)."] # [doc = ""] # [inline] pub fn is_visible (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . is_visible ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the node is present in the [SceneTree], its [member visible] property is `true` and all its antecedents are also visible. If any antecedent is hidden, this node will not be visible in the scene tree."] # [doc = ""] # [inline] pub fn is_visible_in_tree (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . is_visible_in_tree ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Rotates itself so that the local -Z axis points towards the `target` position.\nThe transform will first be rotated around the given `up` vector, and then fully aligned to the target by a further rotation around an axis perpendicular to both the `target` and `up` vectors.\nOperations take place in global space."] # [doc = ""] # [inline] pub fn look_at (& self , target : Vector3 , up : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . look_at ; let ret = crate :: icalls :: icallptr_void_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , target , up) ; } } # [doc = "Moves the node to the specified `position`, and then rotates itself to point toward the `target` as per [method look_at]. Operations take place in global space."] # [doc = ""] # [inline] pub fn look_at_from_position (& self , position : Vector3 , target : Vector3 , up : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . look_at_from_position ; let ret = crate :: icalls :: icallptr_void_vec3_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , position , target , up) ; } } # [doc = "Resets this node's transformations (like scale, skew and taper) preserving its rotation and translation by performing Gram-Schmidt orthonormalization on this node's [Transform]."] # [doc = ""] # [inline] pub fn orthonormalize (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . orthonormalize ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Rotates the local transformation around axis, a unit [Vector3], by specified angle in radians."] # [doc = ""] # [inline] pub fn rotate (& self , axis : Vector3 , angle : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . rotate ; let ret = crate :: icalls :: icallptr_void_vec3_f64 (method_bind , self . this . sys () . as_ptr () , axis , angle) ; } } # [doc = "Rotates the local transformation around axis, a unit [Vector3], by specified angle in radians. The rotation axis is in object-local coordinate system."] # [doc = ""] # [inline] pub fn rotate_object_local (& self , axis : Vector3 , angle : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . rotate_object_local ; let ret = crate :: icalls :: icallptr_void_vec3_f64 (method_bind , self . this . sys () . as_ptr () , axis , angle) ; } } # [doc = "Rotates the local transformation around the X axis by angle in radians."] # [doc = ""] # [inline] pub fn rotate_x (& self , angle : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . rotate_x ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angle) ; } } # [doc = "Rotates the local transformation around the Y axis by angle in radians."] # [doc = ""] # [inline] pub fn rotate_y (& self , angle : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . rotate_y ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angle) ; } } # [doc = "Rotates the local transformation around the Z axis by angle in radians."] # [doc = ""] # [inline] pub fn rotate_z (& self , angle : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . rotate_z ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angle) ; } } # [doc = "Scales the local transformation by given 3D scale factors in object-local coordinate system."] # [doc = ""] # [inline] pub fn scale_object_local (& self , scale : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . scale_object_local ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Makes the node ignore its parents transformations. Node transformations are only in global space."] # [doc = ""] # [inline] pub fn set_as_toplevel (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_as_toplevel ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets whether the node uses a scale of `(1, 1, 1)` or its local transformation scale. Changes to the local transformation scale are preserved."] # [doc = ""] # [inline] pub fn set_disable_scale (& self , disable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_disable_scale ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , disable) ; } } # [doc = "The [SpatialGizmo] for this node. Used for example in [EditorSpatialGizmo] as custom visualization and editing handles in Editor."] # [doc = ""] # [inline] pub fn set_gizmo (& self , gizmo : impl AsArg < crate :: generated :: spatial_gizmo :: SpatialGizmo >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_gizmo ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , gizmo . as_arg_ptr ()) ; } } # [doc = "World space (global) [Transform] of this node."] # [doc = ""] # [inline] pub fn set_global_transform (& self , global : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_global_transform ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , global) ; } } # [doc = "Reset all transformations for this node (sets its [Transform] to the identity matrix)."] # [doc = ""] # [inline] pub fn set_identity (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_identity ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sets whether the node ignores notification that its transformation (global or local) changed."] # [doc = ""] # [inline] pub fn set_ignore_transform_notification (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_ignore_transform_notification ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Sets whether the node notifies about its local transformation changes. [Spatial] will not propagate this by default."] # [doc = ""] # [inline] pub fn set_notify_local_transform (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_notify_local_transform ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets whether the node notifies about its global and local transformation changes. [Spatial] will not propagate this by default."] # [doc = ""] # [inline] pub fn set_notify_transform (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_notify_transform ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Rotation part of the local transformation in radians, specified in terms of YXZ-Euler angles in the format (X angle, Y angle, Z angle).\n**Note:** In the mathematical sense, rotation is a matrix and not a vector. The three Euler angles, which are the three independent parameters of the Euler-angle parametrization of the rotation matrix, are stored in a [Vector3] data structure not because the rotation is a vector, but only because [Vector3] exists as a convenient data-structure to store 3 floating-point numbers. Therefore, applying affine operations on the rotation \"vector\" is not meaningful."] # [doc = ""] # [inline] pub fn set_rotation (& self , euler : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_rotation ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , euler) ; } } # [doc = "Rotation part of the local transformation in degrees, specified in terms of YXZ-Euler angles in the format (X angle, Y angle, Z angle)."] # [doc = ""] # [inline] pub fn set_rotation_degrees (& self , euler_degrees : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_rotation_degrees ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , euler_degrees) ; } } # [doc = "Scale part of the local transformation."] # [doc = ""] # [inline] pub fn set_scale (& self , scale : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_scale ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Local space [Transform] of this node, with respect to the parent node."] # [doc = ""] # [inline] pub fn set_transform (& self , local : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_transform ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , local) ; } } # [doc = "Local translation of this node."] # [doc = ""] # [inline] pub fn set_translation (& self , translation : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_translation ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , translation) ; } } # [doc = "If `true`, this node is drawn. The node is only visible if all of its antecedents are visible as well (in other words, [method is_visible_in_tree] must return `true`)."] # [doc = ""] # [inline] pub fn set_visible (& self , visible : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . set_visible ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , visible) ; } } # [doc = "Enables rendering of this node. Changes [member visible] to `true`."] # [doc = ""] # [inline] pub fn show (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . show ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Transforms `local_point` from this node's local space to world space."] # [doc = ""] # [inline] pub fn to_global (& self , local_point : Vector3) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . to_global ; let ret = crate :: icalls :: icallptr_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , local_point) ; mem :: transmute (ret) } } # [doc = "Transforms `global_point` from world space to this node's local space."] # [doc = ""] # [inline] pub fn to_local (& self , global_point : Vector3) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . to_local ; let ret = crate :: icalls :: icallptr_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , global_point) ; mem :: transmute (ret) } } # [doc = "Changes the node's position by the given offset [Vector3].\nNote that the translation `offset` is affected by the node's scale, so if scaled by e.g. `(10, 1, 1)`, a translation by an offset of `(2, 0, 0)` would actually add 20 (`2 * 10`) to the X coordinate."] # [doc = ""] # [inline] pub fn translate (& self , offset : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . translate ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Changes the node's position by the given offset [Vector3] in local space."] # [doc = ""] # [inline] pub fn translate_object_local (& self , offset : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . translate_object_local ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Updates the [SpatialGizmo] of this node."] # [doc = ""] # [inline] pub fn update_gizmo (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialMethodTable :: get (get_api ()) . update_gizmo ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Spatial { } unsafe impl GodotObject for Spatial { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Spatial" } } impl QueueFree for Spatial { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Spatial { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Spatial { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for Spatial { } unsafe impl SubClass < crate :: generated :: object :: Object > for Spatial { } impl Instanciable for Spatial { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Spatial :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SpatialMethodTable { pub class_constructor : sys :: godot_class_constructor , pub force_update_transform : * mut sys :: godot_method_bind , pub get_gizmo : * mut sys :: godot_method_bind , pub get_global_transform : * mut sys :: godot_method_bind , pub get_parent_spatial : * mut sys :: godot_method_bind , pub get_rotation : * mut sys :: godot_method_bind , pub get_rotation_degrees : * mut sys :: godot_method_bind , pub get_scale : * mut sys :: godot_method_bind , pub get_transform : * mut sys :: godot_method_bind , pub get_translation : * mut sys :: godot_method_bind , pub get_world : * mut sys :: godot_method_bind , pub global_rotate : * mut sys :: godot_method_bind , pub global_scale : * mut sys :: godot_method_bind , pub global_translate : * mut sys :: godot_method_bind , pub hide : * mut sys :: godot_method_bind , pub is_local_transform_notification_enabled : * mut sys :: godot_method_bind , pub is_scale_disabled : * mut sys :: godot_method_bind , pub is_set_as_toplevel : * mut sys :: godot_method_bind , pub is_transform_notification_enabled : * mut sys :: godot_method_bind , pub is_visible : * mut sys :: godot_method_bind , pub is_visible_in_tree : * mut sys :: godot_method_bind , pub look_at : * mut sys :: godot_method_bind , pub look_at_from_position : * mut sys :: godot_method_bind , pub orthonormalize : * mut sys :: godot_method_bind , pub rotate : * mut sys :: godot_method_bind , pub rotate_object_local : * mut sys :: godot_method_bind , pub rotate_x : * mut sys :: godot_method_bind , pub rotate_y : * mut sys :: godot_method_bind , pub rotate_z : * mut sys :: godot_method_bind , pub scale_object_local : * mut sys :: godot_method_bind , pub set_as_toplevel : * mut sys :: godot_method_bind , pub set_disable_scale : * mut sys :: godot_method_bind , pub set_gizmo : * mut sys :: godot_method_bind , pub set_global_transform : * mut sys :: godot_method_bind , pub set_identity : * mut sys :: godot_method_bind , pub set_ignore_transform_notification : * mut sys :: godot_method_bind , pub set_notify_local_transform : * mut sys :: godot_method_bind , pub set_notify_transform : * mut sys :: godot_method_bind , pub set_rotation : * mut sys :: godot_method_bind , pub set_rotation_degrees : * mut sys :: godot_method_bind , pub set_scale : * mut sys :: godot_method_bind , pub set_transform : * mut sys :: godot_method_bind , pub set_translation : * mut sys :: godot_method_bind , pub set_visible : * mut sys :: godot_method_bind , pub show : * mut sys :: godot_method_bind , pub to_global : * mut sys :: godot_method_bind , pub to_local : * mut sys :: godot_method_bind , pub translate : * mut sys :: godot_method_bind , pub translate_object_local : * mut sys :: godot_method_bind , pub update_gizmo : * mut sys :: godot_method_bind } impl SpatialMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SpatialMethodTable = SpatialMethodTable { class_constructor : None , force_update_transform : 0 as * mut sys :: godot_method_bind , get_gizmo : 0 as * mut sys :: godot_method_bind , get_global_transform : 0 as * mut sys :: godot_method_bind , get_parent_spatial : 0 as * mut sys :: godot_method_bind , get_rotation : 0 as * mut sys :: godot_method_bind , get_rotation_degrees : 0 as * mut sys :: godot_method_bind , get_scale : 0 as * mut sys :: godot_method_bind , get_transform : 0 as * mut sys :: godot_method_bind , get_translation : 0 as * mut sys :: godot_method_bind , get_world : 0 as * mut sys :: godot_method_bind , global_rotate : 0 as * mut sys :: godot_method_bind , global_scale : 0 as * mut sys :: godot_method_bind , global_translate : 0 as * mut sys :: godot_method_bind , hide : 0 as * mut sys :: godot_method_bind , is_local_transform_notification_enabled : 0 as * mut sys :: godot_method_bind , is_scale_disabled : 0 as * mut sys :: godot_method_bind , is_set_as_toplevel : 0 as * mut sys :: godot_method_bind , is_transform_notification_enabled : 0 as * mut sys :: godot_method_bind , is_visible : 0 as * mut sys :: godot_method_bind , is_visible_in_tree : 0 as * mut sys :: godot_method_bind , look_at : 0 as * mut sys :: godot_method_bind , look_at_from_position : 0 as * mut sys :: godot_method_bind , orthonormalize : 0 as * mut sys :: godot_method_bind , rotate : 0 as * mut sys :: godot_method_bind , rotate_object_local : 0 as * mut sys :: godot_method_bind , rotate_x : 0 as * mut sys :: godot_method_bind , rotate_y : 0 as * mut sys :: godot_method_bind , rotate_z : 0 as * mut sys :: godot_method_bind , scale_object_local : 0 as * mut sys :: godot_method_bind , set_as_toplevel : 0 as * mut sys :: godot_method_bind , set_disable_scale : 0 as * mut sys :: godot_method_bind , set_gizmo : 0 as * mut sys :: godot_method_bind , set_global_transform : 0 as * mut sys :: godot_method_bind , set_identity : 0 as * mut sys :: godot_method_bind , set_ignore_transform_notification : 0 as * mut sys :: godot_method_bind , set_notify_local_transform : 0 as * mut sys :: godot_method_bind , set_notify_transform : 0 as * mut sys :: godot_method_bind , set_rotation : 0 as * mut sys :: godot_method_bind , set_rotation_degrees : 0 as * mut sys :: godot_method_bind , set_scale : 0 as * mut sys :: godot_method_bind , set_transform : 0 as * mut sys :: godot_method_bind , set_translation : 0 as * mut sys :: godot_method_bind , set_visible : 0 as * mut sys :: godot_method_bind , show : 0 as * mut sys :: godot_method_bind , to_global : 0 as * mut sys :: godot_method_bind , to_local : 0 as * mut sys :: godot_method_bind , translate : 0 as * mut sys :: godot_method_bind , translate_object_local : 0 as * mut sys :: godot_method_bind , update_gizmo : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SpatialMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Spatial\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . force_update_transform = (gd_api . godot_method_bind_get_method) (class_name , "force_update_transform\0" . as_ptr () as * const c_char) ; table . get_gizmo = (gd_api . godot_method_bind_get_method) (class_name , "get_gizmo\0" . as_ptr () as * const c_char) ; table . get_global_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_global_transform\0" . as_ptr () as * const c_char) ; table . get_parent_spatial = (gd_api . godot_method_bind_get_method) (class_name , "get_parent_spatial\0" . as_ptr () as * const c_char) ; table . get_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_rotation\0" . as_ptr () as * const c_char) ; table . get_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_rotation_degrees\0" . as_ptr () as * const c_char) ; table . get_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_scale\0" . as_ptr () as * const c_char) ; table . get_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_transform\0" . as_ptr () as * const c_char) ; table . get_translation = (gd_api . godot_method_bind_get_method) (class_name , "get_translation\0" . as_ptr () as * const c_char) ; table . get_world = (gd_api . godot_method_bind_get_method) (class_name , "get_world\0" . as_ptr () as * const c_char) ; table . global_rotate = (gd_api . godot_method_bind_get_method) (class_name , "global_rotate\0" . as_ptr () as * const c_char) ; table . global_scale = (gd_api . godot_method_bind_get_method) (class_name , "global_scale\0" . as_ptr () as * const c_char) ; table . global_translate = (gd_api . godot_method_bind_get_method) (class_name , "global_translate\0" . as_ptr () as * const c_char) ; table . hide = (gd_api . godot_method_bind_get_method) (class_name , "hide\0" . as_ptr () as * const c_char) ; table . is_local_transform_notification_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_local_transform_notification_enabled\0" . as_ptr () as * const c_char) ; table . is_scale_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_scale_disabled\0" . as_ptr () as * const c_char) ; table . is_set_as_toplevel = (gd_api . godot_method_bind_get_method) (class_name , "is_set_as_toplevel\0" . as_ptr () as * const c_char) ; table . is_transform_notification_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_transform_notification_enabled\0" . as_ptr () as * const c_char) ; table . is_visible = (gd_api . godot_method_bind_get_method) (class_name , "is_visible\0" . as_ptr () as * const c_char) ; table . is_visible_in_tree = (gd_api . godot_method_bind_get_method) (class_name , "is_visible_in_tree\0" . as_ptr () as * const c_char) ; table . look_at = (gd_api . godot_method_bind_get_method) (class_name , "look_at\0" . as_ptr () as * const c_char) ; table . look_at_from_position = (gd_api . godot_method_bind_get_method) (class_name , "look_at_from_position\0" . as_ptr () as * const c_char) ; table . orthonormalize = (gd_api . godot_method_bind_get_method) (class_name , "orthonormalize\0" . as_ptr () as * const c_char) ; table . rotate = (gd_api . godot_method_bind_get_method) (class_name , "rotate\0" . as_ptr () as * const c_char) ; table . rotate_object_local = (gd_api . godot_method_bind_get_method) (class_name , "rotate_object_local\0" . as_ptr () as * const c_char) ; table . rotate_x = (gd_api . godot_method_bind_get_method) (class_name , "rotate_x\0" . as_ptr () as * const c_char) ; table . rotate_y = (gd_api . godot_method_bind_get_method) (class_name , "rotate_y\0" . as_ptr () as * const c_char) ; table . rotate_z = (gd_api . godot_method_bind_get_method) (class_name , "rotate_z\0" . as_ptr () as * const c_char) ; table . scale_object_local = (gd_api . godot_method_bind_get_method) (class_name , "scale_object_local\0" . as_ptr () as * const c_char) ; table . set_as_toplevel = (gd_api . godot_method_bind_get_method) (class_name , "set_as_toplevel\0" . as_ptr () as * const c_char) ; table . set_disable_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_disable_scale\0" . as_ptr () as * const c_char) ; table . set_gizmo = (gd_api . godot_method_bind_get_method) (class_name , "set_gizmo\0" . as_ptr () as * const c_char) ; table . set_global_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_global_transform\0" . as_ptr () as * const c_char) ; table . set_identity = (gd_api . godot_method_bind_get_method) (class_name , "set_identity\0" . as_ptr () as * const c_char) ; table . set_ignore_transform_notification = (gd_api . godot_method_bind_get_method) (class_name , "set_ignore_transform_notification\0" . as_ptr () as * const c_char) ; table . set_notify_local_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_notify_local_transform\0" . as_ptr () as * const c_char) ; table . set_notify_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_notify_transform\0" . as_ptr () as * const c_char) ; table . set_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_rotation\0" . as_ptr () as * const c_char) ; table . set_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_rotation_degrees\0" . as_ptr () as * const c_char) ; table . set_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_scale\0" . as_ptr () as * const c_char) ; table . set_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_transform\0" . as_ptr () as * const c_char) ; table . set_translation = (gd_api . godot_method_bind_get_method) (class_name , "set_translation\0" . as_ptr () as * const c_char) ; table . set_visible = (gd_api . godot_method_bind_get_method) (class_name , "set_visible\0" . as_ptr () as * const c_char) ; table . show = (gd_api . godot_method_bind_get_method) (class_name , "show\0" . as_ptr () as * const c_char) ; table . to_global = (gd_api . godot_method_bind_get_method) (class_name , "to_global\0" . as_ptr () as * const c_char) ; table . to_local = (gd_api . godot_method_bind_get_method) (class_name , "to_local\0" . as_ptr () as * const c_char) ; table . translate = (gd_api . godot_method_bind_get_method) (class_name , "translate\0" . as_ptr () as * const c_char) ; table . translate_object_local = (gd_api . godot_method_bind_get_method) (class_name , "translate_object_local\0" . as_ptr () as * const c_char) ; table . update_gizmo = (gd_api . godot_method_bind_get_method) (class_name , "update_gizmo\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:922:4590 [INFO] [stdout] | [INFO] [stdout] 922 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 922 | # [doc = "`core class CheckButton` inherits `Button` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_checkbutton.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`CheckButton` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nCheckButton inherits methods from:\n - [Button](struct.Button.html)\n - [BaseButton](struct.BaseButton.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct CheckButton { this : RawObject < Self > , } impl CheckButton { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = CheckButtonMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for CheckButton { } unsafe impl GodotObject for CheckButton { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CheckButton" } } impl QueueFree for CheckButton { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for CheckButton { type Target = crate :: generated :: button :: Button ; # [inline] fn deref (& self) -> & crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CheckButton { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: button :: Button > for CheckButton { } unsafe impl SubClass < crate :: generated :: base_button :: BaseButton > for CheckButton { } unsafe impl SubClass < crate :: generated :: control :: Control > for CheckButton { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for CheckButton { } unsafe impl SubClass < crate :: generated :: node :: Node > for CheckButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for CheckButton { } impl Instanciable for CheckButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CheckButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CheckButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl CheckButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CheckButtonMethodTable = CheckButtonMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CheckButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CheckButton\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:928:3498 [INFO] [stdout] | [INFO] [stdout] 928 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 928 | # [doc = "`core singleton class JavaClassWrapper` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_javaclasswrapper.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nJavaClassWrapper inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct JavaClassWrapper { this : RawObject < Self > , } impl JavaClassWrapper { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("JavaClassWrapper\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = ""] # [doc = ""] # [inline] pub fn wrap (& self , name : impl Into < GodotString >) -> Option < Ref < crate :: generated :: java_class :: JavaClass , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = JavaClassWrapperMethodTable :: get (get_api ()) . wrap ; let ret = crate :: icalls :: icallptr_obj_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: java_class :: JavaClass , thread_access :: Shared >> :: move_from_sys (sys)) } } } impl gdnative_core :: private :: godot_object :: Sealed for JavaClassWrapper { } unsafe impl GodotObject for JavaClassWrapper { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "JavaClassWrapper" } } impl std :: ops :: Deref for JavaClassWrapper { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for JavaClassWrapper { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for JavaClassWrapper { } unsafe impl Send for JavaClassWrapper { } unsafe impl Sync for JavaClassWrapper { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JavaClassWrapperMethodTable { pub class_constructor : sys :: godot_class_constructor , pub wrap : * mut sys :: godot_method_bind } impl JavaClassWrapperMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JavaClassWrapperMethodTable = JavaClassWrapperMethodTable { class_constructor : None , wrap : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JavaClassWrapperMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "JavaClassWrapper\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . wrap = (gd_api . godot_method_bind_get_method) (class_name , "wrap\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:934:4781 [INFO] [stdout] | [INFO] [stdout] 934 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 934 | # [doc = "`core class HSplitContainer` inherits `SplitContainer` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_hsplitcontainer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`HSplitContainer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nHSplitContainer inherits methods from:\n - [SplitContainer](struct.SplitContainer.html)\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct HSplitContainer { this : RawObject < Self > , } impl HSplitContainer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = HSplitContainerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for HSplitContainer { } unsafe impl GodotObject for HSplitContainer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "HSplitContainer" } } impl QueueFree for HSplitContainer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for HSplitContainer { type Target = crate :: generated :: split_container :: SplitContainer ; # [inline] fn deref (& self) -> & crate :: generated :: split_container :: SplitContainer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HSplitContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: split_container :: SplitContainer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: split_container :: SplitContainer > for HSplitContainer { } unsafe impl SubClass < crate :: generated :: container :: Container > for HSplitContainer { } unsafe impl SubClass < crate :: generated :: control :: Control > for HSplitContainer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for HSplitContainer { } unsafe impl SubClass < crate :: generated :: node :: Node > for HSplitContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for HSplitContainer { } impl Instanciable for HSplitContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HSplitContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HSplitContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl HSplitContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HSplitContainerMethodTable = HSplitContainerMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { HSplitContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HSplitContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:940:4152 [INFO] [stdout] | [INFO] [stdout] 940 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 940 | # [doc = "`core class Semaphore` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_semaphore.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nSemaphore inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Semaphore { this : RawObject < Self > , } impl Semaphore { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = SemaphoreMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Lowers the [Semaphore], allowing one more thread in. Returns [constant OK] on success, [constant ERR_BUSY] otherwise."] # [doc = ""] # [inline] pub fn post (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SemaphoreMethodTable :: get (get_api ()) . post ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Tries to wait for the [Semaphore], if its value is zero, blocks until non-zero. Returns [constant OK] on success, [constant ERR_BUSY] otherwise."] # [doc = ""] # [inline] pub fn wait (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SemaphoreMethodTable :: get (get_api ()) . wait ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for Semaphore { } unsafe impl GodotObject for Semaphore { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Semaphore" } } impl std :: ops :: Deref for Semaphore { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Semaphore { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Semaphore { } unsafe impl SubClass < crate :: generated :: object :: Object > for Semaphore { } impl Instanciable for Semaphore { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Semaphore :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SemaphoreMethodTable { pub class_constructor : sys :: godot_class_constructor , pub post : * mut sys :: godot_method_bind , pub wait : * mut sys :: godot_method_bind } impl SemaphoreMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SemaphoreMethodTable = SemaphoreMethodTable { class_constructor : None , post : 0 as * mut sys :: godot_method_bind , wait : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SemaphoreMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "_Semaphore\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . post = (gd_api . godot_method_bind_get_method) (class_name , "post\0" . as_ptr () as * const c_char) ; table . wait = (gd_api . godot_method_bind_get_method) (class_name , "wait\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:946:5429 [INFO] [stdout] | [INFO] [stdout] 946 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 946 | # [doc = "`core class VisualShaderNodeColorFunc` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodecolorfunc.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeColorFunc inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeColorFunc { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Function (pub i64) ; impl Function { pub const GRAYSCALE : Function = Function (0i64) ; pub const SEPIA : Function = Function (1i64) ; } impl From < i64 > for Function { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Function > for i64 { # [inline] fn from (v : Function) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShaderNodeColorFunc { pub const FUNC_GRAYSCALE : i64 = 0i64 ; pub const FUNC_SEPIA : i64 = 1i64 ; } impl VisualShaderNodeColorFunc { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeColorFuncMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "A function to be applied to the input color. See [enum Function] for options."] # [doc = ""] # [inline] pub fn function (& self) -> crate :: generated :: visual_shader_node_color_func :: Function { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeColorFuncMethodTable :: get (get_api ()) . get_function ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_color_func :: Function (ret) } } # [doc = "A function to be applied to the input color. See [enum Function] for options."] # [doc = ""] # [inline] pub fn set_function (& self , func : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeColorFuncMethodTable :: get (get_api ()) . set_function ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , func) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeColorFunc { } unsafe impl GodotObject for VisualShaderNodeColorFunc { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeColorFunc" } } impl std :: ops :: Deref for VisualShaderNodeColorFunc { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeColorFunc { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeColorFunc { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeColorFunc { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeColorFunc { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeColorFunc { } impl Instanciable for VisualShaderNodeColorFunc { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeColorFunc :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeColorFuncMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_function : * mut sys :: godot_method_bind , pub set_function : * mut sys :: godot_method_bind } impl VisualShaderNodeColorFuncMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeColorFuncMethodTable = VisualShaderNodeColorFuncMethodTable { class_constructor : None , get_function : 0 as * mut sys :: godot_method_bind , set_function : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeColorFuncMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeColorFunc\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_function = (gd_api . godot_method_bind_get_method) (class_name , "get_function\0" . as_ptr () as * const c_char) ; table . set_function = (gd_api . godot_method_bind_get_method) (class_name , "set_function\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:952:7068 [INFO] [stdout] | [INFO] [stdout] 952 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 952 | # [doc = "`core class VisualScriptLists` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptlists.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptLists inherits methods from:\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptLists { this : RawObject < Self > , } impl VisualScriptLists { # [doc = ""] # [doc = ""] # [inline] pub fn add_input_data_port (& self , _type : i64 , name : impl Into < GodotString > , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . add_input_data_port ; let ret = crate :: icalls :: icallptr_void_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , _type , name . into () , index) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_output_data_port (& self , _type : i64 , name : impl Into < GodotString > , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . add_output_data_port ; let ret = crate :: icalls :: icallptr_void_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , _type , name . into () , index) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_input_data_port (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . remove_input_data_port ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_output_data_port (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . remove_output_data_port ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_input_data_port_name (& self , index : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . set_input_data_port_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , index , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_input_data_port_type (& self , index : i64 , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . set_input_data_port_type ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , index , _type) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_output_data_port_name (& self , index : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . set_output_data_port_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , index , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_output_data_port_type (& self , index : i64 , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptListsMethodTable :: get (get_api ()) . set_output_data_port_type ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , index , _type) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptLists { } unsafe impl GodotObject for VisualScriptLists { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptLists" } } impl std :: ops :: Deref for VisualScriptLists { type Target = crate :: generated :: visual_script_node :: VisualScriptNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptLists { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_node :: VisualScriptNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptLists { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptLists { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptLists { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptLists { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptListsMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_input_data_port : * mut sys :: godot_method_bind , pub add_output_data_port : * mut sys :: godot_method_bind , pub remove_input_data_port : * mut sys :: godot_method_bind , pub remove_output_data_port : * mut sys :: godot_method_bind , pub set_input_data_port_name : * mut sys :: godot_method_bind , pub set_input_data_port_type : * mut sys :: godot_method_bind , pub set_output_data_port_name : * mut sys :: godot_method_bind , pub set_output_data_port_type : * mut sys :: godot_method_bind } impl VisualScriptListsMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptListsMethodTable = VisualScriptListsMethodTable { class_constructor : None , add_input_data_port : 0 as * mut sys :: godot_method_bind , add_output_data_port : 0 as * mut sys :: godot_method_bind , remove_input_data_port : 0 as * mut sys :: godot_method_bind , remove_output_data_port : 0 as * mut sys :: godot_method_bind , set_input_data_port_name : 0 as * mut sys :: godot_method_bind , set_input_data_port_type : 0 as * mut sys :: godot_method_bind , set_output_data_port_name : 0 as * mut sys :: godot_method_bind , set_output_data_port_type : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptListsMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptLists\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_input_data_port = (gd_api . godot_method_bind_get_method) (class_name , "add_input_data_port\0" . as_ptr () as * const c_char) ; table . add_output_data_port = (gd_api . godot_method_bind_get_method) (class_name , "add_output_data_port\0" . as_ptr () as * const c_char) ; table . remove_input_data_port = (gd_api . godot_method_bind_get_method) (class_name , "remove_input_data_port\0" . as_ptr () as * const c_char) ; table . remove_output_data_port = (gd_api . godot_method_bind_get_method) (class_name , "remove_output_data_port\0" . as_ptr () as * const c_char) ; table . set_input_data_port_name = (gd_api . godot_method_bind_get_method) (class_name , "set_input_data_port_name\0" . as_ptr () as * const c_char) ; table . set_input_data_port_type = (gd_api . godot_method_bind_get_method) (class_name , "set_input_data_port_type\0" . as_ptr () as * const c_char) ; table . set_output_data_port_name = (gd_api . godot_method_bind_get_method) (class_name , "set_output_data_port_name\0" . as_ptr () as * const c_char) ; table . set_output_data_port_type = (gd_api . godot_method_bind_get_method) (class_name , "set_output_data_port_type\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:958:18076 [INFO] [stdout] | [INFO] [stdout] 958 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 958 | # [doc = "`core class RayCast` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_raycast.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RayCast` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRayCast inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RayCast { this : RawObject < Self > , } impl RayCast { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RayCastMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a collision exception so the ray does not report collisions with the specified node."] # [doc = ""] # [inline] pub fn add_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . add_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Adds a collision exception so the ray does not report collisions with the specified [RID]."] # [doc = ""] # [inline] pub fn add_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . add_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "Removes all collision exceptions for this ray."] # [doc = ""] # [inline] pub fn clear_exceptions (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . clear_exceptions ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Updates the collision information for the ray.\nUse this method to update the collision information immediately instead of waiting for the next `_physics_process` call, for example if the ray or its parent has changed state.\n**Note:** `enabled` is not required for this to work."] # [doc = ""] # [inline] pub fn force_raycast_update (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . force_raycast_update ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The ray's destination point, relative to the RayCast's `position`."] # [doc = ""] # [inline] pub fn cast_to (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_cast_to ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the first object that the ray intersects, or `null` if no object is intersecting the ray (i.e. [method is_colliding] returns `false`)."] # [doc = ""] # [inline] pub fn get_collider (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_collider ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the shape ID of the first object that the ray intersects, or `0` if no object is intersecting the ray (i.e. [method is_colliding] returns `false`)."] # [doc = ""] # [inline] pub fn get_collider_shape (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_collider_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The ray's collision mask. Only objects in at least one collision layer enabled in the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_collision_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the bit index passed is turned on.\n**Note:** Bit indices range from 0-19."] # [doc = ""] # [inline] pub fn get_collision_mask_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_collision_mask_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = "Returns the normal of the intersecting object's shape at the collision point."] # [doc = ""] # [inline] pub fn get_collision_normal (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_collision_normal ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the collision point at which the ray intersects the closest object.\n**Note:** This point is in the **global** coordinate system."] # [doc = ""] # [inline] pub fn get_collision_point (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_collision_point ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, collisions will be ignored for this RayCast's immediate parent."] # [doc = ""] # [inline] pub fn exclude_parent_body (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . get_exclude_parent_body ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision with [Area]s will be reported."] # [doc = ""] # [inline] pub fn is_collide_with_areas_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . is_collide_with_areas_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision with [PhysicsBody]s will be reported."] # [doc = ""] # [inline] pub fn is_collide_with_bodies_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . is_collide_with_bodies_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether any object is intersecting with the ray's vector (considering the vector length)."] # [doc = ""] # [inline] pub fn is_colliding (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . is_colliding ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collisions will be reported."] # [doc = ""] # [inline] pub fn is_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . is_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes a collision exception so the ray does report collisions with the specified node."] # [doc = ""] # [inline] pub fn remove_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . remove_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Removes a collision exception so the ray does report collisions with the specified [RID]."] # [doc = ""] # [inline] pub fn remove_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . remove_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "The ray's destination point, relative to the RayCast's `position`."] # [doc = ""] # [inline] pub fn set_cast_to (& self , local_point : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . set_cast_to ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , local_point) ; } } # [doc = "If `true`, collision with [Area]s will be reported."] # [doc = ""] # [inline] pub fn set_collide_with_areas (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . set_collide_with_areas ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, collision with [PhysicsBody]s will be reported."] # [doc = ""] # [inline] pub fn set_collide_with_bodies (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . set_collide_with_bodies ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The ray's collision mask. Only objects in at least one collision layer enabled in the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_mask (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . set_collision_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mask) ; } } # [doc = "Sets the bit index passed to the `value` passed.\n**Note:** Bit indexes range from 0-19."] # [doc = ""] # [inline] pub fn set_collision_mask_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . set_collision_mask_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = "If `true`, collisions will be reported."] # [doc = ""] # [inline] pub fn set_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . set_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, collisions will be ignored for this RayCast's immediate parent."] # [doc = ""] # [inline] pub fn set_exclude_parent_body (& self , mask : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCastMethodTable :: get (get_api ()) . set_exclude_parent_body ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , mask) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RayCast { } unsafe impl GodotObject for RayCast { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RayCast" } } impl QueueFree for RayCast { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RayCast { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RayCast { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for RayCast { } unsafe impl SubClass < crate :: generated :: node :: Node > for RayCast { } unsafe impl SubClass < crate :: generated :: object :: Object > for RayCast { } impl Instanciable for RayCast { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RayCast :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RayCastMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_exception : * mut sys :: godot_method_bind , pub add_exception_rid : * mut sys :: godot_method_bind , pub clear_exceptions : * mut sys :: godot_method_bind , pub force_raycast_update : * mut sys :: godot_method_bind , pub get_cast_to : * mut sys :: godot_method_bind , pub get_collider : * mut sys :: godot_method_bind , pub get_collider_shape : * mut sys :: godot_method_bind , pub get_collision_mask : * mut sys :: godot_method_bind , pub get_collision_mask_bit : * mut sys :: godot_method_bind , pub get_collision_normal : * mut sys :: godot_method_bind , pub get_collision_point : * mut sys :: godot_method_bind , pub get_exclude_parent_body : * mut sys :: godot_method_bind , pub is_collide_with_areas_enabled : * mut sys :: godot_method_bind , pub is_collide_with_bodies_enabled : * mut sys :: godot_method_bind , pub is_colliding : * mut sys :: godot_method_bind , pub is_enabled : * mut sys :: godot_method_bind , pub remove_exception : * mut sys :: godot_method_bind , pub remove_exception_rid : * mut sys :: godot_method_bind , pub set_cast_to : * mut sys :: godot_method_bind , pub set_collide_with_areas : * mut sys :: godot_method_bind , pub set_collide_with_bodies : * mut sys :: godot_method_bind , pub set_collision_mask : * mut sys :: godot_method_bind , pub set_collision_mask_bit : * mut sys :: godot_method_bind , pub set_enabled : * mut sys :: godot_method_bind , pub set_exclude_parent_body : * mut sys :: godot_method_bind } impl RayCastMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RayCastMethodTable = RayCastMethodTable { class_constructor : None , add_exception : 0 as * mut sys :: godot_method_bind , add_exception_rid : 0 as * mut sys :: godot_method_bind , clear_exceptions : 0 as * mut sys :: godot_method_bind , force_raycast_update : 0 as * mut sys :: godot_method_bind , get_cast_to : 0 as * mut sys :: godot_method_bind , get_collider : 0 as * mut sys :: godot_method_bind , get_collider_shape : 0 as * mut sys :: godot_method_bind , get_collision_mask : 0 as * mut sys :: godot_method_bind , get_collision_mask_bit : 0 as * mut sys :: godot_method_bind , get_collision_normal : 0 as * mut sys :: godot_method_bind , get_collision_point : 0 as * mut sys :: godot_method_bind , get_exclude_parent_body : 0 as * mut sys :: godot_method_bind , is_collide_with_areas_enabled : 0 as * mut sys :: godot_method_bind , is_collide_with_bodies_enabled : 0 as * mut sys :: godot_method_bind , is_colliding : 0 as * mut sys :: godot_method_bind , is_enabled : 0 as * mut sys :: godot_method_bind , remove_exception : 0 as * mut sys :: godot_method_bind , remove_exception_rid : 0 as * mut sys :: godot_method_bind , set_cast_to : 0 as * mut sys :: godot_method_bind , set_collide_with_areas : 0 as * mut sys :: godot_method_bind , set_collide_with_bodies : 0 as * mut sys :: godot_method_bind , set_collision_mask : 0 as * mut sys :: godot_method_bind , set_collision_mask_bit : 0 as * mut sys :: godot_method_bind , set_enabled : 0 as * mut sys :: godot_method_bind , set_exclude_parent_body : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RayCastMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RayCast\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_exception = (gd_api . godot_method_bind_get_method) (class_name , "add_exception\0" . as_ptr () as * const c_char) ; table . add_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "add_exception_rid\0" . as_ptr () as * const c_char) ; table . clear_exceptions = (gd_api . godot_method_bind_get_method) (class_name , "clear_exceptions\0" . as_ptr () as * const c_char) ; table . force_raycast_update = (gd_api . godot_method_bind_get_method) (class_name , "force_raycast_update\0" . as_ptr () as * const c_char) ; table . get_cast_to = (gd_api . godot_method_bind_get_method) (class_name , "get_cast_to\0" . as_ptr () as * const c_char) ; table . get_collider = (gd_api . godot_method_bind_get_method) (class_name , "get_collider\0" . as_ptr () as * const c_char) ; table . get_collider_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_shape\0" . as_ptr () as * const c_char) ; table . get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask\0" . as_ptr () as * const c_char) ; table . get_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . get_collision_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_normal\0" . as_ptr () as * const c_char) ; table . get_collision_point = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_point\0" . as_ptr () as * const c_char) ; table . get_exclude_parent_body = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude_parent_body\0" . as_ptr () as * const c_char) ; table . is_collide_with_areas_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_areas_enabled\0" . as_ptr () as * const c_char) ; table . is_collide_with_bodies_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_bodies_enabled\0" . as_ptr () as * const c_char) ; table . is_colliding = (gd_api . godot_method_bind_get_method) (class_name , "is_colliding\0" . as_ptr () as * const c_char) ; table . is_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_enabled\0" . as_ptr () as * const c_char) ; table . remove_exception = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception\0" . as_ptr () as * const c_char) ; table . remove_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception_rid\0" . as_ptr () as * const c_char) ; table . set_cast_to = (gd_api . godot_method_bind_get_method) (class_name , "set_cast_to\0" . as_ptr () as * const c_char) ; table . set_collide_with_areas = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_areas\0" . as_ptr () as * const c_char) ; table . set_collide_with_bodies = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_bodies\0" . as_ptr () as * const c_char) ; table . set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask\0" . as_ptr () as * const c_char) ; table . set_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_enabled\0" . as_ptr () as * const c_char) ; table . set_exclude_parent_body = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude_parent_body\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:964:3083 [INFO] [stdout] | [INFO] [stdout] 964 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 964 | # [doc = "`core class AudioStream` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audiostream.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioStream inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioStream { this : RawObject < Self > , } impl AudioStream { # [doc = "Returns the length of the audio stream in seconds."] # [doc = ""] # [inline] pub fn get_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamMethodTable :: get (get_api ()) . get_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioStream { } unsafe impl GodotObject for AudioStream { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioStream" } } impl std :: ops :: Deref for AudioStream { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioStream { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioStream { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioStream { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioStream { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioStreamMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_length : * mut sys :: godot_method_bind } impl AudioStreamMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioStreamMethodTable = AudioStreamMethodTable { class_constructor : None , get_length : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioStreamMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioStream\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_length = (gd_api . godot_method_bind_get_method) (class_name , "get_length\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:970:8557 [INFO] [stdout] | [INFO] [stdout] 970 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 970 | # [doc = "`core class InputEventMouseMotion` inherits `InputEventMouse` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventmousemotion.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventMouseMotion inherits methods from:\n - [InputEventMouse](struct.InputEventMouse.html)\n - [InputEventWithModifiers](struct.InputEventWithModifiers.html)\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventMouseMotion { this : RawObject < Self > , } impl InputEventMouseMotion { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = InputEventMouseMotionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Represents the pressure the user puts on the pen. Ranges from `0.0` to `1.0`."] # [doc = ""] # [inline] pub fn pressure (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . get_pressure ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The mouse position relative to the previous position (position at the last frame).\n**Note:** Since [InputEventMouseMotion] is only emitted when the mouse moves, the last event won't have a relative position of `Vector2(0, 0)` when the user stops moving the mouse."] # [doc = ""] # [inline] pub fn relative (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . get_relative ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The mouse speed in pixels per second."] # [doc = ""] # [inline] pub fn speed (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . get_speed ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Represents the angles of tilt of the pen. Positive X-coordinate value indicates a tilt to the right. Positive Y-coordinate value indicates a tilt toward the user. Ranges from `-1.0` to `1.0` for both axes."] # [doc = ""] # [inline] pub fn tilt (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . get_tilt ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Represents the pressure the user puts on the pen. Ranges from `0.0` to `1.0`."] # [doc = ""] # [inline] pub fn set_pressure (& self , pressure : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . set_pressure ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , pressure) ; } } # [doc = "The mouse position relative to the previous position (position at the last frame).\n**Note:** Since [InputEventMouseMotion] is only emitted when the mouse moves, the last event won't have a relative position of `Vector2(0, 0)` when the user stops moving the mouse."] # [doc = ""] # [inline] pub fn set_relative (& self , relative : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . set_relative ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , relative) ; } } # [doc = "The mouse speed in pixels per second."] # [doc = ""] # [inline] pub fn set_speed (& self , speed : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . set_speed ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , speed) ; } } # [doc = "Represents the angles of tilt of the pen. Positive X-coordinate value indicates a tilt to the right. Positive Y-coordinate value indicates a tilt toward the user. Ranges from `-1.0` to `1.0` for both axes."] # [doc = ""] # [inline] pub fn set_tilt (& self , tilt : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMotionMethodTable :: get (get_api ()) . set_tilt ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , tilt) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventMouseMotion { } unsafe impl GodotObject for InputEventMouseMotion { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventMouseMotion" } } impl std :: ops :: Deref for InputEventMouseMotion { type Target = crate :: generated :: input_event_mouse :: InputEventMouse ; # [inline] fn deref (& self) -> & crate :: generated :: input_event_mouse :: InputEventMouse { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventMouseMotion { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event_mouse :: InputEventMouse { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event_mouse :: InputEventMouse > for InputEventMouseMotion { } unsafe impl SubClass < crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers > for InputEventMouseMotion { } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventMouseMotion { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventMouseMotion { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventMouseMotion { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventMouseMotion { } impl Instanciable for InputEventMouseMotion { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventMouseMotion :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventMouseMotionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_pressure : * mut sys :: godot_method_bind , pub get_relative : * mut sys :: godot_method_bind , pub get_speed : * mut sys :: godot_method_bind , pub get_tilt : * mut sys :: godot_method_bind , pub set_pressure : * mut sys :: godot_method_bind , pub set_relative : * mut sys :: godot_method_bind , pub set_speed : * mut sys :: godot_method_bind , pub set_tilt : * mut sys :: godot_method_bind } impl InputEventMouseMotionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventMouseMotionMethodTable = InputEventMouseMotionMethodTable { class_constructor : None , get_pressure : 0 as * mut sys :: godot_method_bind , get_relative : 0 as * mut sys :: godot_method_bind , get_speed : 0 as * mut sys :: godot_method_bind , get_tilt : 0 as * mut sys :: godot_method_bind , set_pressure : 0 as * mut sys :: godot_method_bind , set_relative : 0 as * mut sys :: godot_method_bind , set_speed : 0 as * mut sys :: godot_method_bind , set_tilt : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventMouseMotionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventMouseMotion\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_pressure = (gd_api . godot_method_bind_get_method) (class_name , "get_pressure\0" . as_ptr () as * const c_char) ; table . get_relative = (gd_api . godot_method_bind_get_method) (class_name , "get_relative\0" . as_ptr () as * const c_char) ; table . get_speed = (gd_api . godot_method_bind_get_method) (class_name , "get_speed\0" . as_ptr () as * const c_char) ; table . get_tilt = (gd_api . godot_method_bind_get_method) (class_name , "get_tilt\0" . as_ptr () as * const c_char) ; table . set_pressure = (gd_api . godot_method_bind_get_method) (class_name , "set_pressure\0" . as_ptr () as * const c_char) ; table . set_relative = (gd_api . godot_method_bind_get_method) (class_name , "set_relative\0" . as_ptr () as * const c_char) ; table . set_speed = (gd_api . godot_method_bind_get_method) (class_name , "set_speed\0" . as_ptr () as * const c_char) ; table . set_tilt = (gd_api . godot_method_bind_get_method) (class_name , "set_tilt\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:976:3784 [INFO] [stdout] | [INFO] [stdout] 976 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 976 | # [doc = "`core class VisualShaderNodeVectorClamp` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorclamp.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorClamp inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorClamp { this : RawObject < Self > , } impl VisualShaderNodeVectorClamp { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeVectorClampMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVectorClamp { } unsafe impl GodotObject for VisualShaderNodeVectorClamp { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorClamp" } } impl std :: ops :: Deref for VisualShaderNodeVectorClamp { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeVectorClamp { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeVectorClamp { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorClamp { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorClamp { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorClamp { } impl Instanciable for VisualShaderNodeVectorClamp { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorClamp :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorClampMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorClampMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorClampMethodTable = VisualShaderNodeVectorClampMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeVectorClampMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorClamp\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:982:36596 [INFO] [stdout] | [INFO] [stdout] 982 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 982 | # [doc = "`core class SceneTree` inherits `MainLoop` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_scenetree.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`SceneTree` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nSceneTree inherits methods from:\n - [MainLoop](struct.MainLoop.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct SceneTree { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct GroupCallFlags (pub i64) ; impl GroupCallFlags { pub const DEFAULT : GroupCallFlags = GroupCallFlags (0i64) ; pub const REVERSE : GroupCallFlags = GroupCallFlags (1i64) ; pub const REALTIME : GroupCallFlags = GroupCallFlags (2i64) ; pub const UNIQUE : GroupCallFlags = GroupCallFlags (4i64) ; } impl From < i64 > for GroupCallFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < GroupCallFlags > for i64 { # [inline] fn from (v : GroupCallFlags) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct StretchAspect (pub i64) ; impl StretchAspect { pub const IGNORE : StretchAspect = StretchAspect (0i64) ; pub const KEEP : StretchAspect = StretchAspect (1i64) ; pub const KEEP_WIDTH : StretchAspect = StretchAspect (2i64) ; pub const KEEP_HEIGHT : StretchAspect = StretchAspect (3i64) ; pub const EXPAND : StretchAspect = StretchAspect (4i64) ; } impl From < i64 > for StretchAspect { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < StretchAspect > for i64 { # [inline] fn from (v : StretchAspect) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct StretchMode (pub i64) ; impl StretchMode { pub const DISABLED : StretchMode = StretchMode (0i64) ; pub const _2D : StretchMode = StretchMode (1i64) ; pub const VIEWPORT : StretchMode = StretchMode (2i64) ; } impl From < i64 > for StretchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < StretchMode > for i64 { # [inline] fn from (v : StretchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl SceneTree { pub const GROUP_CALL_DEFAULT : i64 = 0i64 ; pub const GROUP_CALL_REALTIME : i64 = 2i64 ; pub const GROUP_CALL_REVERSE : i64 = 1i64 ; pub const GROUP_CALL_UNIQUE : i64 = 4i64 ; pub const STRETCH_ASPECT_EXPAND : i64 = 4i64 ; pub const STRETCH_ASPECT_IGNORE : i64 = 0i64 ; pub const STRETCH_ASPECT_KEEP : i64 = 1i64 ; pub const STRETCH_ASPECT_KEEP_HEIGHT : i64 = 3i64 ; pub const STRETCH_ASPECT_KEEP_WIDTH : i64 = 2i64 ; pub const STRETCH_MODE_2D : i64 = 1i64 ; pub const STRETCH_MODE_DISABLED : i64 = 0i64 ; pub const STRETCH_MODE_VIEWPORT : i64 = 2i64 ; } impl SceneTree { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = SceneTreeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Calls `method` on each member of the given group."] # [doc = ""] # [inline] pub fn call_group (& self , group : impl Into < GodotString > , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . call_group ; let ret = crate :: icalls :: icallvarargs__str_str (method_bind , self . this . sys () . as_ptr () , group . into () , method . into () , varargs) ; ret } } # [doc = "Calls `method` on each member of the given group, respecting the given [enum GroupCallFlags]."] # [doc = ""] # [inline] pub fn call_group_flags (& self , flags : i64 , group : impl Into < GodotString > , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . call_group_flags ; let ret = crate :: icalls :: icallvarargs__i64_str_str (method_bind , self . this . sys () . as_ptr () , flags , group . into () , method . into () , varargs) ; ret } } # [doc = "Changes the running scene to the one at the given `path`, after loading it into a [PackedScene] and creating a new instance.\nReturns [constant OK] on success, [constant ERR_CANT_OPEN] if the `path` cannot be loaded into a [PackedScene], or [constant ERR_CANT_CREATE] if that scene cannot be instantiated."] # [doc = ""] # [inline] pub fn change_scene (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . change_scene ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Changes the running scene to a new instance of the given [PackedScene].\nReturns [constant OK] on success or [constant ERR_CANT_CREATE] if the scene cannot be instantiated."] # [doc = ""] # [inline] pub fn change_scene_to (& self , packed_scene : impl AsArg < crate :: generated :: packed_scene :: PackedScene >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . change_scene_to ; let ret = crate :: icalls :: icallptr_i64_obj (method_bind , self . this . sys () . as_ptr () , packed_scene . as_arg_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns a [SceneTreeTimer] which will [signal SceneTreeTimer.timeout] after the given time in seconds elapsed in this [SceneTree]. If `pause_mode_process` is set to `false`, pausing the [SceneTree] will also pause the timer.\nCommonly used to create a one-shot delay timer as in the following example:\n```gdscript\nfunc some_function():\n print(\"start\")\n yield(get_tree().create_timer(1.0), \"timeout\")\n print(\"end\")\n```\n# Default Arguments\n* `pause_mode_process` - `true`"] # [doc = ""] # [inline] pub fn create_timer (& self , time_sec : f64 , pause_mode_process : bool) -> Option < Ref < crate :: generated :: scene_tree_timer :: SceneTreeTimer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . create_timer ; let ret = crate :: icalls :: icallptr_obj_f64_bool (method_bind , self . this . sys () . as_ptr () , time_sec , pause_mode_process) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: scene_tree_timer :: SceneTreeTimer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The current scene."] # [doc = ""] # [inline] pub fn current_scene (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_current_scene ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The root of the edited scene."] # [doc = ""] # [inline] pub fn edited_scene_root (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_edited_scene_root ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the current frame number, i.e. the total frame count since the application started."] # [doc = ""] # [inline] pub fn get_frame (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_frame ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The default [MultiplayerAPI] instance for this [SceneTree]."] # [doc = ""] # [inline] pub fn multiplayer (& self) -> Option < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_multiplayer ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the peer IDs of all connected peers of this [SceneTree]'s [member network_peer]."] # [doc = ""] # [inline] pub fn get_network_connected_peers (& self) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_network_connected_peers ; let ret = crate :: icalls :: icallptr_i32arr (method_bind , self . this . sys () . as_ptr ()) ; Int32Array :: from_sys (ret) } } # [doc = "The peer object to handle the RPC system (effectively enabling networking when set). Depending on the peer itself, the [SceneTree] will become a network server (check with [method is_network_server]) and will set the root node's network mode to master, or it will become a regular peer with the root node set to puppet. All child nodes are set to inherit the network mode by default. Handling of networking-related events (connection, disconnection, new clients) is done by connecting to [SceneTree]'s signals."] # [doc = ""] # [inline] pub fn network_peer (& self) -> Option < Ref < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_network_peer ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the unique peer ID of this [SceneTree]'s [member network_peer]."] # [doc = ""] # [inline] pub fn get_network_unique_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_network_unique_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the number of nodes in this [SceneTree]."] # [doc = ""] # [inline] pub fn get_node_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_node_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a list of all nodes assigned to the given group."] # [doc = ""] # [inline] pub fn get_nodes_in_group (& self , group : impl Into < GodotString >) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_nodes_in_group ; let ret = crate :: icalls :: icallvar__str (method_bind , self . this . sys () . as_ptr () , group . into ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "The [SceneTree]'s root [Viewport]."] # [doc = ""] # [inline] pub fn root (& self) -> Option < Ref < crate :: generated :: viewport :: Viewport , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_root ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: viewport :: Viewport , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the sender's peer ID for the most recently received RPC call."] # [doc = ""] # [inline] pub fn get_rpc_sender_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_rpc_sender_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the given group exists."] # [doc = ""] # [inline] pub fn has_group (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . has_group ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if there is a [member network_peer] set."] # [doc = ""] # [inline] pub fn has_network_peer (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . has_network_peer ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision shapes will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn is_debugging_collisions_hint (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_debugging_collisions_hint ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, navigation polygons will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn is_debugging_navigation_hint (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_debugging_navigation_hint ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the most recent [InputEvent] was marked as handled with [method set_input_as_handled]."] # [doc = ""] # [inline] pub fn is_input_handled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_input_handled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true` (default value), enables automatic polling of the [MultiplayerAPI] for this SceneTree during [signal idle_frame].\nIf `false`, you need to manually call [method MultiplayerAPI.poll] to process network packets and deliver RPCs/RSETs. This allows running RPCs/RSETs in a different loop (e.g. physics, thread, specific time step) and for manual [Mutex] protection when accessing the [MultiplayerAPI] from threads."] # [doc = ""] # [inline] pub fn is_multiplayer_poll_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_multiplayer_poll_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this [SceneTree]'s [member network_peer] is in server mode (listening for connections)."] # [doc = ""] # [inline] pub fn is_network_server (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_network_server ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the [SceneTree] is paused. Doing so will have the following behavior:\n- 2D and 3D physics will be stopped.\n- [method Node._process], [method Node._physics_process] and [method Node._input] will not be called anymore in nodes."] # [doc = ""] # [inline] pub fn is_paused (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_paused ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the [SceneTree]'s [member network_peer] refuses new incoming connections."] # [doc = ""] # [inline] pub fn is_refusing_new_network_connections (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_refusing_new_network_connections ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, font oversampling is used."] # [doc = ""] # [inline] pub fn is_using_font_oversampling (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_using_font_oversampling ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sends the given notification to all members of the `group`."] # [doc = ""] # [inline] pub fn notify_group (& self , group : impl Into < GodotString > , notification : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . notify_group ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , group . into () , notification) ; } } # [doc = "Sends the given notification to all members of the `group`, respecting the given [enum GroupCallFlags]."] # [doc = ""] # [inline] pub fn notify_group_flags (& self , call_flags : i64 , group : impl Into < GodotString > , notification : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . notify_group_flags ; let ret = crate :: icalls :: icallptr_void_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , call_flags , group . into () , notification) ; } } # [doc = "Queues the given object for deletion, delaying the call to [method Object.free] to after the current frame."] # [doc = ""] # [inline] pub fn queue_delete (& self , obj : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . queue_delete ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , obj . as_arg_ptr ()) ; } } # [doc = "Quits the application. A process `exit_code` can optionally be passed as an argument. If this argument is `0` or greater, it will override the [member OS.exit_code] defined before quitting the application.\n# Default Arguments\n* `exit_code` - `-1`"] # [doc = ""] # [inline] pub fn quit (& self , exit_code : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . quit ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , exit_code) ; } } # [doc = "Reloads the currently active scene.\nReturns [constant OK] on success, [constant ERR_UNCONFIGURED] if no [member current_scene] was defined yet, [constant ERR_CANT_OPEN] if [member current_scene] cannot be loaded into a [PackedScene], or [constant ERR_CANT_CREATE] if the scene cannot be instantiated."] # [doc = ""] # [inline] pub fn reload_current_scene (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . reload_current_scene ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "If `true`, the application automatically accepts quitting. Enabled by default.\nFor mobile platforms, see [method set_quit_on_go_back]."] # [doc = ""] # [inline] pub fn set_auto_accept_quit (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_auto_accept_quit ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The current scene."] # [doc = ""] # [inline] pub fn set_current_scene (& self , child_node : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_current_scene ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , child_node . as_arg_ptr ()) ; } } # [doc = "If `true`, collision shapes will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn set_debug_collisions_hint (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_debug_collisions_hint ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, navigation polygons will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn set_debug_navigation_hint (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_debug_navigation_hint ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The root of the edited scene."] # [doc = ""] # [inline] pub fn set_edited_scene_root (& self , scene : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_edited_scene_root ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , scene . as_arg_ptr ()) ; } } # [doc = "Sets the given `property` to `value` on all members of the given group."] # [doc = ""] # [inline] pub fn set_group (& self , group : impl Into < GodotString > , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_group ; let ret = crate :: icalls :: icallptr_void_str_str_var (method_bind , self . this . sys () . as_ptr () , group . into () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Sets the given `property` to `value` on all members of the given group, respecting the given [enum GroupCallFlags]."] # [doc = ""] # [inline] pub fn set_group_flags (& self , call_flags : i64 , group : impl Into < GodotString > , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_group_flags ; let ret = crate :: icalls :: icallptr_void_i64_str_str_var (method_bind , self . this . sys () . as_ptr () , call_flags , group . into () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Marks the most recent [InputEvent] as handled."] # [doc = ""] # [inline] pub fn set_input_as_handled (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_input_as_handled ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The default [MultiplayerAPI] instance for this [SceneTree]."] # [doc = ""] # [inline] pub fn set_multiplayer (& self , multiplayer : impl AsArg < crate :: generated :: multiplayer_api :: MultiplayerAPI >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_multiplayer ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , multiplayer . as_arg_ptr ()) ; } } # [doc = "If `true` (default value), enables automatic polling of the [MultiplayerAPI] for this SceneTree during [signal idle_frame].\nIf `false`, you need to manually call [method MultiplayerAPI.poll] to process network packets and deliver RPCs/RSETs. This allows running RPCs/RSETs in a different loop (e.g. physics, thread, specific time step) and for manual [Mutex] protection when accessing the [MultiplayerAPI] from threads."] # [doc = ""] # [inline] pub fn set_multiplayer_poll_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_multiplayer_poll_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The peer object to handle the RPC system (effectively enabling networking when set). Depending on the peer itself, the [SceneTree] will become a network server (check with [method is_network_server]) and will set the root node's network mode to master, or it will become a regular peer with the root node set to puppet. All child nodes are set to inherit the network mode by default. Handling of networking-related events (connection, disconnection, new clients) is done by connecting to [SceneTree]'s signals."] # [doc = ""] # [inline] pub fn set_network_peer (& self , peer : impl AsArg < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_network_peer ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , peer . as_arg_ptr ()) ; } } # [doc = "If `true`, the [SceneTree] is paused. Doing so will have the following behavior:\n- 2D and 3D physics will be stopped.\n- [method Node._process], [method Node._physics_process] and [method Node._input] will not be called anymore in nodes."] # [doc = ""] # [inline] pub fn set_pause (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_pause ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the application quits automatically on going back (e.g. on Android). Enabled by default.\nTo handle 'Go Back' button when this option is disabled, use [constant MainLoop.NOTIFICATION_WM_GO_BACK_REQUEST]."] # [doc = ""] # [inline] pub fn set_quit_on_go_back (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_quit_on_go_back ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the [SceneTree]'s [member network_peer] refuses new incoming connections."] # [doc = ""] # [inline] pub fn set_refuse_new_network_connections (& self , refuse : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_refuse_new_network_connections ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , refuse) ; } } # [doc = "Configures screen stretching to the given [enum StretchMode], [enum StretchAspect], minimum size and `shrink` ratio.\n# Default Arguments\n* `shrink` - `1`"] # [doc = ""] # [inline] pub fn set_screen_stretch (& self , mode : i64 , aspect : i64 , minsize : Vector2 , shrink : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_screen_stretch ; let ret = crate :: icalls :: icallptr_void_i64_i64_vec2_f64 (method_bind , self . this . sys () . as_ptr () , mode , aspect , minsize , shrink) ; } } # [doc = "If `true`, font oversampling is used."] # [doc = ""] # [inline] pub fn set_use_font_oversampling (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_use_font_oversampling ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SceneTree { } unsafe impl GodotObject for SceneTree { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "SceneTree" } } impl std :: ops :: Deref for SceneTree { type Target = crate :: generated :: main_loop :: MainLoop ; # [inline] fn deref (& self) -> & crate :: generated :: main_loop :: MainLoop { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SceneTree { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: main_loop :: MainLoop { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: main_loop :: MainLoop > for SceneTree { } unsafe impl SubClass < crate :: generated :: object :: Object > for SceneTree { } impl Instanciable for SceneTree { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SceneTree :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SceneTreeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub call_group : * mut sys :: godot_method_bind , pub call_group_flags : * mut sys :: godot_method_bind , pub change_scene : * mut sys :: godot_method_bind , pub change_scene_to : * mut sys :: godot_method_bind , pub create_timer : * mut sys :: godot_method_bind , pub get_current_scene : * mut sys :: godot_method_bind , pub get_edited_scene_root : * mut sys :: godot_method_bind , pub get_frame : * mut sys :: godot_method_bind , pub get_multiplayer : * mut sys :: godot_method_bind , pub get_network_connected_peers : * mut sys :: godot_method_bind , pub get_network_peer : * mut sys :: godot_method_bind , pub get_network_unique_id : * mut sys :: godot_method_bind , pub get_node_count : * mut sys :: godot_method_bind , pub get_nodes_in_group : * mut sys :: godot_method_bind , pub get_root : * mut sys :: godot_method_bind , pub get_rpc_sender_id : * mut sys :: godot_method_bind , pub has_group : * mut sys :: godot_method_bind , pub has_network_peer : * mut sys :: godot_method_bind , pub is_debugging_collisions_hint : * mut sys :: godot_method_bind , pub is_debugging_navigation_hint : * mut sys :: godot_method_bind , pub is_input_handled : * mut sys :: godot_method_bind , pub is_multiplayer_poll_enabled : * mut sys :: godot_method_bind , pub is_network_server : * mut sys :: godot_method_bind , pub is_paused : * mut sys :: godot_method_bind , pub is_refusing_new_network_connections : * mut sys :: godot_method_bind , pub is_using_font_oversampling : * mut sys :: godot_method_bind , pub notify_group : * mut sys :: godot_method_bind , pub notify_group_flags : * mut sys :: godot_method_bind , pub queue_delete : * mut sys :: godot_method_bind , pub quit : * mut sys :: godot_method_bind , pub reload_current_scene : * mut sys :: godot_method_bind , pub set_auto_accept_quit : * mut sys :: godot_method_bind , pub set_current_scene : * mut sys :: godot_method_bind , pub set_debug_collisions_hint : * mut sys :: godot_method_bind , pub set_debug_navigation_hint : * mut sys :: godot_method_bind , pub set_edited_scene_root : * mut sys :: godot_method_bind , pub set_group : * mut sys :: godot_method_bind , pub set_group_flags : * mut sys :: godot_method_bind , pub set_input_as_handled : * mut sys :: godot_method_bind , pub set_multiplayer : * mut sys :: godot_method_bind , pub set_multiplayer_poll_enabled : * mut sys :: godot_method_bind , pub set_network_peer : * mut sys :: godot_method_bind , pub set_pause : * mut sys :: godot_method_bind , pub set_quit_on_go_back : * mut sys :: godot_method_bind , pub set_refuse_new_network_connections : * mut sys :: godot_method_bind , pub set_screen_stretch : * mut sys :: godot_method_bind , pub set_use_font_oversampling : * mut sys :: godot_method_bind } impl SceneTreeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SceneTreeMethodTable = SceneTreeMethodTable { class_constructor : None , call_group : 0 as * mut sys :: godot_method_bind , call_group_flags : 0 as * mut sys :: godot_method_bind , change_scene : 0 as * mut sys :: godot_method_bind , change_scene_to : 0 as * mut sys :: godot_method_bind , create_timer : 0 as * mut sys :: godot_method_bind , get_current_scene : 0 as * mut sys :: godot_method_bind , get_edited_scene_root : 0 as * mut sys :: godot_method_bind , get_frame : 0 as * mut sys :: godot_method_bind , get_multiplayer : 0 as * mut sys :: godot_method_bind , get_network_connected_peers : 0 as * mut sys :: godot_method_bind , get_network_peer : 0 as * mut sys :: godot_method_bind , get_network_unique_id : 0 as * mut sys :: godot_method_bind , get_node_count : 0 as * mut sys :: godot_method_bind , get_nodes_in_group : 0 as * mut sys :: godot_method_bind , get_root : 0 as * mut sys :: godot_method_bind , get_rpc_sender_id : 0 as * mut sys :: godot_method_bind , has_group : 0 as * mut sys :: godot_method_bind , has_network_peer : 0 as * mut sys :: godot_method_bind , is_debugging_collisions_hint : 0 as * mut sys :: godot_method_bind , is_debugging_navigation_hint : 0 as * mut sys :: godot_method_bind , is_input_handled : 0 as * mut sys :: godot_method_bind , is_multiplayer_poll_enabled : 0 as * mut sys :: godot_method_bind , is_network_server : 0 as * mut sys :: godot_method_bind , is_paused : 0 as * mut sys :: godot_method_bind , is_refusing_new_network_connections : 0 as * mut sys :: godot_method_bind , is_using_font_oversampling : 0 as * mut sys :: godot_method_bind , notify_group : 0 as * mut sys :: godot_method_bind , notify_group_flags : 0 as * mut sys :: godot_method_bind , queue_delete : 0 as * mut sys :: godot_method_bind , quit : 0 as * mut sys :: godot_method_bind , reload_current_scene : 0 as * mut sys :: godot_method_bind , set_auto_accept_quit : 0 as * mut sys :: godot_method_bind , set_current_scene : 0 as * mut sys :: godot_method_bind , set_debug_collisions_hint : 0 as * mut sys :: godot_method_bind , set_debug_navigation_hint : 0 as * mut sys :: godot_method_bind , set_edited_scene_root : 0 as * mut sys :: godot_method_bind , set_group : 0 as * mut sys :: godot_method_bind , set_group_flags : 0 as * mut sys :: godot_method_bind , set_input_as_handled : 0 as * mut sys :: godot_method_bind , set_multiplayer : 0 as * mut sys :: godot_method_bind , set_multiplayer_poll_enabled : 0 as * mut sys :: godot_method_bind , set_network_peer : 0 as * mut sys :: godot_method_bind , set_pause : 0 as * mut sys :: godot_method_bind , set_quit_on_go_back : 0 as * mut sys :: godot_method_bind , set_refuse_new_network_connections : 0 as * mut sys :: godot_method_bind , set_screen_stretch : 0 as * mut sys :: godot_method_bind , set_use_font_oversampling : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SceneTreeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SceneTree\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . call_group = (gd_api . godot_method_bind_get_method) (class_name , "call_group\0" . as_ptr () as * const c_char) ; table . call_group_flags = (gd_api . godot_method_bind_get_method) (class_name , "call_group_flags\0" . as_ptr () as * const c_char) ; table . change_scene = (gd_api . godot_method_bind_get_method) (class_name , "change_scene\0" . as_ptr () as * const c_char) ; table . change_scene_to = (gd_api . godot_method_bind_get_method) (class_name , "change_scene_to\0" . as_ptr () as * const c_char) ; table . create_timer = (gd_api . godot_method_bind_get_method) (class_name , "create_timer\0" . as_ptr () as * const c_char) ; table . get_current_scene = (gd_api . godot_method_bind_get_method) (class_name , "get_current_scene\0" . as_ptr () as * const c_char) ; table . get_edited_scene_root = (gd_api . godot_method_bind_get_method) (class_name , "get_edited_scene_root\0" . as_ptr () as * const c_char) ; table . get_frame = (gd_api . godot_method_bind_get_method) (class_name , "get_frame\0" . as_ptr () as * const c_char) ; table . get_multiplayer = (gd_api . godot_method_bind_get_method) (class_name , "get_multiplayer\0" . as_ptr () as * const c_char) ; table . get_network_connected_peers = (gd_api . godot_method_bind_get_method) (class_name , "get_network_connected_peers\0" . as_ptr () as * const c_char) ; table . get_network_peer = (gd_api . godot_method_bind_get_method) (class_name , "get_network_peer\0" . as_ptr () as * const c_char) ; table . get_network_unique_id = (gd_api . godot_method_bind_get_method) (class_name , "get_network_unique_id\0" . as_ptr () as * const c_char) ; table . get_node_count = (gd_api . godot_method_bind_get_method) (class_name , "get_node_count\0" . as_ptr () as * const c_char) ; table . get_nodes_in_group = (gd_api . godot_method_bind_get_method) (class_name , "get_nodes_in_group\0" . as_ptr () as * const c_char) ; table . get_root = (gd_api . godot_method_bind_get_method) (class_name , "get_root\0" . as_ptr () as * const c_char) ; table . get_rpc_sender_id = (gd_api . godot_method_bind_get_method) (class_name , "get_rpc_sender_id\0" . as_ptr () as * const c_char) ; table . has_group = (gd_api . godot_method_bind_get_method) (class_name , "has_group\0" . as_ptr () as * const c_char) ; table . has_network_peer = (gd_api . godot_method_bind_get_method) (class_name , "has_network_peer\0" . as_ptr () as * const c_char) ; table . is_debugging_collisions_hint = (gd_api . godot_method_bind_get_method) (class_name , "is_debugging_collisions_hint\0" . as_ptr () as * const c_char) ; table . is_debugging_navigation_hint = (gd_api . godot_method_bind_get_method) (class_name , "is_debugging_navigation_hint\0" . as_ptr () as * const c_char) ; table . is_input_handled = (gd_api . godot_method_bind_get_method) (class_name , "is_input_handled\0" . as_ptr () as * const c_char) ; table . is_multiplayer_poll_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_multiplayer_poll_enabled\0" . as_ptr () as * const c_char) ; table . is_network_server = (gd_api . godot_method_bind_get_method) (class_name , "is_network_server\0" . as_ptr () as * const c_char) ; table . is_paused = (gd_api . godot_method_bind_get_method) (class_name , "is_paused\0" . as_ptr () as * const c_char) ; table . is_refusing_new_network_connections = (gd_api . godot_method_bind_get_method) (class_name , "is_refusing_new_network_connections\0" . as_ptr () as * const c_char) ; table . is_using_font_oversampling = (gd_api . godot_method_bind_get_method) (class_name , "is_using_font_oversampling\0" . as_ptr () as * const c_char) ; table . notify_group = (gd_api . godot_method_bind_get_method) (class_name , "notify_group\0" . as_ptr () as * const c_char) ; table . notify_group_flags = (gd_api . godot_method_bind_get_method) (class_name , "notify_group_flags\0" . as_ptr () as * const c_char) ; table . queue_delete = (gd_api . godot_method_bind_get_method) (class_name , "queue_delete\0" . as_ptr () as * const c_char) ; table . quit = (gd_api . godot_method_bind_get_method) (class_name , "quit\0" . as_ptr () as * const c_char) ; table . reload_current_scene = (gd_api . godot_method_bind_get_method) (class_name , "reload_current_scene\0" . as_ptr () as * const c_char) ; table . set_auto_accept_quit = (gd_api . godot_method_bind_get_method) (class_name , "set_auto_accept_quit\0" . as_ptr () as * const c_char) ; table . set_current_scene = (gd_api . godot_method_bind_get_method) (class_name , "set_current_scene\0" . as_ptr () as * const c_char) ; table . set_debug_collisions_hint = (gd_api . godot_method_bind_get_method) (class_name , "set_debug_collisions_hint\0" . as_ptr () as * const c_char) ; table . set_debug_navigation_hint = (gd_api . godot_method_bind_get_method) (class_name , "set_debug_navigation_hint\0" . as_ptr () as * const c_char) ; table . set_edited_scene_root = (gd_api . godot_method_bind_get_method) (class_name , "set_edited_scene_root\0" . as_ptr () as * const c_char) ; table . set_group = (gd_api . godot_method_bind_get_method) (class_name , "set_group\0" . as_ptr () as * const c_char) ; table . set_group_flags = (gd_api . godot_method_bind_get_method) (class_name , "set_group_flags\0" . as_ptr () as * const c_char) ; table . set_input_as_handled = (gd_api . godot_method_bind_get_method) (class_name , "set_input_as_handled\0" . as_ptr () as * const c_char) ; table . set_multiplayer = (gd_api . godot_method_bind_get_method) (class_name , "set_multiplayer\0" . as_ptr () as * const c_char) ; table . set_multiplayer_poll_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_multiplayer_poll_enabled\0" . as_ptr () as * const c_char) ; table . set_network_peer = (gd_api . godot_method_bind_get_method) (class_name , "set_network_peer\0" . as_ptr () as * const c_char) ; table . set_pause = (gd_api . godot_method_bind_get_method) (class_name , "set_pause\0" . as_ptr () as * const c_char) ; table . set_quit_on_go_back = (gd_api . godot_method_bind_get_method) (class_name , "set_quit_on_go_back\0" . as_ptr () as * const c_char) ; table . set_refuse_new_network_connections = (gd_api . godot_method_bind_get_method) (class_name , "set_refuse_new_network_connections\0" . as_ptr () as * const c_char) ; table . set_screen_stretch = (gd_api . godot_method_bind_get_method) (class_name , "set_screen_stretch\0" . as_ptr () as * const c_char) ; table . set_use_font_oversampling = (gd_api . godot_method_bind_get_method) (class_name , "set_use_font_oversampling\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:988:14674 [INFO] [stdout] | [INFO] [stdout] 988 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 988 | # [doc = "`core class Light` inherits `VisualInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_light.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nLight inherits methods from:\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Light { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BakeMode (pub i64) ; impl BakeMode { pub const DISABLED : BakeMode = BakeMode (0i64) ; pub const INDIRECT : BakeMode = BakeMode (1i64) ; pub const ALL : BakeMode = BakeMode (2i64) ; } impl From < i64 > for BakeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BakeMode > for i64 { # [inline] fn from (v : BakeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Param (pub i64) ; impl Param { pub const ENERGY : Param = Param (0i64) ; pub const INDIRECT_ENERGY : Param = Param (1i64) ; pub const SPECULAR : Param = Param (2i64) ; pub const RANGE : Param = Param (3i64) ; pub const ATTENUATION : Param = Param (4i64) ; pub const SPOT_ANGLE : Param = Param (5i64) ; pub const SPOT_ATTENUATION : Param = Param (6i64) ; pub const CONTACT_SHADOW_SIZE : Param = Param (7i64) ; pub const SHADOW_MAX_DISTANCE : Param = Param (8i64) ; pub const SHADOW_SPLIT_1_OFFSET : Param = Param (9i64) ; pub const SHADOW_SPLIT_2_OFFSET : Param = Param (10i64) ; pub const SHADOW_SPLIT_3_OFFSET : Param = Param (11i64) ; pub const SHADOW_NORMAL_BIAS : Param = Param (12i64) ; pub const SHADOW_BIAS : Param = Param (13i64) ; pub const SHADOW_BIAS_SPLIT_SCALE : Param = Param (14i64) ; pub const MAX : Param = Param (15i64) ; } impl From < i64 > for Param { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Param > for i64 { # [inline] fn from (v : Param) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Light { pub const BAKE_ALL : i64 = 2i64 ; pub const BAKE_DISABLED : i64 = 0i64 ; pub const BAKE_INDIRECT : i64 = 1i64 ; pub const PARAM_ATTENUATION : i64 = 4i64 ; pub const PARAM_CONTACT_SHADOW_SIZE : i64 = 7i64 ; pub const PARAM_ENERGY : i64 = 0i64 ; pub const PARAM_INDIRECT_ENERGY : i64 = 1i64 ; pub const PARAM_MAX : i64 = 15i64 ; pub const PARAM_RANGE : i64 = 3i64 ; pub const PARAM_SHADOW_BIAS : i64 = 13i64 ; pub const PARAM_SHADOW_BIAS_SPLIT_SCALE : i64 = 14i64 ; pub const PARAM_SHADOW_MAX_DISTANCE : i64 = 8i64 ; pub const PARAM_SHADOW_NORMAL_BIAS : i64 = 12i64 ; pub const PARAM_SHADOW_SPLIT_1_OFFSET : i64 = 9i64 ; pub const PARAM_SHADOW_SPLIT_2_OFFSET : i64 = 10i64 ; pub const PARAM_SHADOW_SPLIT_3_OFFSET : i64 = 11i64 ; pub const PARAM_SPECULAR : i64 = 2i64 ; pub const PARAM_SPOT_ANGLE : i64 = 5i64 ; pub const PARAM_SPOT_ATTENUATION : i64 = 6i64 ; } impl Light { # [doc = "The light's bake mode. See [enum BakeMode]."] # [doc = ""] # [inline] pub fn bake_mode (& self) -> crate :: generated :: light :: BakeMode { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . get_bake_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: light :: BakeMode (ret) } } # [doc = "The light's color. An [i]overbright[/i] color can be used to achieve a result equivalent to increasing the light's [member light_energy]."] # [doc = ""] # [inline] pub fn color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The light will affect objects in the selected layers."] # [doc = ""] # [inline] pub fn cull_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . get_cull_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Attempts to reduce [member shadow_bias] gap."] # [doc = ""] # [inline] pub fn param (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . get_param ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "The color of shadows cast by this light."] # [doc = ""] # [inline] pub fn shadow_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . get_shadow_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, reverses the backface culling of the mesh. This can be useful when you have a flat mesh that has a light behind it. If you need to cast a shadow on both sides of the mesh, set the mesh to use double-sided shadows with [constant GeometryInstance.SHADOW_CASTING_SETTING_DOUBLE_SIDED]."] # [doc = ""] # [inline] pub fn shadow_reverse_cull_face (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . get_shadow_reverse_cull_face ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the light will cast shadows."] # [doc = ""] # [inline] pub fn has_shadow (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . has_shadow ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the light only appears in the editor and will not be visible at runtime."] # [doc = ""] # [inline] pub fn is_editor_only (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . is_editor_only ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the light's effect is reversed, darkening areas and casting bright shadows."] # [doc = ""] # [inline] pub fn is_negative (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . is_negative ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The light's bake mode. See [enum BakeMode]."] # [doc = ""] # [inline] pub fn set_bake_mode (& self , bake_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_bake_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , bake_mode) ; } } # [doc = "The light's color. An [i]overbright[/i] color can be used to achieve a result equivalent to increasing the light's [member light_energy]."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The light will affect objects in the selected layers."] # [doc = ""] # [inline] pub fn set_cull_mask (& self , cull_mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_cull_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , cull_mask) ; } } # [doc = "If `true`, the light only appears in the editor and will not be visible at runtime."] # [doc = ""] # [inline] pub fn set_editor_only (& self , editor_only : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_editor_only ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , editor_only) ; } } # [doc = "If `true`, the light's effect is reversed, darkening areas and casting bright shadows."] # [doc = ""] # [inline] pub fn set_negative (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_negative ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Attempts to reduce [member shadow_bias] gap."] # [doc = ""] # [inline] pub fn set_param (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_param ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } # [doc = "If `true`, the light will cast shadows."] # [doc = ""] # [inline] pub fn set_shadow (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_shadow ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The color of shadows cast by this light."] # [doc = ""] # [inline] pub fn set_shadow_color (& self , shadow_color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_shadow_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , shadow_color) ; } } # [doc = "If `true`, reverses the backface culling of the mesh. This can be useful when you have a flat mesh that has a light behind it. If you need to cast a shadow on both sides of the mesh, set the mesh to use double-sided shadows with [constant GeometryInstance.SHADOW_CASTING_SETTING_DOUBLE_SIDED]."] # [doc = ""] # [inline] pub fn set_shadow_reverse_cull_face (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LightMethodTable :: get (get_api ()) . set_shadow_reverse_cull_face ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Light { } unsafe impl GodotObject for Light { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Light" } } impl QueueFree for Light { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Light { type Target = crate :: generated :: visual_instance :: VisualInstance ; # [inline] fn deref (& self) -> & crate :: generated :: visual_instance :: VisualInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Light { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_instance :: VisualInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for Light { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for Light { } unsafe impl SubClass < crate :: generated :: node :: Node > for Light { } unsafe impl SubClass < crate :: generated :: object :: Object > for Light { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct LightMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bake_mode : * mut sys :: godot_method_bind , pub get_color : * mut sys :: godot_method_bind , pub get_cull_mask : * mut sys :: godot_method_bind , pub get_param : * mut sys :: godot_method_bind , pub get_shadow_color : * mut sys :: godot_method_bind , pub get_shadow_reverse_cull_face : * mut sys :: godot_method_bind , pub has_shadow : * mut sys :: godot_method_bind , pub is_editor_only : * mut sys :: godot_method_bind , pub is_negative : * mut sys :: godot_method_bind , pub set_bake_mode : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_cull_mask : * mut sys :: godot_method_bind , pub set_editor_only : * mut sys :: godot_method_bind , pub set_negative : * mut sys :: godot_method_bind , pub set_param : * mut sys :: godot_method_bind , pub set_shadow : * mut sys :: godot_method_bind , pub set_shadow_color : * mut sys :: godot_method_bind , pub set_shadow_reverse_cull_face : * mut sys :: godot_method_bind } impl LightMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : LightMethodTable = LightMethodTable { class_constructor : None , get_bake_mode : 0 as * mut sys :: godot_method_bind , get_color : 0 as * mut sys :: godot_method_bind , get_cull_mask : 0 as * mut sys :: godot_method_bind , get_param : 0 as * mut sys :: godot_method_bind , get_shadow_color : 0 as * mut sys :: godot_method_bind , get_shadow_reverse_cull_face : 0 as * mut sys :: godot_method_bind , has_shadow : 0 as * mut sys :: godot_method_bind , is_editor_only : 0 as * mut sys :: godot_method_bind , is_negative : 0 as * mut sys :: godot_method_bind , set_bake_mode : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_cull_mask : 0 as * mut sys :: godot_method_bind , set_editor_only : 0 as * mut sys :: godot_method_bind , set_negative : 0 as * mut sys :: godot_method_bind , set_param : 0 as * mut sys :: godot_method_bind , set_shadow : 0 as * mut sys :: godot_method_bind , set_shadow_color : 0 as * mut sys :: godot_method_bind , set_shadow_reverse_cull_face : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { LightMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Light\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bake_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_bake_mode\0" . as_ptr () as * const c_char) ; table . get_color = (gd_api . godot_method_bind_get_method) (class_name , "get_color\0" . as_ptr () as * const c_char) ; table . get_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_cull_mask\0" . as_ptr () as * const c_char) ; table . get_param = (gd_api . godot_method_bind_get_method) (class_name , "get_param\0" . as_ptr () as * const c_char) ; table . get_shadow_color = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_color\0" . as_ptr () as * const c_char) ; table . get_shadow_reverse_cull_face = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_reverse_cull_face\0" . as_ptr () as * const c_char) ; table . has_shadow = (gd_api . godot_method_bind_get_method) (class_name , "has_shadow\0" . as_ptr () as * const c_char) ; table . is_editor_only = (gd_api . godot_method_bind_get_method) (class_name , "is_editor_only\0" . as_ptr () as * const c_char) ; table . is_negative = (gd_api . godot_method_bind_get_method) (class_name , "is_negative\0" . as_ptr () as * const c_char) ; table . set_bake_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_bake_mode\0" . as_ptr () as * const c_char) ; table . set_color = (gd_api . godot_method_bind_get_method) (class_name , "set_color\0" . as_ptr () as * const c_char) ; table . set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_cull_mask\0" . as_ptr () as * const c_char) ; table . set_editor_only = (gd_api . godot_method_bind_get_method) (class_name , "set_editor_only\0" . as_ptr () as * const c_char) ; table . set_negative = (gd_api . godot_method_bind_get_method) (class_name , "set_negative\0" . as_ptr () as * const c_char) ; table . set_param = (gd_api . godot_method_bind_get_method) (class_name , "set_param\0" . as_ptr () as * const c_char) ; table . set_shadow = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow\0" . as_ptr () as * const c_char) ; table . set_shadow_color = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_color\0" . as_ptr () as * const c_char) ; table . set_shadow_reverse_cull_face = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_reverse_cull_face\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:994:3847 [INFO] [stdout] | [INFO] [stdout] 994 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 994 | # [doc = "`core class VisualShaderNodeVectorDistance` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectordistance.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorDistance inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorDistance { this : RawObject < Self > , } impl VisualShaderNodeVectorDistance { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeVectorDistanceMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVectorDistance { } unsafe impl GodotObject for VisualShaderNodeVectorDistance { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorDistance" } } impl std :: ops :: Deref for VisualShaderNodeVectorDistance { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeVectorDistance { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeVectorDistance { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorDistance { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorDistance { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorDistance { } impl Instanciable for VisualShaderNodeVectorDistance { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorDistance :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorDistanceMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorDistanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorDistanceMethodTable = VisualShaderNodeVectorDistanceMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeVectorDistanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorDistance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1000:12623 [INFO] [stdout] | [INFO] [stdout] 1000 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1000 | # [doc = "`core class Physics2DShapeQueryParameters` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physics2dshapequeryparameters.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPhysics2DShapeQueryParameters inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Physics2DShapeQueryParameters { this : RawObject < Self > , } impl Physics2DShapeQueryParameters { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = Physics2DShapeQueryParametersMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The physics layer(s) the query will take into account (as a bitmask). See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_layer (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . get_collision_layer ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The list of objects or object [RID]s that will be excluded from collisions."] # [doc = ""] # [inline] pub fn exclude (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . get_exclude ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "The collision margin for the shape."] # [doc = ""] # [inline] pub fn margin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . get_margin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The motion of the shape being queried for."] # [doc = ""] # [inline] pub fn motion (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . get_motion ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The queried shape's [RID]. See also [method set_shape]."] # [doc = ""] # [inline] pub fn shape_rid (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . get_shape_rid ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "The queried shape's transform matrix."] # [doc = ""] # [inline] pub fn transform (& self) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . get_transform ; let ret = crate :: icalls :: icallptr_trans2D (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, the query will take [Area2D]s into account."] # [doc = ""] # [inline] pub fn is_collide_with_areas_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . is_collide_with_areas_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the query will take [PhysicsBody2D]s into account."] # [doc = ""] # [inline] pub fn is_collide_with_bodies_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . is_collide_with_bodies_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the query will take [Area2D]s into account."] # [doc = ""] # [inline] pub fn set_collide_with_areas (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_collide_with_areas ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the query will take [PhysicsBody2D]s into account."] # [doc = ""] # [inline] pub fn set_collide_with_bodies (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_collide_with_bodies ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The physics layer(s) the query will take into account (as a bitmask). See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_layer (& self , collision_layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_collision_layer ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , collision_layer) ; } } # [doc = "The list of objects or object [RID]s that will be excluded from collisions."] # [doc = ""] # [inline] pub fn set_exclude (& self , exclude : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_exclude ; let ret = crate :: icalls :: icallptr_void_arr (method_bind , self . this . sys () . as_ptr () , exclude) ; } } # [doc = "The collision margin for the shape."] # [doc = ""] # [inline] pub fn set_margin (& self , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_margin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , margin) ; } } # [doc = "The motion of the shape being queried for."] # [doc = ""] # [inline] pub fn set_motion (& self , motion : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_motion ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , motion) ; } } # [doc = "Sets the [Shape2D] that will be used for collision/intersection queries."] # [doc = ""] # [inline] pub fn set_shape (& self , shape : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_shape ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr ()) ; } } # [doc = "The queried shape's [RID]. See also [method set_shape]."] # [doc = ""] # [inline] pub fn set_shape_rid (& self , shape : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_shape_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , shape) ; } } # [doc = "The queried shape's transform matrix."] # [doc = ""] # [inline] pub fn set_transform (& self , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DShapeQueryParametersMethodTable :: get (get_api ()) . set_transform ; let ret = crate :: icalls :: icallptr_void_trans2D (method_bind , self . this . sys () . as_ptr () , transform) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Physics2DShapeQueryParameters { } unsafe impl GodotObject for Physics2DShapeQueryParameters { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Physics2DShapeQueryParameters" } } impl std :: ops :: Deref for Physics2DShapeQueryParameters { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Physics2DShapeQueryParameters { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Physics2DShapeQueryParameters { } unsafe impl SubClass < crate :: generated :: object :: Object > for Physics2DShapeQueryParameters { } impl Instanciable for Physics2DShapeQueryParameters { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Physics2DShapeQueryParameters :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Physics2DShapeQueryParametersMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_collision_layer : * mut sys :: godot_method_bind , pub get_exclude : * mut sys :: godot_method_bind , pub get_margin : * mut sys :: godot_method_bind , pub get_motion : * mut sys :: godot_method_bind , pub get_shape_rid : * mut sys :: godot_method_bind , pub get_transform : * mut sys :: godot_method_bind , pub is_collide_with_areas_enabled : * mut sys :: godot_method_bind , pub is_collide_with_bodies_enabled : * mut sys :: godot_method_bind , pub set_collide_with_areas : * mut sys :: godot_method_bind , pub set_collide_with_bodies : * mut sys :: godot_method_bind , pub set_collision_layer : * mut sys :: godot_method_bind , pub set_exclude : * mut sys :: godot_method_bind , pub set_margin : * mut sys :: godot_method_bind , pub set_motion : * mut sys :: godot_method_bind , pub set_shape : * mut sys :: godot_method_bind , pub set_shape_rid : * mut sys :: godot_method_bind , pub set_transform : * mut sys :: godot_method_bind } impl Physics2DShapeQueryParametersMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Physics2DShapeQueryParametersMethodTable = Physics2DShapeQueryParametersMethodTable { class_constructor : None , get_collision_layer : 0 as * mut sys :: godot_method_bind , get_exclude : 0 as * mut sys :: godot_method_bind , get_margin : 0 as * mut sys :: godot_method_bind , get_motion : 0 as * mut sys :: godot_method_bind , get_shape_rid : 0 as * mut sys :: godot_method_bind , get_transform : 0 as * mut sys :: godot_method_bind , is_collide_with_areas_enabled : 0 as * mut sys :: godot_method_bind , is_collide_with_bodies_enabled : 0 as * mut sys :: godot_method_bind , set_collide_with_areas : 0 as * mut sys :: godot_method_bind , set_collide_with_bodies : 0 as * mut sys :: godot_method_bind , set_collision_layer : 0 as * mut sys :: godot_method_bind , set_exclude : 0 as * mut sys :: godot_method_bind , set_margin : 0 as * mut sys :: godot_method_bind , set_motion : 0 as * mut sys :: godot_method_bind , set_shape : 0 as * mut sys :: godot_method_bind , set_shape_rid : 0 as * mut sys :: godot_method_bind , set_transform : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Physics2DShapeQueryParametersMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Physics2DShapeQueryParameters\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_layer\0" . as_ptr () as * const c_char) ; table . get_exclude = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude\0" . as_ptr () as * const c_char) ; table . get_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_margin\0" . as_ptr () as * const c_char) ; table . get_motion = (gd_api . godot_method_bind_get_method) (class_name , "get_motion\0" . as_ptr () as * const c_char) ; table . get_shape_rid = (gd_api . godot_method_bind_get_method) (class_name , "get_shape_rid\0" . as_ptr () as * const c_char) ; table . get_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_transform\0" . as_ptr () as * const c_char) ; table . is_collide_with_areas_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_areas_enabled\0" . as_ptr () as * const c_char) ; table . is_collide_with_bodies_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_bodies_enabled\0" . as_ptr () as * const c_char) ; table . set_collide_with_areas = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_areas\0" . as_ptr () as * const c_char) ; table . set_collide_with_bodies = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_bodies\0" . as_ptr () as * const c_char) ; table . set_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_layer\0" . as_ptr () as * const c_char) ; table . set_exclude = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude\0" . as_ptr () as * const c_char) ; table . set_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_margin\0" . as_ptr () as * const c_char) ; table . set_motion = (gd_api . godot_method_bind_get_method) (class_name , "set_motion\0" . as_ptr () as * const c_char) ; table . set_shape = (gd_api . godot_method_bind_get_method) (class_name , "set_shape\0" . as_ptr () as * const c_char) ; table . set_shape_rid = (gd_api . godot_method_bind_get_method) (class_name , "set_shape_rid\0" . as_ptr () as * const c_char) ; table . set_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_transform\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1006:3700 [INFO] [stdout] | [INFO] [stdout] 1006 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1006 | # [doc = "`core class VisualShaderNodeFresnel` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodefresnel.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeFresnel inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeFresnel { this : RawObject < Self > , } impl VisualShaderNodeFresnel { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeFresnelMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeFresnel { } unsafe impl GodotObject for VisualShaderNodeFresnel { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeFresnel" } } impl std :: ops :: Deref for VisualShaderNodeFresnel { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeFresnel { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeFresnel { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeFresnel { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeFresnel { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeFresnel { } impl Instanciable for VisualShaderNodeFresnel { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeFresnel :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeFresnelMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeFresnelMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeFresnelMethodTable = VisualShaderNodeFresnelMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeFresnelMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeFresnel\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1012:7452 [INFO] [stdout] | [INFO] [stdout] 1012 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1012 | # [doc = "`core class World` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_world.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nWorld inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct World { this : RawObject < Self > , } impl World { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = WorldMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Direct access to the world's physics 3D space state. Used for querying current and potential collisions. Must only be accessed from within `_physics_process(delta)`."] # [doc = ""] # [inline] pub fn direct_space_state (& self) -> Option < Ref < crate :: generated :: physics_direct_space_state :: PhysicsDirectSpaceState , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldMethodTable :: get (get_api ()) . get_direct_space_state ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_direct_space_state :: PhysicsDirectSpaceState , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The World's [Environment]."] # [doc = ""] # [inline] pub fn environment (& self) -> Option < Ref < crate :: generated :: environment :: Environment , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldMethodTable :: get (get_api ()) . get_environment ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: environment :: Environment , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The World's fallback_environment will be used if the World's [Environment] fails or is missing."] # [doc = ""] # [inline] pub fn fallback_environment (& self) -> Option < Ref < crate :: generated :: environment :: Environment , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldMethodTable :: get (get_api ()) . get_fallback_environment ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: environment :: Environment , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The World's visual scenario."] # [doc = ""] # [inline] pub fn scenario (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldMethodTable :: get (get_api ()) . get_scenario ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "The World's physics space."] # [doc = ""] # [inline] pub fn space (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldMethodTable :: get (get_api ()) . get_space ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "The World's [Environment]."] # [doc = ""] # [inline] pub fn set_environment (& self , env : impl AsArg < crate :: generated :: environment :: Environment >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldMethodTable :: get (get_api ()) . set_environment ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , env . as_arg_ptr ()) ; } } # [doc = "The World's fallback_environment will be used if the World's [Environment] fails or is missing."] # [doc = ""] # [inline] pub fn set_fallback_environment (& self , env : impl AsArg < crate :: generated :: environment :: Environment >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldMethodTable :: get (get_api ()) . set_fallback_environment ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , env . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for World { } unsafe impl GodotObject for World { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "World" } } impl std :: ops :: Deref for World { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for World { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for World { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for World { } unsafe impl SubClass < crate :: generated :: object :: Object > for World { } impl Instanciable for World { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { World :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WorldMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_direct_space_state : * mut sys :: godot_method_bind , pub get_environment : * mut sys :: godot_method_bind , pub get_fallback_environment : * mut sys :: godot_method_bind , pub get_scenario : * mut sys :: godot_method_bind , pub get_space : * mut sys :: godot_method_bind , pub set_environment : * mut sys :: godot_method_bind , pub set_fallback_environment : * mut sys :: godot_method_bind } impl WorldMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WorldMethodTable = WorldMethodTable { class_constructor : None , get_direct_space_state : 0 as * mut sys :: godot_method_bind , get_environment : 0 as * mut sys :: godot_method_bind , get_fallback_environment : 0 as * mut sys :: godot_method_bind , get_scenario : 0 as * mut sys :: godot_method_bind , get_space : 0 as * mut sys :: godot_method_bind , set_environment : 0 as * mut sys :: godot_method_bind , set_fallback_environment : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { WorldMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "World\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_direct_space_state = (gd_api . godot_method_bind_get_method) (class_name , "get_direct_space_state\0" . as_ptr () as * const c_char) ; table . get_environment = (gd_api . godot_method_bind_get_method) (class_name , "get_environment\0" . as_ptr () as * const c_char) ; table . get_fallback_environment = (gd_api . godot_method_bind_get_method) (class_name , "get_fallback_environment\0" . as_ptr () as * const c_char) ; table . get_scenario = (gd_api . godot_method_bind_get_method) (class_name , "get_scenario\0" . as_ptr () as * const c_char) ; table . get_space = (gd_api . godot_method_bind_get_method) (class_name , "get_space\0" . as_ptr () as * const c_char) ; table . set_environment = (gd_api . godot_method_bind_get_method) (class_name , "set_environment\0" . as_ptr () as * const c_char) ; table . set_fallback_environment = (gd_api . godot_method_bind_get_method) (class_name , "set_fallback_environment\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1018:4680 [INFO] [stdout] | [INFO] [stdout] 1018 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1018 | # [doc = "`core class AnimationNodeAdd2` inherits `AnimationNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeadd2.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeAdd2 inherits methods from:\n - [AnimationNode](struct.AnimationNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AnimationNodeAdd2 { this : RawObject < Self > , } impl AnimationNodeAdd2 { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AnimationNodeAdd2MethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "If `true`, sets the `optimization` to `false` when calling [method AnimationNode.blend_input], forcing the blended animations to update every frame."] # [doc = ""] # [inline] pub fn is_using_sync (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeAdd2MethodTable :: get (get_api ()) . is_using_sync ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, sets the `optimization` to `false` when calling [method AnimationNode.blend_input], forcing the blended animations to update every frame."] # [doc = ""] # [inline] pub fn set_use_sync (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeAdd2MethodTable :: get (get_api ()) . set_use_sync ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeAdd2 { } unsafe impl GodotObject for AnimationNodeAdd2 { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeAdd2" } } impl std :: ops :: Deref for AnimationNodeAdd2 { type Target = crate :: generated :: animation_node :: AnimationNode ; # [inline] fn deref (& self) -> & crate :: generated :: animation_node :: AnimationNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationNodeAdd2 { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: animation_node :: AnimationNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: animation_node :: AnimationNode > for AnimationNodeAdd2 { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeAdd2 { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeAdd2 { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeAdd2 { } impl Instanciable for AnimationNodeAdd2 { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeAdd2 :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeAdd2MethodTable { pub class_constructor : sys :: godot_class_constructor , pub is_using_sync : * mut sys :: godot_method_bind , pub set_use_sync : * mut sys :: godot_method_bind } impl AnimationNodeAdd2MethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeAdd2MethodTable = AnimationNodeAdd2MethodTable { class_constructor : None , is_using_sync : 0 as * mut sys :: godot_method_bind , set_use_sync : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeAdd2MethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeAdd2\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . is_using_sync = (gd_api . godot_method_bind_get_method) (class_name , "is_using_sync\0" . as_ptr () as * const c_char) ; table . set_use_sync = (gd_api . godot_method_bind_get_method) (class_name , "set_use_sync\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1024:16804 [INFO] [stdout] | [INFO] [stdout] 1024 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1024 | # [doc = "`core class OptionButton` inherits `Button` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_optionbutton.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`OptionButton` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nOptionButton inherits methods from:\n - [Button](struct.Button.html)\n - [BaseButton](struct.BaseButton.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct OptionButton { this : RawObject < Self > , } impl OptionButton { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = OptionButtonMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds an item, with a `texture` icon, text `label` and (optionally) `id`. If no `id` is passed, the item index will be used as the item's ID. New items are appended at the end.\n# Default Arguments\n* `id` - `-1`"] # [doc = ""] # [inline] pub fn add_icon_item (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , label : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . add_icon_item ; let ret = crate :: icalls :: icallptr_void_obj_str_i64 (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , label . into () , id) ; } } # [doc = "Adds an item, with text `label` and (optionally) `id`. If no `id` is passed, the item index will be used as the item's ID. New items are appended at the end.\n# Default Arguments\n* `id` - `-1`"] # [doc = ""] # [inline] pub fn add_item (& self , label : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . add_item ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , id) ; } } # [doc = "Adds a separator to the list of items. Separators help to group items. Separator also takes up an index and is appended at the end."] # [doc = ""] # [inline] pub fn add_separator (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . add_separator ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Clears all the items in the [OptionButton]."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the amount of items in the OptionButton, including separators."] # [doc = ""] # [inline] pub fn get_item_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the icon of the item at index `idx`."] # [doc = ""] # [inline] pub fn get_item_icon (& self , idx : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_icon ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the ID of the item at index `idx`."] # [doc = ""] # [inline] pub fn get_item_id (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_id ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the index of the item with the given `id`."] # [doc = ""] # [inline] pub fn get_item_index (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_index ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Retrieves the metadata of an item. Metadata may be any type and can be used to store extra information about an item, such as an external string ID."] # [doc = ""] # [inline] pub fn get_item_metadata (& self , idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_metadata ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Variant :: from_sys (ret) } } # [doc = "Returns the text of the item at index `idx`."] # [doc = ""] # [inline] pub fn get_item_text (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_text ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the [PopupMenu] contained in this button."] # [doc = ""] # [inline] pub fn get_popup (& self) -> Option < Ref < crate :: generated :: popup_menu :: PopupMenu , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_popup ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: popup_menu :: PopupMenu , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The index of the currently selected item, or `-1` if no item is selected."] # [doc = ""] # [inline] pub fn selected (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_selected ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the ID of the selected item, or `0` if no item is selected."] # [doc = ""] # [inline] pub fn get_selected_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_selected_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets the metadata of the selected item. Metadata for items can be set using [method set_item_metadata]."] # [doc = ""] # [inline] pub fn get_selected_metadata (& self) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_selected_metadata ; let ret = crate :: icalls :: icallptr_var (method_bind , self . this . sys () . as_ptr ()) ; Variant :: from_sys (ret) } } # [doc = "Returns `true` if the item at index `idx` is disabled."] # [doc = ""] # [inline] pub fn is_item_disabled (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . is_item_disabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Removes the item at index `idx`."] # [doc = ""] # [inline] pub fn remove_item (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . remove_item ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Selects an item by index and makes it the current item. This will work even if the item is disabled."] # [doc = ""] # [inline] pub fn select (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . select ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Sets whether the item at index `idx` is disabled.\nDisabled items are drawn differently in the dropdown and are not selectable by the user. If the current selected item is set as disabled, it will remain selected."] # [doc = ""] # [inline] pub fn set_item_disabled (& self , idx : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_disabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , disabled) ; } } # [doc = "Sets the icon of the item at index `idx`."] # [doc = ""] # [inline] pub fn set_item_icon (& self , idx : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_icon ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , idx , texture . as_arg_ptr ()) ; } } # [doc = "Sets the ID of the item at index `idx`."] # [doc = ""] # [inline] pub fn set_item_id (& self , idx : i64 , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_id ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , id) ; } } # [doc = "Sets the metadata of an item. Metadata may be of any type and can be used to store extra information about an item, such as an external string ID."] # [doc = ""] # [inline] pub fn set_item_metadata (& self , idx : i64 , metadata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_metadata ; let ret = crate :: icalls :: icallptr_void_i64_var (method_bind , self . this . sys () . as_ptr () , idx , metadata . owned_to_variant ()) ; } } # [doc = "Sets the text of the item at index `idx`."] # [doc = ""] # [inline] pub fn set_item_text (& self , idx : i64 , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_text ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , idx , text . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for OptionButton { } unsafe impl GodotObject for OptionButton { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "OptionButton" } } impl QueueFree for OptionButton { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for OptionButton { type Target = crate :: generated :: button :: Button ; # [inline] fn deref (& self) -> & crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for OptionButton { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: button :: Button > for OptionButton { } unsafe impl SubClass < crate :: generated :: base_button :: BaseButton > for OptionButton { } unsafe impl SubClass < crate :: generated :: control :: Control > for OptionButton { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for OptionButton { } unsafe impl SubClass < crate :: generated :: node :: Node > for OptionButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for OptionButton { } impl Instanciable for OptionButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { OptionButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct OptionButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_icon_item : * mut sys :: godot_method_bind , pub add_item : * mut sys :: godot_method_bind , pub add_separator : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_item_count : * mut sys :: godot_method_bind , pub get_item_icon : * mut sys :: godot_method_bind , pub get_item_id : * mut sys :: godot_method_bind , pub get_item_index : * mut sys :: godot_method_bind , pub get_item_metadata : * mut sys :: godot_method_bind , pub get_item_text : * mut sys :: godot_method_bind , pub get_popup : * mut sys :: godot_method_bind , pub get_selected : * mut sys :: godot_method_bind , pub get_selected_id : * mut sys :: godot_method_bind , pub get_selected_metadata : * mut sys :: godot_method_bind , pub is_item_disabled : * mut sys :: godot_method_bind , pub remove_item : * mut sys :: godot_method_bind , pub select : * mut sys :: godot_method_bind , pub set_item_disabled : * mut sys :: godot_method_bind , pub set_item_icon : * mut sys :: godot_method_bind , pub set_item_id : * mut sys :: godot_method_bind , pub set_item_metadata : * mut sys :: godot_method_bind , pub set_item_text : * mut sys :: godot_method_bind } impl OptionButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : OptionButtonMethodTable = OptionButtonMethodTable { class_constructor : None , add_icon_item : 0 as * mut sys :: godot_method_bind , add_item : 0 as * mut sys :: godot_method_bind , add_separator : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_item_count : 0 as * mut sys :: godot_method_bind , get_item_icon : 0 as * mut sys :: godot_method_bind , get_item_id : 0 as * mut sys :: godot_method_bind , get_item_index : 0 as * mut sys :: godot_method_bind , get_item_metadata : 0 as * mut sys :: godot_method_bind , get_item_text : 0 as * mut sys :: godot_method_bind , get_popup : 0 as * mut sys :: godot_method_bind , get_selected : 0 as * mut sys :: godot_method_bind , get_selected_id : 0 as * mut sys :: godot_method_bind , get_selected_metadata : 0 as * mut sys :: godot_method_bind , is_item_disabled : 0 as * mut sys :: godot_method_bind , remove_item : 0 as * mut sys :: godot_method_bind , select : 0 as * mut sys :: godot_method_bind , set_item_disabled : 0 as * mut sys :: godot_method_bind , set_item_icon : 0 as * mut sys :: godot_method_bind , set_item_id : 0 as * mut sys :: godot_method_bind , set_item_metadata : 0 as * mut sys :: godot_method_bind , set_item_text : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { OptionButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "OptionButton\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_icon_item = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_item\0" . as_ptr () as * const c_char) ; table . add_item = (gd_api . godot_method_bind_get_method) (class_name , "add_item\0" . as_ptr () as * const c_char) ; table . add_separator = (gd_api . godot_method_bind_get_method) (class_name , "add_separator\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . get_item_count = (gd_api . godot_method_bind_get_method) (class_name , "get_item_count\0" . as_ptr () as * const c_char) ; table . get_item_icon = (gd_api . godot_method_bind_get_method) (class_name , "get_item_icon\0" . as_ptr () as * const c_char) ; table . get_item_id = (gd_api . godot_method_bind_get_method) (class_name , "get_item_id\0" . as_ptr () as * const c_char) ; table . get_item_index = (gd_api . godot_method_bind_get_method) (class_name , "get_item_index\0" . as_ptr () as * const c_char) ; table . get_item_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_item_metadata\0" . as_ptr () as * const c_char) ; table . get_item_text = (gd_api . godot_method_bind_get_method) (class_name , "get_item_text\0" . as_ptr () as * const c_char) ; table . get_popup = (gd_api . godot_method_bind_get_method) (class_name , "get_popup\0" . as_ptr () as * const c_char) ; table . get_selected = (gd_api . godot_method_bind_get_method) (class_name , "get_selected\0" . as_ptr () as * const c_char) ; table . get_selected_id = (gd_api . godot_method_bind_get_method) (class_name , "get_selected_id\0" . as_ptr () as * const c_char) ; table . get_selected_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_selected_metadata\0" . as_ptr () as * const c_char) ; table . is_item_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_item_disabled\0" . as_ptr () as * const c_char) ; table . remove_item = (gd_api . godot_method_bind_get_method) (class_name , "remove_item\0" . as_ptr () as * const c_char) ; table . select = (gd_api . godot_method_bind_get_method) (class_name , "select\0" . as_ptr () as * const c_char) ; table . set_item_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_item_disabled\0" . as_ptr () as * const c_char) ; table . set_item_icon = (gd_api . godot_method_bind_get_method) (class_name , "set_item_icon\0" . as_ptr () as * const c_char) ; table . set_item_id = (gd_api . godot_method_bind_get_method) (class_name , "set_item_id\0" . as_ptr () as * const c_char) ; table . set_item_metadata = (gd_api . godot_method_bind_get_method) (class_name , "set_item_metadata\0" . as_ptr () as * const c_char) ; table . set_item_text = (gd_api . godot_method_bind_get_method) (class_name , "set_item_text\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1030:12810 [INFO] [stdout] | [INFO] [stdout] 1030 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1030 | # [doc = "`core class CanvasItemMaterial` inherits `Material` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_canvasitemmaterial.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nCanvasItemMaterial inherits methods from:\n - [Material](struct.Material.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct CanvasItemMaterial { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BlendMode (pub i64) ; impl BlendMode { pub const MIX : BlendMode = BlendMode (0i64) ; pub const ADD : BlendMode = BlendMode (1i64) ; pub const SUB : BlendMode = BlendMode (2i64) ; pub const MUL : BlendMode = BlendMode (3i64) ; pub const PREMULT_ALPHA : BlendMode = BlendMode (4i64) ; } impl From < i64 > for BlendMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BlendMode > for i64 { # [inline] fn from (v : BlendMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightMode (pub i64) ; impl LightMode { pub const NORMAL : LightMode = LightMode (0i64) ; pub const UNSHADED : LightMode = LightMode (1i64) ; pub const LIGHT_ONLY : LightMode = LightMode (2i64) ; } impl From < i64 > for LightMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightMode > for i64 { # [inline] fn from (v : LightMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl CanvasItemMaterial { pub const BLEND_MODE_ADD : i64 = 1i64 ; pub const BLEND_MODE_MIX : i64 = 0i64 ; pub const BLEND_MODE_MUL : i64 = 3i64 ; pub const BLEND_MODE_PREMULT_ALPHA : i64 = 4i64 ; pub const BLEND_MODE_SUB : i64 = 2i64 ; pub const LIGHT_MODE_LIGHT_ONLY : i64 = 2i64 ; pub const LIGHT_MODE_NORMAL : i64 = 0i64 ; pub const LIGHT_MODE_UNSHADED : i64 = 1i64 ; } impl CanvasItemMaterial { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = CanvasItemMaterialMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The manner in which a material's rendering is applied to underlying textures."] # [doc = ""] # [inline] pub fn blend_mode (& self) -> crate :: generated :: canvas_item_material :: BlendMode { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . get_blend_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: canvas_item_material :: BlendMode (ret) } } # [doc = "The manner in which material reacts to lighting."] # [doc = ""] # [inline] pub fn light_mode (& self) -> crate :: generated :: canvas_item_material :: LightMode { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . get_light_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: canvas_item_material :: LightMode (ret) } } # [doc = "The number of columns in the spritesheet assigned as [Texture] for a [Particles2D] or [CPUParticles2D].\n**Note:** This property is only used and visible in the editor if [member particles_animation] is `true`."] # [doc = ""] # [inline] pub fn particles_anim_h_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . get_particles_anim_h_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the particles animation will loop.\n**Note:** This property is only used and visible in the editor if [member particles_animation] is `true`."] # [doc = ""] # [inline] pub fn particles_anim_loop (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . get_particles_anim_loop ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The number of rows in the spritesheet assigned as [Texture] for a [Particles2D] or [CPUParticles2D].\n**Note:** This property is only used and visible in the editor if [member particles_animation] is `true`."] # [doc = ""] # [inline] pub fn particles_anim_v_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . get_particles_anim_v_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, enable spritesheet-based animation features when assigned to [Particles2D] and [CPUParticles2D] nodes. The [member ParticlesMaterial.anim_speed] or [member CPUParticles2D.anim_speed] should also be set to a positive value for the animation to play.\nThis property (and other `particles_anim_*` properties that depend on it) has no effect on other types of nodes."] # [doc = ""] # [inline] pub fn particles_animation (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . get_particles_animation ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The manner in which a material's rendering is applied to underlying textures."] # [doc = ""] # [inline] pub fn set_blend_mode (& self , blend_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . set_blend_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , blend_mode) ; } } # [doc = "The manner in which material reacts to lighting."] # [doc = ""] # [inline] pub fn set_light_mode (& self , light_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . set_light_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , light_mode) ; } } # [doc = "The number of columns in the spritesheet assigned as [Texture] for a [Particles2D] or [CPUParticles2D].\n**Note:** This property is only used and visible in the editor if [member particles_animation] is `true`."] # [doc = ""] # [inline] pub fn set_particles_anim_h_frames (& self , frames : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . set_particles_anim_h_frames ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , frames) ; } } # [doc = "If `true`, the particles animation will loop.\n**Note:** This property is only used and visible in the editor if [member particles_animation] is `true`."] # [doc = ""] # [inline] pub fn set_particles_anim_loop (& self , _loop : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . set_particles_anim_loop ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , _loop) ; } } # [doc = "The number of rows in the spritesheet assigned as [Texture] for a [Particles2D] or [CPUParticles2D].\n**Note:** This property is only used and visible in the editor if [member particles_animation] is `true`."] # [doc = ""] # [inline] pub fn set_particles_anim_v_frames (& self , frames : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . set_particles_anim_v_frames ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , frames) ; } } # [doc = "If `true`, enable spritesheet-based animation features when assigned to [Particles2D] and [CPUParticles2D] nodes. The [member ParticlesMaterial.anim_speed] or [member CPUParticles2D.anim_speed] should also be set to a positive value for the animation to play.\nThis property (and other `particles_anim_*` properties that depend on it) has no effect on other types of nodes."] # [doc = ""] # [inline] pub fn set_particles_animation (& self , particles_anim : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CanvasItemMaterialMethodTable :: get (get_api ()) . set_particles_animation ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , particles_anim) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CanvasItemMaterial { } unsafe impl GodotObject for CanvasItemMaterial { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CanvasItemMaterial" } } impl std :: ops :: Deref for CanvasItemMaterial { type Target = crate :: generated :: material :: Material ; # [inline] fn deref (& self) -> & crate :: generated :: material :: Material { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CanvasItemMaterial { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: material :: Material { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: material :: Material > for CanvasItemMaterial { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CanvasItemMaterial { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CanvasItemMaterial { } unsafe impl SubClass < crate :: generated :: object :: Object > for CanvasItemMaterial { } impl Instanciable for CanvasItemMaterial { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CanvasItemMaterial :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CanvasItemMaterialMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_blend_mode : * mut sys :: godot_method_bind , pub get_light_mode : * mut sys :: godot_method_bind , pub get_particles_anim_h_frames : * mut sys :: godot_method_bind , pub get_particles_anim_loop : * mut sys :: godot_method_bind , pub get_particles_anim_v_frames : * mut sys :: godot_method_bind , pub get_particles_animation : * mut sys :: godot_method_bind , pub set_blend_mode : * mut sys :: godot_method_bind , pub set_light_mode : * mut sys :: godot_method_bind , pub set_particles_anim_h_frames : * mut sys :: godot_method_bind , pub set_particles_anim_loop : * mut sys :: godot_method_bind , pub set_particles_anim_v_frames : * mut sys :: godot_method_bind , pub set_particles_animation : * mut sys :: godot_method_bind } impl CanvasItemMaterialMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CanvasItemMaterialMethodTable = CanvasItemMaterialMethodTable { class_constructor : None , get_blend_mode : 0 as * mut sys :: godot_method_bind , get_light_mode : 0 as * mut sys :: godot_method_bind , get_particles_anim_h_frames : 0 as * mut sys :: godot_method_bind , get_particles_anim_loop : 0 as * mut sys :: godot_method_bind , get_particles_anim_v_frames : 0 as * mut sys :: godot_method_bind , get_particles_animation : 0 as * mut sys :: godot_method_bind , set_blend_mode : 0 as * mut sys :: godot_method_bind , set_light_mode : 0 as * mut sys :: godot_method_bind , set_particles_anim_h_frames : 0 as * mut sys :: godot_method_bind , set_particles_anim_loop : 0 as * mut sys :: godot_method_bind , set_particles_anim_v_frames : 0 as * mut sys :: godot_method_bind , set_particles_animation : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CanvasItemMaterialMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CanvasItemMaterial\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_blend_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_blend_mode\0" . as_ptr () as * const c_char) ; table . get_light_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_light_mode\0" . as_ptr () as * const c_char) ; table . get_particles_anim_h_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_particles_anim_h_frames\0" . as_ptr () as * const c_char) ; table . get_particles_anim_loop = (gd_api . godot_method_bind_get_method) (class_name , "get_particles_anim_loop\0" . as_ptr () as * const c_char) ; table . get_particles_anim_v_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_particles_anim_v_frames\0" . as_ptr () as * const c_char) ; table . get_particles_animation = (gd_api . godot_method_bind_get_method) (class_name , "get_particles_animation\0" . as_ptr () as * const c_char) ; table . set_blend_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_blend_mode\0" . as_ptr () as * const c_char) ; table . set_light_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_light_mode\0" . as_ptr () as * const c_char) ; table . set_particles_anim_h_frames = (gd_api . godot_method_bind_get_method) (class_name , "set_particles_anim_h_frames\0" . as_ptr () as * const c_char) ; table . set_particles_anim_loop = (gd_api . godot_method_bind_get_method) (class_name , "set_particles_anim_loop\0" . as_ptr () as * const c_char) ; table . set_particles_anim_v_frames = (gd_api . godot_method_bind_get_method) (class_name , "set_particles_anim_v_frames\0" . as_ptr () as * const c_char) ; table . set_particles_animation = (gd_api . godot_method_bind_get_method) (class_name , "set_particles_animation\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1036:7311 [INFO] [stdout] | [INFO] [stdout] 1036 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1036 | # [doc = "`core class LinkButton` inherits `BaseButton` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_linkbutton.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`LinkButton` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nLinkButton inherits methods from:\n - [BaseButton](struct.BaseButton.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct LinkButton { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct UnderlineMode (pub i64) ; impl UnderlineMode { pub const ALWAYS : UnderlineMode = UnderlineMode (0i64) ; pub const ON_HOVER : UnderlineMode = UnderlineMode (1i64) ; pub const NEVER : UnderlineMode = UnderlineMode (2i64) ; } impl From < i64 > for UnderlineMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < UnderlineMode > for i64 { # [inline] fn from (v : UnderlineMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl LinkButton { pub const UNDERLINE_MODE_ALWAYS : i64 = 0i64 ; pub const UNDERLINE_MODE_NEVER : i64 = 2i64 ; pub const UNDERLINE_MODE_ON_HOVER : i64 = 1i64 ; } impl LinkButton { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = LinkButtonMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The button's text that will be displayed inside the button's area."] # [doc = ""] # [inline] pub fn text (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = LinkButtonMethodTable :: get (get_api ()) . get_text ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Determines when to show the underline. See [enum UnderlineMode] for options."] # [doc = ""] # [inline] pub fn underline_mode (& self) -> crate :: generated :: link_button :: UnderlineMode { unsafe { let method_bind : * mut sys :: godot_method_bind = LinkButtonMethodTable :: get (get_api ()) . get_underline_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: link_button :: UnderlineMode (ret) } } # [doc = "The button's text that will be displayed inside the button's area."] # [doc = ""] # [inline] pub fn set_text (& self , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LinkButtonMethodTable :: get (get_api ()) . set_text ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , text . into ()) ; } } # [doc = "Determines when to show the underline. See [enum UnderlineMode] for options."] # [doc = ""] # [inline] pub fn set_underline_mode (& self , underline_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LinkButtonMethodTable :: get (get_api ()) . set_underline_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , underline_mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for LinkButton { } unsafe impl GodotObject for LinkButton { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "LinkButton" } } impl QueueFree for LinkButton { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for LinkButton { type Target = crate :: generated :: base_button :: BaseButton ; # [inline] fn deref (& self) -> & crate :: generated :: base_button :: BaseButton { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for LinkButton { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: base_button :: BaseButton { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: base_button :: BaseButton > for LinkButton { } unsafe impl SubClass < crate :: generated :: control :: Control > for LinkButton { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for LinkButton { } unsafe impl SubClass < crate :: generated :: node :: Node > for LinkButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for LinkButton { } impl Instanciable for LinkButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { LinkButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct LinkButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_text : * mut sys :: godot_method_bind , pub get_underline_mode : * mut sys :: godot_method_bind , pub set_text : * mut sys :: godot_method_bind , pub set_underline_mode : * mut sys :: godot_method_bind } impl LinkButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : LinkButtonMethodTable = LinkButtonMethodTable { class_constructor : None , get_text : 0 as * mut sys :: godot_method_bind , get_underline_mode : 0 as * mut sys :: godot_method_bind , set_text : 0 as * mut sys :: godot_method_bind , set_underline_mode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { LinkButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "LinkButton\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_text = (gd_api . godot_method_bind_get_method) (class_name , "get_text\0" . as_ptr () as * const c_char) ; table . get_underline_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_underline_mode\0" . as_ptr () as * const c_char) ; table . set_text = (gd_api . godot_method_bind_get_method) (class_name , "set_text\0" . as_ptr () as * const c_char) ; table . set_underline_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_underline_mode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1042:3078 [INFO] [stdout] | [INFO] [stdout] 1042 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1042 | # [doc = "`core class PackedDataContainerRef` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_packeddatacontainerref.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPackedDataContainerRef inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PackedDataContainerRef { this : RawObject < Self > , } impl PackedDataContainerRef { # [doc = ""] # [doc = ""] # [inline] pub fn size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PackedDataContainerRefMethodTable :: get (get_api ()) . size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for PackedDataContainerRef { } unsafe impl GodotObject for PackedDataContainerRef { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PackedDataContainerRef" } } impl std :: ops :: Deref for PackedDataContainerRef { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PackedDataContainerRef { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PackedDataContainerRef { } unsafe impl SubClass < crate :: generated :: object :: Object > for PackedDataContainerRef { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PackedDataContainerRefMethodTable { pub class_constructor : sys :: godot_class_constructor , pub size : * mut sys :: godot_method_bind } impl PackedDataContainerRefMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PackedDataContainerRefMethodTable = PackedDataContainerRefMethodTable { class_constructor : None , size : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PackedDataContainerRefMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PackedDataContainerRef\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . size = (gd_api . godot_method_bind_get_method) (class_name , "size\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1048:3905 [INFO] [stdout] | [INFO] [stdout] 1048 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1048 | # [doc = "`core class AudioEffectBandPassFilter` inherits `AudioEffectFilter` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectbandpassfilter.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectBandPassFilter inherits methods from:\n - [AudioEffectFilter](struct.AudioEffectFilter.html)\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectBandPassFilter { this : RawObject < Self > , } impl AudioEffectBandPassFilter { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectBandPassFilterMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectBandPassFilter { } unsafe impl GodotObject for AudioEffectBandPassFilter { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectBandPassFilter" } } impl std :: ops :: Deref for AudioEffectBandPassFilter { type Target = crate :: generated :: audio_effect_filter :: AudioEffectFilter ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect_filter :: AudioEffectFilter { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectBandPassFilter { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect_filter :: AudioEffectFilter { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect_filter :: AudioEffectFilter > for AudioEffectBandPassFilter { } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectBandPassFilter { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectBandPassFilter { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectBandPassFilter { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectBandPassFilter { } impl Instanciable for AudioEffectBandPassFilter { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectBandPassFilter :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectBandPassFilterMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AudioEffectBandPassFilterMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectBandPassFilterMethodTable = AudioEffectBandPassFilterMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectBandPassFilterMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectBandPassFilter\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1054:6914 [INFO] [stdout] | [INFO] [stdout] 1054 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1054 | # [doc = "`tools class EditorResourcePreview` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorresourcepreview.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nEditorResourcePreview inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorResourcePreview { this : RawObject < Self > , } impl EditorResourcePreview { # [doc = "Create an own, custom preview generator."] # [doc = ""] # [inline] pub fn add_preview_generator (& self , generator : impl AsArg < crate :: generated :: editor_resource_preview_generator :: EditorResourcePreviewGenerator >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorResourcePreviewMethodTable :: get (get_api ()) . add_preview_generator ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , generator . as_arg_ptr ()) ; } } # [doc = "Check if the resource changed, if so, it will be invalidated and the corresponding signal emitted."] # [doc = ""] # [inline] pub fn check_for_invalidation (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorResourcePreviewMethodTable :: get (get_api ()) . check_for_invalidation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "Queue a resource being edited for preview (using an instance). Once the preview is ready, your receiver.receiver_func will be called either containing the preview texture or an empty texture (if no preview was possible). Callback must have the format: (path,texture,userdata). Userdata can be anything."] # [doc = ""] # [inline] pub fn queue_edited_resource_preview (& self , resource : impl AsArg < crate :: generated :: resource :: Resource > , receiver : impl AsArg < crate :: generated :: object :: Object > , receiver_func : impl Into < GodotString > , userdata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorResourcePreviewMethodTable :: get (get_api ()) . queue_edited_resource_preview ; let ret = crate :: icalls :: icallptr_void_obj_obj_str_var (method_bind , self . this . sys () . as_ptr () , resource . as_arg_ptr () , receiver . as_arg_ptr () , receiver_func . into () , userdata . owned_to_variant ()) ; } } # [doc = "Queue a resource file for preview (using a path). Once the preview is ready, your receiver.receiver_func will be called either containing the preview texture or an empty texture (if no preview was possible). Callback must have the format: (path,texture,userdata). Userdata can be anything."] # [doc = ""] # [inline] pub fn queue_resource_preview (& self , path : impl Into < GodotString > , receiver : impl AsArg < crate :: generated :: object :: Object > , receiver_func : impl Into < GodotString > , userdata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorResourcePreviewMethodTable :: get (get_api ()) . queue_resource_preview ; let ret = crate :: icalls :: icallptr_void_str_obj_str_var (method_bind , self . this . sys () . as_ptr () , path . into () , receiver . as_arg_ptr () , receiver_func . into () , userdata . owned_to_variant ()) ; } } # [doc = "Removes a custom preview generator."] # [doc = ""] # [inline] pub fn remove_preview_generator (& self , generator : impl AsArg < crate :: generated :: editor_resource_preview_generator :: EditorResourcePreviewGenerator >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorResourcePreviewMethodTable :: get (get_api ()) . remove_preview_generator ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , generator . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorResourcePreview { } unsafe impl GodotObject for EditorResourcePreview { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorResourcePreview" } } impl QueueFree for EditorResourcePreview { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for EditorResourcePreview { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorResourcePreview { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for EditorResourcePreview { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorResourcePreview { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorResourcePreviewMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_preview_generator : * mut sys :: godot_method_bind , pub check_for_invalidation : * mut sys :: godot_method_bind , pub queue_edited_resource_preview : * mut sys :: godot_method_bind , pub queue_resource_preview : * mut sys :: godot_method_bind , pub remove_preview_generator : * mut sys :: godot_method_bind } impl EditorResourcePreviewMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorResourcePreviewMethodTable = EditorResourcePreviewMethodTable { class_constructor : None , add_preview_generator : 0 as * mut sys :: godot_method_bind , check_for_invalidation : 0 as * mut sys :: godot_method_bind , queue_edited_resource_preview : 0 as * mut sys :: godot_method_bind , queue_resource_preview : 0 as * mut sys :: godot_method_bind , remove_preview_generator : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorResourcePreviewMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorResourcePreview\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_preview_generator = (gd_api . godot_method_bind_get_method) (class_name , "add_preview_generator\0" . as_ptr () as * const c_char) ; table . check_for_invalidation = (gd_api . godot_method_bind_get_method) (class_name , "check_for_invalidation\0" . as_ptr () as * const c_char) ; table . queue_edited_resource_preview = (gd_api . godot_method_bind_get_method) (class_name , "queue_edited_resource_preview\0" . as_ptr () as * const c_char) ; table . queue_resource_preview = (gd_api . godot_method_bind_get_method) (class_name , "queue_resource_preview\0" . as_ptr () as * const c_char) ; table . remove_preview_generator = (gd_api . godot_method_bind_get_method) (class_name , "remove_preview_generator\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1060:18262 [INFO] [stdout] | [INFO] [stdout] 1060 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1060 | # [doc = "`core class RayCast2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_raycast2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RayCast2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRayCast2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RayCast2D { this : RawObject < Self > , } impl RayCast2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RayCast2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a collision exception so the ray does not report collisions with the specified node."] # [doc = ""] # [inline] pub fn add_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . add_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Adds a collision exception so the ray does not report collisions with the specified [RID]."] # [doc = ""] # [inline] pub fn add_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . add_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "Removes all collision exceptions for this ray."] # [doc = ""] # [inline] pub fn clear_exceptions (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . clear_exceptions ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Updates the collision information for the ray. Use this method to update the collision information immediately instead of waiting for the next `_physics_process` call, for example if the ray or its parent has changed state.\n**Note:** `enabled` is not required for this to work."] # [doc = ""] # [inline] pub fn force_raycast_update (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . force_raycast_update ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The ray's destination point, relative to the RayCast's `position`."] # [doc = ""] # [inline] pub fn cast_to (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_cast_to ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the first object that the ray intersects, or `null` if no object is intersecting the ray (i.e. [method is_colliding] returns `false`)."] # [doc = ""] # [inline] pub fn get_collider (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collider ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the shape ID of the first object that the ray intersects, or `0` if no object is intersecting the ray (i.e. [method is_colliding] returns `false`)."] # [doc = ""] # [inline] pub fn get_collider_shape (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collider_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The ray's collision mask. Only objects in at least one collision layer enabled in the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an individual bit on the collision mask."] # [doc = ""] # [inline] pub fn get_collision_mask_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_mask_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = "Returns the normal of the intersecting object's shape at the collision point."] # [doc = ""] # [inline] pub fn get_collision_normal (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_normal ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the collision point at which the ray intersects the closest object.\n**Note:** this point is in the **global** coordinate system."] # [doc = ""] # [inline] pub fn get_collision_point (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_point ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, the parent node will be excluded from collision detection."] # [doc = ""] # [inline] pub fn exclude_parent_body (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_exclude_parent_body ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision with [Area2D]s will be reported."] # [doc = ""] # [inline] pub fn is_collide_with_areas_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_collide_with_areas_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision with [PhysicsBody2D]s will be reported."] # [doc = ""] # [inline] pub fn is_collide_with_bodies_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_collide_with_bodies_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether any object is intersecting with the ray's vector (considering the vector length)."] # [doc = ""] # [inline] pub fn is_colliding (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_colliding ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collisions will be reported."] # [doc = ""] # [inline] pub fn is_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes a collision exception so the ray does report collisions with the specified node."] # [doc = ""] # [inline] pub fn remove_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . remove_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Removes a collision exception so the ray does report collisions with the specified [RID]."] # [doc = ""] # [inline] pub fn remove_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . remove_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "The ray's destination point, relative to the RayCast's `position`."] # [doc = ""] # [inline] pub fn set_cast_to (& self , local_point : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_cast_to ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , local_point) ; } } # [doc = "If `true`, collision with [Area2D]s will be reported."] # [doc = ""] # [inline] pub fn set_collide_with_areas (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collide_with_areas ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, collision with [PhysicsBody2D]s will be reported."] # [doc = ""] # [inline] pub fn set_collide_with_bodies (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collide_with_bodies ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The ray's collision mask. Only objects in at least one collision layer enabled in the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_mask (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collision_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mask) ; } } # [doc = "Sets or clears individual bits on the collision mask. This makes selecting the areas scanned easier."] # [doc = ""] # [inline] pub fn set_collision_mask_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collision_mask_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = "If `true`, collisions will be reported."] # [doc = ""] # [inline] pub fn set_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the parent node will be excluded from collision detection."] # [doc = ""] # [inline] pub fn set_exclude_parent_body (& self , mask : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_exclude_parent_body ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , mask) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RayCast2D { } unsafe impl GodotObject for RayCast2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RayCast2D" } } impl QueueFree for RayCast2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RayCast2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RayCast2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for RayCast2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for RayCast2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for RayCast2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for RayCast2D { } impl Instanciable for RayCast2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RayCast2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RayCast2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_exception : * mut sys :: godot_method_bind , pub add_exception_rid : * mut sys :: godot_method_bind , pub clear_exceptions : * mut sys :: godot_method_bind , pub force_raycast_update : * mut sys :: godot_method_bind , pub get_cast_to : * mut sys :: godot_method_bind , pub get_collider : * mut sys :: godot_method_bind , pub get_collider_shape : * mut sys :: godot_method_bind , pub get_collision_mask : * mut sys :: godot_method_bind , pub get_collision_mask_bit : * mut sys :: godot_method_bind , pub get_collision_normal : * mut sys :: godot_method_bind , pub get_collision_point : * mut sys :: godot_method_bind , pub get_exclude_parent_body : * mut sys :: godot_method_bind , pub is_collide_with_areas_enabled : * mut sys :: godot_method_bind , pub is_collide_with_bodies_enabled : * mut sys :: godot_method_bind , pub is_colliding : * mut sys :: godot_method_bind , pub is_enabled : * mut sys :: godot_method_bind , pub remove_exception : * mut sys :: godot_method_bind , pub remove_exception_rid : * mut sys :: godot_method_bind , pub set_cast_to : * mut sys :: godot_method_bind , pub set_collide_with_areas : * mut sys :: godot_method_bind , pub set_collide_with_bodies : * mut sys :: godot_method_bind , pub set_collision_mask : * mut sys :: godot_method_bind , pub set_collision_mask_bit : * mut sys :: godot_method_bind , pub set_enabled : * mut sys :: godot_method_bind , pub set_exclude_parent_body : * mut sys :: godot_method_bind } impl RayCast2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RayCast2DMethodTable = RayCast2DMethodTable { class_constructor : None , add_exception : 0 as * mut sys :: godot_method_bind , add_exception_rid : 0 as * mut sys :: godot_method_bind , clear_exceptions : 0 as * mut sys :: godot_method_bind , force_raycast_update : 0 as * mut sys :: godot_method_bind , get_cast_to : 0 as * mut sys :: godot_method_bind , get_collider : 0 as * mut sys :: godot_method_bind , get_collider_shape : 0 as * mut sys :: godot_method_bind , get_collision_mask : 0 as * mut sys :: godot_method_bind , get_collision_mask_bit : 0 as * mut sys :: godot_method_bind , get_collision_normal : 0 as * mut sys :: godot_method_bind , get_collision_point : 0 as * mut sys :: godot_method_bind , get_exclude_parent_body : 0 as * mut sys :: godot_method_bind , is_collide_with_areas_enabled : 0 as * mut sys :: godot_method_bind , is_collide_with_bodies_enabled : 0 as * mut sys :: godot_method_bind , is_colliding : 0 as * mut sys :: godot_method_bind , is_enabled : 0 as * mut sys :: godot_method_bind , remove_exception : 0 as * mut sys :: godot_method_bind , remove_exception_rid : 0 as * mut sys :: godot_method_bind , set_cast_to : 0 as * mut sys :: godot_method_bind , set_collide_with_areas : 0 as * mut sys :: godot_method_bind , set_collide_with_bodies : 0 as * mut sys :: godot_method_bind , set_collision_mask : 0 as * mut sys :: godot_method_bind , set_collision_mask_bit : 0 as * mut sys :: godot_method_bind , set_enabled : 0 as * mut sys :: godot_method_bind , set_exclude_parent_body : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RayCast2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RayCast2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_exception = (gd_api . godot_method_bind_get_method) (class_name , "add_exception\0" . as_ptr () as * const c_char) ; table . add_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "add_exception_rid\0" . as_ptr () as * const c_char) ; table . clear_exceptions = (gd_api . godot_method_bind_get_method) (class_name , "clear_exceptions\0" . as_ptr () as * const c_char) ; table . force_raycast_update = (gd_api . godot_method_bind_get_method) (class_name , "force_raycast_update\0" . as_ptr () as * const c_char) ; table . get_cast_to = (gd_api . godot_method_bind_get_method) (class_name , "get_cast_to\0" . as_ptr () as * const c_char) ; table . get_collider = (gd_api . godot_method_bind_get_method) (class_name , "get_collider\0" . as_ptr () as * const c_char) ; table . get_collider_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_shape\0" . as_ptr () as * const c_char) ; table . get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask\0" . as_ptr () as * const c_char) ; table . get_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . get_collision_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_normal\0" . as_ptr () as * const c_char) ; table . get_collision_point = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_point\0" . as_ptr () as * const c_char) ; table . get_exclude_parent_body = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude_parent_body\0" . as_ptr () as * const c_char) ; table . is_collide_with_areas_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_areas_enabled\0" . as_ptr () as * const c_char) ; table . is_collide_with_bodies_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_bodies_enabled\0" . as_ptr () as * const c_char) ; table . is_colliding = (gd_api . godot_method_bind_get_method) (class_name , "is_colliding\0" . as_ptr () as * const c_char) ; table . is_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_enabled\0" . as_ptr () as * const c_char) ; table . remove_exception = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception\0" . as_ptr () as * const c_char) ; table . remove_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception_rid\0" . as_ptr () as * const c_char) ; table . set_cast_to = (gd_api . godot_method_bind_get_method) (class_name , "set_cast_to\0" . as_ptr () as * const c_char) ; table . set_collide_with_areas = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_areas\0" . as_ptr () as * const c_char) ; table . set_collide_with_bodies = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_bodies\0" . as_ptr () as * const c_char) ; table . set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask\0" . as_ptr () as * const c_char) ; table . set_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_enabled\0" . as_ptr () as * const c_char) ; table . set_exclude_parent_body = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude_parent_body\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1066:4411 [INFO] [stdout] | [INFO] [stdout] 1066 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1066 | # [doc = "`core class SpotLight` inherits `Light` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_spotlight.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`SpotLight` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nSpotLight inherits methods from:\n - [Light](struct.Light.html)\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct SpotLight { this : RawObject < Self > , } impl SpotLight { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = SpotLightMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for SpotLight { } unsafe impl GodotObject for SpotLight { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "SpotLight" } } impl QueueFree for SpotLight { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for SpotLight { type Target = crate :: generated :: light :: Light ; # [inline] fn deref (& self) -> & crate :: generated :: light :: Light { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SpotLight { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: light :: Light { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: light :: Light > for SpotLight { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for SpotLight { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for SpotLight { } unsafe impl SubClass < crate :: generated :: node :: Node > for SpotLight { } unsafe impl SubClass < crate :: generated :: object :: Object > for SpotLight { } impl Instanciable for SpotLight { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SpotLight :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SpotLightMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl SpotLightMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SpotLightMethodTable = SpotLightMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SpotLightMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SpotLight\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1072:3904 [INFO] [stdout] | [INFO] [stdout] 1072 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1072 | # [doc = "`core class VisualScriptComposeArray` inherits `VisualScriptLists` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptcomposearray.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptComposeArray inherits methods from:\n - [VisualScriptLists](struct.VisualScriptLists.html)\n - [VisualScriptNode](struct.VisualScriptNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScriptComposeArray { this : RawObject < Self > , } impl VisualScriptComposeArray { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptComposeArrayMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptComposeArray { } unsafe impl GodotObject for VisualScriptComposeArray { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptComposeArray" } } impl std :: ops :: Deref for VisualScriptComposeArray { type Target = crate :: generated :: visual_script_lists :: VisualScriptLists ; # [inline] fn deref (& self) -> & crate :: generated :: visual_script_lists :: VisualScriptLists { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptComposeArray { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_script_lists :: VisualScriptLists { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_script_lists :: VisualScriptLists > for VisualScriptComposeArray { } unsafe impl SubClass < crate :: generated :: visual_script_node :: VisualScriptNode > for VisualScriptComposeArray { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptComposeArray { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptComposeArray { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptComposeArray { } impl Instanciable for VisualScriptComposeArray { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptComposeArray :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptComposeArrayMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptComposeArrayMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptComposeArrayMethodTable = VisualScriptComposeArrayMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptComposeArrayMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptComposeArray\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1078:3784 [INFO] [stdout] | [INFO] [stdout] 1078 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1078 | # [doc = "`core class VisualShaderNodeFaceForward` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodefaceforward.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeFaceForward inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeFaceForward { this : RawObject < Self > , } impl VisualShaderNodeFaceForward { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeFaceForwardMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeFaceForward { } unsafe impl GodotObject for VisualShaderNodeFaceForward { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeFaceForward" } } impl std :: ops :: Deref for VisualShaderNodeFaceForward { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeFaceForward { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeFaceForward { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeFaceForward { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeFaceForward { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeFaceForward { } impl Instanciable for VisualShaderNodeFaceForward { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeFaceForward :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeFaceForwardMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeFaceForwardMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeFaceForwardMethodTable = VisualShaderNodeFaceForwardMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeFaceForwardMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeFaceForward\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1084:2890 [INFO] [stdout] | [INFO] [stdout] 1084 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1084 | # [doc = "`tools class EditorResourceConversionPlugin` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorresourceconversionplugin.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nEditorResourceConversionPlugin inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorResourceConversionPlugin { this : RawObject < Self > , } impl EditorResourceConversionPlugin { } impl gdnative_core :: private :: godot_object :: Sealed for EditorResourceConversionPlugin { } unsafe impl GodotObject for EditorResourceConversionPlugin { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "EditorResourceConversionPlugin" } } impl std :: ops :: Deref for EditorResourceConversionPlugin { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorResourceConversionPlugin { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for EditorResourceConversionPlugin { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorResourceConversionPlugin { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorResourceConversionPluginMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl EditorResourceConversionPluginMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorResourceConversionPluginMethodTable = EditorResourceConversionPluginMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorResourceConversionPluginMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorResourceConversionPlugin\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1090:12183 [INFO] [stdout] | [INFO] [stdout] 1090 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1090 | # [doc = "`core class PacketPeerUDP` inherits `PacketPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_packetpeerudp.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPacketPeerUDP inherits methods from:\n - [PacketPeer](struct.PacketPeer.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PacketPeerUDP { this : RawObject < Self > , } impl PacketPeerUDP { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PacketPeerUDPMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Closes the UDP socket the [PacketPeerUDP] is currently listening on."] # [doc = ""] # [inline] pub fn close (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . close ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Calling this method connects this UDP peer to the given `host`/`port` pair. UDP is in reality connectionless, so this option only means that incoming packets from different addresses are automatically discarded, and that outgoing packets are always sent to the connected address (future calls to [method set_dest_address] are not allowed). This method does not send any data to the remote peer, to do that, use [method PacketPeer.put_var] or [method PacketPeer.put_packet] as usual. See also [UDPServer].\nNote: Connecting to the remote peer does not help to protect from malicious attacks like IP spoofing, etc. Think about using an encryption technique like SSL or DTLS if you feel like your application is transfering sensitive information."] # [doc = ""] # [inline] pub fn connect_to_host (& self , host : impl Into < GodotString > , port : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . connect_to_host ; let ret = crate :: icalls :: icallptr_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , host . into () , port) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Returns the IP of the remote peer that sent the last packet(that was received with [method PacketPeer.get_packet] or [method PacketPeer.get_var])."] # [doc = ""] # [inline] pub fn get_packet_ip (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . get_packet_ip ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the port of the remote peer that sent the last packet(that was received with [method PacketPeer.get_packet] or [method PacketPeer.get_var])."] # [doc = ""] # [inline] pub fn get_packet_port (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . get_packet_port ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the UDP socket is open and has been connected to a remote address. See [method connect_to_host]."] # [doc = ""] # [inline] pub fn is_connected_to_host (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . is_connected_to_host ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether this [PacketPeerUDP] is listening."] # [doc = ""] # [inline] pub fn is_listening (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . is_listening ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Joins the multicast group specified by `multicast_address` using the interface identified by `interface_name`.\nYou can join the same multicast group with multiple interfaces. Use [method IP.get_local_interfaces] to know which are available.\nNote: Some Android devices might require the `CHANGE_WIFI_MULTICAST_STATE` permission for multicast to work."] # [doc = ""] # [inline] pub fn join_multicast_group (& self , multicast_address : impl Into < GodotString > , interface_name : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . join_multicast_group ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , multicast_address . into () , interface_name . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Removes the interface identified by `interface_name` from the multicast group specified by `multicast_address`."] # [doc = ""] # [inline] pub fn leave_multicast_group (& self , multicast_address : impl Into < GodotString > , interface_name : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . leave_multicast_group ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , multicast_address . into () , interface_name . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Makes this [PacketPeerUDP] listen on the `port` binding to `bind_address` with a buffer size `recv_buf_size`.\nIf `bind_address` is set to `\"*\"` (default), the peer will listen on all available addresses (both IPv4 and IPv6).\nIf `bind_address` is set to `\"0.0.0.0\"` (for IPv4) or `\"::\"` (for IPv6), the peer will listen on all available addresses matching that IP type.\nIf `bind_address` is set to any valid address (e.g. `\"192.168.1.101\"`, `\"::1\"`, etc), the peer will only listen on the interface with that addresses (or fail if no interface with the given address exists).\n# Default Arguments\n* `bind_address` - `\"*\"`\n* `recv_buf_size` - `65536`"] # [doc = ""] # [inline] pub fn listen (& self , port : i64 , bind_address : impl Into < GodotString > , recv_buf_size : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . listen ; let ret = crate :: icalls :: icallptr_i64_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , port , bind_address . into () , recv_buf_size) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Enable or disable sending of broadcast packets (e.g. `set_dest_address(\"255.255.255.255\", 4343)`. This option is disabled by default.\nNote: Some Android devices might require the `CHANGE_WIFI_MULTICAST_STATE` permission and this option to be enabled to receive broadcast packets too."] # [doc = ""] # [inline] pub fn set_broadcast_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . set_broadcast_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Sets the destination address and port for sending packets and variables. A hostname will be resolved using DNS if needed.\nNote: [method set_broadcast_enabled] must be enabled before sending packets to a broadcast address (e.g. `255.255.255.255`)."] # [doc = ""] # [inline] pub fn set_dest_address (& self , host : impl Into < GodotString > , port : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . set_dest_address ; let ret = crate :: icalls :: icallptr_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , host . into () , port) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Waits for a packet to arrive on the listening port. See [method listen]."] # [doc = ""] # [inline] pub fn wait (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerUDPMethodTable :: get (get_api ()) . wait ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for PacketPeerUDP { } unsafe impl GodotObject for PacketPeerUDP { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PacketPeerUDP" } } impl std :: ops :: Deref for PacketPeerUDP { type Target = crate :: generated :: packet_peer :: PacketPeer ; # [inline] fn deref (& self) -> & crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PacketPeerUDP { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: packet_peer :: PacketPeer > for PacketPeerUDP { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PacketPeerUDP { } unsafe impl SubClass < crate :: generated :: object :: Object > for PacketPeerUDP { } impl Instanciable for PacketPeerUDP { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PacketPeerUDP :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PacketPeerUDPMethodTable { pub class_constructor : sys :: godot_class_constructor , pub close : * mut sys :: godot_method_bind , pub connect_to_host : * mut sys :: godot_method_bind , pub get_packet_ip : * mut sys :: godot_method_bind , pub get_packet_port : * mut sys :: godot_method_bind , pub is_connected_to_host : * mut sys :: godot_method_bind , pub is_listening : * mut sys :: godot_method_bind , pub join_multicast_group : * mut sys :: godot_method_bind , pub leave_multicast_group : * mut sys :: godot_method_bind , pub listen : * mut sys :: godot_method_bind , pub set_broadcast_enabled : * mut sys :: godot_method_bind , pub set_dest_address : * mut sys :: godot_method_bind , pub wait : * mut sys :: godot_method_bind } impl PacketPeerUDPMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PacketPeerUDPMethodTable = PacketPeerUDPMethodTable { class_constructor : None , close : 0 as * mut sys :: godot_method_bind , connect_to_host : 0 as * mut sys :: godot_method_bind , get_packet_ip : 0 as * mut sys :: godot_method_bind , get_packet_port : 0 as * mut sys :: godot_method_bind , is_connected_to_host : 0 as * mut sys :: godot_method_bind , is_listening : 0 as * mut sys :: godot_method_bind , join_multicast_group : 0 as * mut sys :: godot_method_bind , leave_multicast_group : 0 as * mut sys :: godot_method_bind , listen : 0 as * mut sys :: godot_method_bind , set_broadcast_enabled : 0 as * mut sys :: godot_method_bind , set_dest_address : 0 as * mut sys :: godot_method_bind , wait : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PacketPeerUDPMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PacketPeerUDP\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . close = (gd_api . godot_method_bind_get_method) (class_name , "close\0" . as_ptr () as * const c_char) ; table . connect_to_host = (gd_api . godot_method_bind_get_method) (class_name , "connect_to_host\0" . as_ptr () as * const c_char) ; table . get_packet_ip = (gd_api . godot_method_bind_get_method) (class_name , "get_packet_ip\0" . as_ptr () as * const c_char) ; table . get_packet_port = (gd_api . godot_method_bind_get_method) (class_name , "get_packet_port\0" . as_ptr () as * const c_char) ; table . is_connected_to_host = (gd_api . godot_method_bind_get_method) (class_name , "is_connected_to_host\0" . as_ptr () as * const c_char) ; table . is_listening = (gd_api . godot_method_bind_get_method) (class_name , "is_listening\0" . as_ptr () as * const c_char) ; table . join_multicast_group = (gd_api . godot_method_bind_get_method) (class_name , "join_multicast_group\0" . as_ptr () as * const c_char) ; table . leave_multicast_group = (gd_api . godot_method_bind_get_method) (class_name , "leave_multicast_group\0" . as_ptr () as * const c_char) ; table . listen = (gd_api . godot_method_bind_get_method) (class_name , "listen\0" . as_ptr () as * const c_char) ; table . set_broadcast_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_broadcast_enabled\0" . as_ptr () as * const c_char) ; table . set_dest_address = (gd_api . godot_method_bind_get_method) (class_name , "set_dest_address\0" . as_ptr () as * const c_char) ; table . wait = (gd_api . godot_method_bind_get_method) (class_name , "wait\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1096:9547 [INFO] [stdout] | [INFO] [stdout] 1096 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1096 | # [doc = "`core class ImageTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_imagetexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nImageTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ImageTexture { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Storage (pub i64) ; impl Storage { pub const RAW : Storage = Storage (0i64) ; pub const COMPRESS_LOSSY : Storage = Storage (1i64) ; pub const COMPRESS_LOSSLESS : Storage = Storage (2i64) ; } impl From < i64 > for Storage { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Storage > for i64 { # [inline] fn from (v : Storage) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ImageTexture { pub const STORAGE_COMPRESS_LOSSLESS : i64 = 2i64 ; pub const STORAGE_COMPRESS_LOSSY : i64 = 1i64 ; pub const STORAGE_RAW : i64 = 0i64 ; } impl ImageTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ImageTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Create a new [ImageTexture] with `width` and `height`.\n`format` is a value from [enum Image.Format], `flags` is any combination of [enum Texture.Flags].\n# Default Arguments\n* `flags` - `7`"] # [doc = ""] # [inline] pub fn create (& self , width : i64 , height : i64 , format : i64 , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . create ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , width , height , format , flags) ; } } # [doc = "Create a new [ImageTexture] from an [Image] with `flags` from [enum Texture.Flags]. An sRGB to linear color space conversion can take place, according to [enum Image.Format].\n# Default Arguments\n* `flags` - `7`"] # [doc = ""] # [inline] pub fn create_from_image (& self , image : impl AsArg < crate :: generated :: image :: Image > , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . create_from_image ; let ret = crate :: icalls :: icallptr_void_obj_i64 (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , flags) ; } } # [doc = "Returns the format of the [ImageTexture], one of [enum Image.Format]."] # [doc = ""] # [inline] pub fn get_format (& self) -> crate :: generated :: image :: Format { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . get_format ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: image :: Format (ret) } } # [doc = "The storage quality for [constant STORAGE_COMPRESS_LOSSY]."] # [doc = ""] # [inline] pub fn lossy_storage_quality (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . get_lossy_storage_quality ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The storage type (raw, lossy, or compressed)."] # [doc = ""] # [inline] pub fn storage (& self) -> crate :: generated :: image_texture :: Storage { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . get_storage ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: image_texture :: Storage (ret) } } # [doc = "Load an [ImageTexture] from a file path."] # [doc = ""] # [inline] pub fn load (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . load ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Sets the [Image] of this [ImageTexture]."] # [doc = ""] # [inline] pub fn set_data (& self , image : impl AsArg < crate :: generated :: image :: Image >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . set_data ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr ()) ; } } # [doc = "The storage quality for [constant STORAGE_COMPRESS_LOSSY]."] # [doc = ""] # [inline] pub fn set_lossy_storage_quality (& self , quality : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . set_lossy_storage_quality ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , quality) ; } } # [doc = "Resizes the [ImageTexture] to the specified dimensions."] # [doc = ""] # [inline] pub fn set_size_override (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . set_size_override ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "The storage type (raw, lossy, or compressed)."] # [doc = ""] # [inline] pub fn set_storage (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ImageTextureMethodTable :: get (get_api ()) . set_storage ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ImageTexture { } unsafe impl GodotObject for ImageTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ImageTexture" } } impl std :: ops :: Deref for ImageTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ImageTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for ImageTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ImageTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ImageTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for ImageTexture { } impl Instanciable for ImageTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ImageTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ImageTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub create : * mut sys :: godot_method_bind , pub create_from_image : * mut sys :: godot_method_bind , pub get_format : * mut sys :: godot_method_bind , pub get_lossy_storage_quality : * mut sys :: godot_method_bind , pub get_storage : * mut sys :: godot_method_bind , pub load : * mut sys :: godot_method_bind , pub set_data : * mut sys :: godot_method_bind , pub set_lossy_storage_quality : * mut sys :: godot_method_bind , pub set_size_override : * mut sys :: godot_method_bind , pub set_storage : * mut sys :: godot_method_bind } impl ImageTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ImageTextureMethodTable = ImageTextureMethodTable { class_constructor : None , create : 0 as * mut sys :: godot_method_bind , create_from_image : 0 as * mut sys :: godot_method_bind , get_format : 0 as * mut sys :: godot_method_bind , get_lossy_storage_quality : 0 as * mut sys :: godot_method_bind , get_storage : 0 as * mut sys :: godot_method_bind , load : 0 as * mut sys :: godot_method_bind , set_data : 0 as * mut sys :: godot_method_bind , set_lossy_storage_quality : 0 as * mut sys :: godot_method_bind , set_size_override : 0 as * mut sys :: godot_method_bind , set_storage : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ImageTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ImageTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . create = (gd_api . godot_method_bind_get_method) (class_name , "create\0" . as_ptr () as * const c_char) ; table . create_from_image = (gd_api . godot_method_bind_get_method) (class_name , "create_from_image\0" . as_ptr () as * const c_char) ; table . get_format = (gd_api . godot_method_bind_get_method) (class_name , "get_format\0" . as_ptr () as * const c_char) ; table . get_lossy_storage_quality = (gd_api . godot_method_bind_get_method) (class_name , "get_lossy_storage_quality\0" . as_ptr () as * const c_char) ; table . get_storage = (gd_api . godot_method_bind_get_method) (class_name , "get_storage\0" . as_ptr () as * const c_char) ; table . load = (gd_api . godot_method_bind_get_method) (class_name , "load\0" . as_ptr () as * const c_char) ; table . set_data = (gd_api . godot_method_bind_get_method) (class_name , "set_data\0" . as_ptr () as * const c_char) ; table . set_lossy_storage_quality = (gd_api . godot_method_bind_get_method) (class_name , "set_lossy_storage_quality\0" . as_ptr () as * const c_char) ; table . set_size_override = (gd_api . godot_method_bind_get_method) (class_name , "set_size_override\0" . as_ptr () as * const c_char) ; table . set_storage = (gd_api . godot_method_bind_get_method) (class_name , "set_storage\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1102:3595 [INFO] [stdout] | [INFO] [stdout] 1102 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1102 | # [doc = "`core class VisualShaderNodeIf` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodeif.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeIf inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeIf { this : RawObject < Self > , } impl VisualShaderNodeIf { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeIfMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeIf { } unsafe impl GodotObject for VisualShaderNodeIf { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeIf" } } impl std :: ops :: Deref for VisualShaderNodeIf { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeIf { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeIf { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeIf { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeIf { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeIf { } impl Instanciable for VisualShaderNodeIf { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeIf :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeIfMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeIfMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeIfMethodTable = VisualShaderNodeIfMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeIfMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeIf\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1108:4015 [INFO] [stdout] | [INFO] [stdout] 1108 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1108 | # [doc = "`core class VisualShaderNodeVectorScalarSmoothStep` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorscalarsmoothstep.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorScalarSmoothStep inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarSmoothStep { this : RawObject < Self > , } impl VisualShaderNodeVectorScalarSmoothStep { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeVectorScalarSmoothStepMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVectorScalarSmoothStep { } unsafe impl GodotObject for VisualShaderNodeVectorScalarSmoothStep { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorScalarSmoothStep" } } impl std :: ops :: Deref for VisualShaderNodeVectorScalarSmoothStep { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeVectorScalarSmoothStep { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeVectorScalarSmoothStep { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorScalarSmoothStep { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorScalarSmoothStep { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorScalarSmoothStep { } impl Instanciable for VisualShaderNodeVectorScalarSmoothStep { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorScalarSmoothStep :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorScalarSmoothStepMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorScalarSmoothStepMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorScalarSmoothStepMethodTable = VisualShaderNodeVectorScalarSmoothStepMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeVectorScalarSmoothStepMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorScalarSmoothStep\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1114:7448 [INFO] [stdout] | [INFO] [stdout] 1114 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1114 | # [doc = "`core class WebSocketPeer` inherits `PacketPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_websocketpeer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nWebSocketPeer inherits methods from:\n - [PacketPeer](struct.PacketPeer.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct WebSocketPeer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct WriteMode (pub i64) ; impl WriteMode { pub const TEXT : WriteMode = WriteMode (0i64) ; pub const BINARY : WriteMode = WriteMode (1i64) ; } impl From < i64 > for WriteMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < WriteMode > for i64 { # [inline] fn from (v : WriteMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl WebSocketPeer { pub const WRITE_MODE_BINARY : i64 = 1i64 ; pub const WRITE_MODE_TEXT : i64 = 0i64 ; } impl WebSocketPeer { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = WebSocketPeerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn close (& self , code : i64 , reason : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . close ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , code , reason . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_connected_host (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . get_connected_host ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_connected_port (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . get_connected_port ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_write_mode (& self) -> crate :: generated :: web_socket_peer :: WriteMode { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . get_write_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: web_socket_peer :: WriteMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_connected_to_host (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . is_connected_to_host ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_no_delay (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . set_no_delay ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_write_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . set_write_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn was_string_packet (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketPeerMethodTable :: get (get_api ()) . was_string_packet ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for WebSocketPeer { } unsafe impl GodotObject for WebSocketPeer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "WebSocketPeer" } } impl std :: ops :: Deref for WebSocketPeer { type Target = crate :: generated :: packet_peer :: PacketPeer ; # [inline] fn deref (& self) -> & crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WebSocketPeer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: packet_peer :: PacketPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: packet_peer :: PacketPeer > for WebSocketPeer { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for WebSocketPeer { } unsafe impl SubClass < crate :: generated :: object :: Object > for WebSocketPeer { } impl Instanciable for WebSocketPeer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { WebSocketPeer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WebSocketPeerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub close : * mut sys :: godot_method_bind , pub get_connected_host : * mut sys :: godot_method_bind , pub get_connected_port : * mut sys :: godot_method_bind , pub get_write_mode : * mut sys :: godot_method_bind , pub is_connected_to_host : * mut sys :: godot_method_bind , pub set_no_delay : * mut sys :: godot_method_bind , pub set_write_mode : * mut sys :: godot_method_bind , pub was_string_packet : * mut sys :: godot_method_bind } impl WebSocketPeerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WebSocketPeerMethodTable = WebSocketPeerMethodTable { class_constructor : None , close : 0 as * mut sys :: godot_method_bind , get_connected_host : 0 as * mut sys :: godot_method_bind , get_connected_port : 0 as * mut sys :: godot_method_bind , get_write_mode : 0 as * mut sys :: godot_method_bind , is_connected_to_host : 0 as * mut sys :: godot_method_bind , set_no_delay : 0 as * mut sys :: godot_method_bind , set_write_mode : 0 as * mut sys :: godot_method_bind , was_string_packet : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { WebSocketPeerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WebSocketPeer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . close = (gd_api . godot_method_bind_get_method) (class_name , "close\0" . as_ptr () as * const c_char) ; table . get_connected_host = (gd_api . godot_method_bind_get_method) (class_name , "get_connected_host\0" . as_ptr () as * const c_char) ; table . get_connected_port = (gd_api . godot_method_bind_get_method) (class_name , "get_connected_port\0" . as_ptr () as * const c_char) ; table . get_write_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_write_mode\0" . as_ptr () as * const c_char) ; table . is_connected_to_host = (gd_api . godot_method_bind_get_method) (class_name , "is_connected_to_host\0" . as_ptr () as * const c_char) ; table . set_no_delay = (gd_api . godot_method_bind_get_method) (class_name , "set_no_delay\0" . as_ptr () as * const c_char) ; table . set_write_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_write_mode\0" . as_ptr () as * const c_char) ; table . was_string_packet = (gd_api . godot_method_bind_get_method) (class_name , "was_string_packet\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1120:5625 [INFO] [stdout] | [INFO] [stdout] 1120 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1120 | # [doc = "`core class PhysicsShapeQueryResult` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physicsshapequeryresult.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPhysicsShapeQueryResult inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PhysicsShapeQueryResult { this : RawObject < Self > , } impl PhysicsShapeQueryResult { # [doc = "Returns the number of objects that intersected with the shape."] # [doc = ""] # [inline] pub fn get_result_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryResultMethodTable :: get (get_api ()) . get_result_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the [Object] that intersected with the shape at index `idx`."] # [doc = ""] # [inline] pub fn get_result_object (& self , idx : i64) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryResultMethodTable :: get (get_api ()) . get_result_object ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the instance ID of the [Object] that intersected with the shape at index `idx`."] # [doc = ""] # [inline] pub fn get_result_object_id (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryResultMethodTable :: get (get_api ()) . get_result_object_id ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the child index of the object's [Shape] that intersected with the shape at index `idx`."] # [doc = ""] # [inline] pub fn get_result_object_shape (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryResultMethodTable :: get (get_api ()) . get_result_object_shape ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the [RID] of the object that intersected with the shape at index `idx`."] # [doc = ""] # [inline] pub fn get_result_rid (& self , idx : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsShapeQueryResultMethodTable :: get (get_api ()) . get_result_rid ; let ret = crate :: icalls :: icallptr_rid_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Rid :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for PhysicsShapeQueryResult { } unsafe impl GodotObject for PhysicsShapeQueryResult { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PhysicsShapeQueryResult" } } impl std :: ops :: Deref for PhysicsShapeQueryResult { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PhysicsShapeQueryResult { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PhysicsShapeQueryResult { } unsafe impl SubClass < crate :: generated :: object :: Object > for PhysicsShapeQueryResult { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PhysicsShapeQueryResultMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_result_count : * mut sys :: godot_method_bind , pub get_result_object : * mut sys :: godot_method_bind , pub get_result_object_id : * mut sys :: godot_method_bind , pub get_result_object_shape : * mut sys :: godot_method_bind , pub get_result_rid : * mut sys :: godot_method_bind } impl PhysicsShapeQueryResultMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PhysicsShapeQueryResultMethodTable = PhysicsShapeQueryResultMethodTable { class_constructor : None , get_result_count : 0 as * mut sys :: godot_method_bind , get_result_object : 0 as * mut sys :: godot_method_bind , get_result_object_id : 0 as * mut sys :: godot_method_bind , get_result_object_shape : 0 as * mut sys :: godot_method_bind , get_result_rid : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PhysicsShapeQueryResultMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PhysicsShapeQueryResult\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_result_count = (gd_api . godot_method_bind_get_method) (class_name , "get_result_count\0" . as_ptr () as * const c_char) ; table . get_result_object = (gd_api . godot_method_bind_get_method) (class_name , "get_result_object\0" . as_ptr () as * const c_char) ; table . get_result_object_id = (gd_api . godot_method_bind_get_method) (class_name , "get_result_object_id\0" . as_ptr () as * const c_char) ; table . get_result_object_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_result_object_shape\0" . as_ptr () as * const c_char) ; table . get_result_rid = (gd_api . godot_method_bind_get_method) (class_name , "get_result_rid\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1126:3599 [INFO] [stdout] | [INFO] [stdout] 1126 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1126 | # [doc = "`core class AudioStreamMicrophone` inherits `AudioStream` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audiostreammicrophone.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioStreamMicrophone inherits methods from:\n - [AudioStream](struct.AudioStream.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioStreamMicrophone { this : RawObject < Self > , } impl AudioStreamMicrophone { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioStreamMicrophoneMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioStreamMicrophone { } unsafe impl GodotObject for AudioStreamMicrophone { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioStreamMicrophone" } } impl std :: ops :: Deref for AudioStreamMicrophone { type Target = crate :: generated :: audio_stream :: AudioStream ; # [inline] fn deref (& self) -> & crate :: generated :: audio_stream :: AudioStream { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioStreamMicrophone { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_stream :: AudioStream { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_stream :: AudioStream > for AudioStreamMicrophone { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioStreamMicrophone { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioStreamMicrophone { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioStreamMicrophone { } impl Instanciable for AudioStreamMicrophone { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioStreamMicrophone :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioStreamMicrophoneMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AudioStreamMicrophoneMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioStreamMicrophoneMethodTable = AudioStreamMicrophoneMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioStreamMicrophoneMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioStreamMicrophone\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1132:5080 [INFO] [stdout] | [INFO] [stdout] 1132 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1132 | # [doc = "`tools class EditorSelection` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorselection.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nEditorSelection inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorSelection { this : RawObject < Self > , } impl EditorSelection { # [doc = "Adds a node to the selection."] # [doc = ""] # [inline] pub fn add_node (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSelectionMethodTable :: get (get_api ()) . add_node ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Clear the selection."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSelectionMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Gets the list of selected nodes."] # [doc = ""] # [inline] pub fn get_selected_nodes (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSelectionMethodTable :: get (get_api ()) . get_selected_nodes ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Gets the list of selected nodes, optimized for transform operations (i.e. moving them, rotating, etc). This list avoids situations where a node is selected and also child/grandchild."] # [doc = ""] # [inline] pub fn get_transformable_selected_nodes (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSelectionMethodTable :: get (get_api ()) . get_transformable_selected_nodes ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Removes a node from the selection."] # [doc = ""] # [inline] pub fn remove_node (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSelectionMethodTable :: get (get_api ()) . remove_node ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorSelection { } unsafe impl GodotObject for EditorSelection { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorSelection" } } impl std :: ops :: Deref for EditorSelection { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorSelection { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorSelection { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorSelectionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_node : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_selected_nodes : * mut sys :: godot_method_bind , pub get_transformable_selected_nodes : * mut sys :: godot_method_bind , pub remove_node : * mut sys :: godot_method_bind } impl EditorSelectionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorSelectionMethodTable = EditorSelectionMethodTable { class_constructor : None , add_node : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_selected_nodes : 0 as * mut sys :: godot_method_bind , get_transformable_selected_nodes : 0 as * mut sys :: godot_method_bind , remove_node : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorSelectionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorSelection\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_node = (gd_api . godot_method_bind_get_method) (class_name , "add_node\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . get_selected_nodes = (gd_api . godot_method_bind_get_method) (class_name , "get_selected_nodes\0" . as_ptr () as * const c_char) ; table . get_transformable_selected_nodes = (gd_api . godot_method_bind_get_method) (class_name , "get_transformable_selected_nodes\0" . as_ptr () as * const c_char) ; table . remove_node = (gd_api . godot_method_bind_get_method) (class_name , "remove_node\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1138:5009 [INFO] [stdout] | [INFO] [stdout] 1138 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1138 | # [doc = "`tools class EditorSceneImporter` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorsceneimporter.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nEditorSceneImporter inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorSceneImporter { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl EditorSceneImporter { pub const IMPORT_ANIMATION : i64 = 2i64 ; pub const IMPORT_ANIMATION_DETECT_LOOP : i64 = 4i64 ; pub const IMPORT_ANIMATION_FORCE_ALL_TRACKS_IN_ALL_CLIPS : i64 = 16i64 ; pub const IMPORT_ANIMATION_KEEP_VALUE_TRACKS : i64 = 32i64 ; pub const IMPORT_ANIMATION_OPTIMIZE : i64 = 8i64 ; pub const IMPORT_FAIL_ON_MISSING_DEPENDENCIES : i64 = 512i64 ; pub const IMPORT_GENERATE_TANGENT_ARRAYS : i64 = 256i64 ; pub const IMPORT_MATERIALS_IN_INSTANCES : i64 = 1024i64 ; pub const IMPORT_SCENE : i64 = 1i64 ; pub const IMPORT_USE_COMPRESSION : i64 = 2048i64 ; } impl EditorSceneImporter { # [doc = ""] # [doc = ""] # [inline] pub fn import_animation_from_other_importer (& self , path : impl Into < GodotString > , flags : i64 , bake_fps : i64) -> Option < Ref < crate :: generated :: animation :: Animation , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSceneImporterMethodTable :: get (get_api ()) . import_animation_from_other_importer ; let ret = crate :: icalls :: icallptr_obj_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , path . into () , flags , bake_fps) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: animation :: Animation , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn import_scene_from_other_importer (& self , path : impl Into < GodotString > , flags : i64 , bake_fps : i64) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorSceneImporterMethodTable :: get (get_api ()) . import_scene_from_other_importer ; let ret = crate :: icalls :: icallptr_obj_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , path . into () , flags , bake_fps) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorSceneImporter { } unsafe impl GodotObject for EditorSceneImporter { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "EditorSceneImporter" } } impl std :: ops :: Deref for EditorSceneImporter { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorSceneImporter { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for EditorSceneImporter { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorSceneImporter { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorSceneImporterMethodTable { pub class_constructor : sys :: godot_class_constructor , pub import_animation_from_other_importer : * mut sys :: godot_method_bind , pub import_scene_from_other_importer : * mut sys :: godot_method_bind } impl EditorSceneImporterMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorSceneImporterMethodTable = EditorSceneImporterMethodTable { class_constructor : None , import_animation_from_other_importer : 0 as * mut sys :: godot_method_bind , import_scene_from_other_importer : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorSceneImporterMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorSceneImporter\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . import_animation_from_other_importer = (gd_api . godot_method_bind_get_method) (class_name , "import_animation_from_other_importer\0" . as_ptr () as * const c_char) ; table . import_scene_from_other_importer = (gd_api . godot_method_bind_get_method) (class_name , "import_scene_from_other_importer\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1144:3699 [INFO] [stdout] | [INFO] [stdout] 1144 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1144 | # [doc = "`core class JNISingleton` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_jnisingleton.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`JNISingleton` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nJNISingleton inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct JNISingleton { this : RawObject < Self > , } impl JNISingleton { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = JNISingletonMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for JNISingleton { } unsafe impl GodotObject for JNISingleton { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "JNISingleton" } } impl std :: ops :: Deref for JNISingleton { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for JNISingleton { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for JNISingleton { } impl Instanciable for JNISingleton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { JNISingleton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JNISingletonMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl JNISingletonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JNISingletonMethodTable = JNISingletonMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JNISingletonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "JNISingleton\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1150:12387 [INFO] [stdout] | [INFO] [stdout] 1150 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1150 | # [doc = "`core class AcceptDialog` inherits `WindowDialog` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_acceptdialog.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`AcceptDialog` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nAcceptDialog inherits methods from:\n - [WindowDialog](struct.WindowDialog.html)\n - [Popup](struct.Popup.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AcceptDialog { this : RawObject < Self > , } impl AcceptDialog { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AcceptDialogMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a button with label `text` and a custom `action` to the dialog and returns the created button. `action` will be passed to the [signal custom_action] signal when pressed.\nIf `true`, `right` will place the button to the right of any sibling buttons.\n# Default Arguments\n* `right` - `false`\n* `action` - `\"\"`"] # [doc = ""] # [inline] pub fn add_button (& self , text : impl Into < GodotString > , right : bool , action : impl Into < GodotString >) -> Option < Ref < crate :: generated :: button :: Button , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . add_button ; let ret = crate :: icalls :: icallptr_obj_str_bool_str (method_bind , self . this . sys () . as_ptr () , text . into () , right , action . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: button :: Button , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Adds a button with label `name` and a cancel action to the dialog and returns the created button."] # [doc = ""] # [inline] pub fn add_cancel (& self , name : impl Into < GodotString >) -> Option < Ref < crate :: generated :: button :: Button , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . add_cancel ; let ret = crate :: icalls :: icallptr_obj_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: button :: Button , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, the dialog is hidden when the OK button is pressed. You can set it to `false` if you want to do e.g. input validation when receiving the [signal confirmed] signal, and handle hiding the dialog in your own logic.\n**Note:** Some nodes derived from this class can have a different default value, and potentially their own built-in logic overriding this setting. For example [FileDialog] defaults to `false`, and has its own input validation code that is called when you press OK, which eventually hides the dialog if the input is valid. As such, this property can't be used in [FileDialog] to disable hiding the dialog when pressing OK."] # [doc = ""] # [inline] pub fn hide_on_ok (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . get_hide_on_ok ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the label used for built-in text."] # [doc = ""] # [inline] pub fn get_label (& self) -> Option < Ref < crate :: generated :: label :: Label , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . get_label ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: label :: Label , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the OK [Button] instance."] # [doc = ""] # [inline] pub fn get_ok (& self) -> Option < Ref < crate :: generated :: button :: Button , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . get_ok ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: button :: Button , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The text displayed by the dialog."] # [doc = ""] # [inline] pub fn text (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . get_text ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Sets autowrapping for the text in the dialog."] # [doc = ""] # [inline] pub fn has_autowrap (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . has_autowrap ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Registers a [LineEdit] in the dialog. When the enter key is pressed, the dialog will be accepted."] # [doc = ""] # [inline] pub fn register_text_enter (& self , line_edit : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . register_text_enter ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , line_edit . as_arg_ptr ()) ; } } # [doc = "Sets autowrapping for the text in the dialog."] # [doc = ""] # [inline] pub fn set_autowrap (& self , autowrap : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . set_autowrap ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , autowrap) ; } } # [doc = "If `true`, the dialog is hidden when the OK button is pressed. You can set it to `false` if you want to do e.g. input validation when receiving the [signal confirmed] signal, and handle hiding the dialog in your own logic.\n**Note:** Some nodes derived from this class can have a different default value, and potentially their own built-in logic overriding this setting. For example [FileDialog] defaults to `false`, and has its own input validation code that is called when you press OK, which eventually hides the dialog if the input is valid. As such, this property can't be used in [FileDialog] to disable hiding the dialog when pressing OK."] # [doc = ""] # [inline] pub fn set_hide_on_ok (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . set_hide_on_ok ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The text displayed by the dialog."] # [doc = ""] # [inline] pub fn set_text (& self , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AcceptDialogMethodTable :: get (get_api ()) . set_text ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , text . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AcceptDialog { } unsafe impl GodotObject for AcceptDialog { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "AcceptDialog" } } impl QueueFree for AcceptDialog { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for AcceptDialog { type Target = crate :: generated :: window_dialog :: WindowDialog ; # [inline] fn deref (& self) -> & crate :: generated :: window_dialog :: WindowDialog { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AcceptDialog { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: window_dialog :: WindowDialog { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: window_dialog :: WindowDialog > for AcceptDialog { } unsafe impl SubClass < crate :: generated :: popup :: Popup > for AcceptDialog { } unsafe impl SubClass < crate :: generated :: control :: Control > for AcceptDialog { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for AcceptDialog { } unsafe impl SubClass < crate :: generated :: node :: Node > for AcceptDialog { } unsafe impl SubClass < crate :: generated :: object :: Object > for AcceptDialog { } impl Instanciable for AcceptDialog { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AcceptDialog :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AcceptDialogMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_button : * mut sys :: godot_method_bind , pub add_cancel : * mut sys :: godot_method_bind , pub get_hide_on_ok : * mut sys :: godot_method_bind , pub get_label : * mut sys :: godot_method_bind , pub get_ok : * mut sys :: godot_method_bind , pub get_text : * mut sys :: godot_method_bind , pub has_autowrap : * mut sys :: godot_method_bind , pub register_text_enter : * mut sys :: godot_method_bind , pub set_autowrap : * mut sys :: godot_method_bind , pub set_hide_on_ok : * mut sys :: godot_method_bind , pub set_text : * mut sys :: godot_method_bind } impl AcceptDialogMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AcceptDialogMethodTable = AcceptDialogMethodTable { class_constructor : None , add_button : 0 as * mut sys :: godot_method_bind , add_cancel : 0 as * mut sys :: godot_method_bind , get_hide_on_ok : 0 as * mut sys :: godot_method_bind , get_label : 0 as * mut sys :: godot_method_bind , get_ok : 0 as * mut sys :: godot_method_bind , get_text : 0 as * mut sys :: godot_method_bind , has_autowrap : 0 as * mut sys :: godot_method_bind , register_text_enter : 0 as * mut sys :: godot_method_bind , set_autowrap : 0 as * mut sys :: godot_method_bind , set_hide_on_ok : 0 as * mut sys :: godot_method_bind , set_text : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AcceptDialogMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AcceptDialog\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_button = (gd_api . godot_method_bind_get_method) (class_name , "add_button\0" . as_ptr () as * const c_char) ; table . add_cancel = (gd_api . godot_method_bind_get_method) (class_name , "add_cancel\0" . as_ptr () as * const c_char) ; table . get_hide_on_ok = (gd_api . godot_method_bind_get_method) (class_name , "get_hide_on_ok\0" . as_ptr () as * const c_char) ; table . get_label = (gd_api . godot_method_bind_get_method) (class_name , "get_label\0" . as_ptr () as * const c_char) ; table . get_ok = (gd_api . godot_method_bind_get_method) (class_name , "get_ok\0" . as_ptr () as * const c_char) ; table . get_text = (gd_api . godot_method_bind_get_method) (class_name , "get_text\0" . as_ptr () as * const c_char) ; table . has_autowrap = (gd_api . godot_method_bind_get_method) (class_name , "has_autowrap\0" . as_ptr () as * const c_char) ; table . register_text_enter = (gd_api . godot_method_bind_get_method) (class_name , "register_text_enter\0" . as_ptr () as * const c_char) ; table . set_autowrap = (gd_api . godot_method_bind_get_method) (class_name , "set_autowrap\0" . as_ptr () as * const c_char) ; table . set_hide_on_ok = (gd_api . godot_method_bind_get_method) (class_name , "set_hide_on_ok\0" . as_ptr () as * const c_char) ; table . set_text = (gd_api . godot_method_bind_get_method) (class_name , "set_text\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1156:6872 [INFO] [stdout] | [INFO] [stdout] 1156 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1156 | # [doc = "`core class Joint` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_joint.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nJoint inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Joint { this : RawObject < Self > , } impl Joint { # [doc = "If `true`, the two bodies of the nodes are not able to collide with each other."] # [doc = ""] # [inline] pub fn exclude_nodes_from_collision (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The node attached to the first side (A) of the joint."] # [doc = ""] # [inline] pub fn node_a (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_node_a ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The node attached to the second side (B) of the joint."] # [doc = ""] # [inline] pub fn node_b (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_node_b ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The priority used to define which solver is executed first for multiple joints. The lower the value, the higher the priority."] # [doc = ""] # [inline] pub fn solver_priority (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_solver_priority ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the two bodies of the nodes are not able to collide with each other."] # [doc = ""] # [inline] pub fn set_exclude_nodes_from_collision (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The node attached to the first side (A) of the joint."] # [doc = ""] # [inline] pub fn set_node_a (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_node_a ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } # [doc = "The node attached to the second side (B) of the joint."] # [doc = ""] # [inline] pub fn set_node_b (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_node_b ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } # [doc = "The priority used to define which solver is executed first for multiple joints. The lower the value, the higher the priority."] # [doc = ""] # [inline] pub fn set_solver_priority (& self , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_solver_priority ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , priority) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Joint { } unsafe impl GodotObject for Joint { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Joint" } } impl QueueFree for Joint { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Joint { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Joint { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for Joint { } unsafe impl SubClass < crate :: generated :: node :: Node > for Joint { } unsafe impl SubClass < crate :: generated :: object :: Object > for Joint { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JointMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub get_node_a : * mut sys :: godot_method_bind , pub get_node_b : * mut sys :: godot_method_bind , pub get_solver_priority : * mut sys :: godot_method_bind , pub set_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub set_node_a : * mut sys :: godot_method_bind , pub set_node_b : * mut sys :: godot_method_bind , pub set_solver_priority : * mut sys :: godot_method_bind } impl JointMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JointMethodTable = JointMethodTable { class_constructor : None , get_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , get_node_a : 0 as * mut sys :: godot_method_bind , get_node_b : 0 as * mut sys :: godot_method_bind , get_solver_priority : 0 as * mut sys :: godot_method_bind , set_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , set_node_a : 0 as * mut sys :: godot_method_bind , set_node_b : 0 as * mut sys :: godot_method_bind , set_solver_priority : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JointMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Joint\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . get_node_a = (gd_api . godot_method_bind_get_method) (class_name , "get_node_a\0" . as_ptr () as * const c_char) ; table . get_node_b = (gd_api . godot_method_bind_get_method) (class_name , "get_node_b\0" . as_ptr () as * const c_char) ; table . get_solver_priority = (gd_api . godot_method_bind_get_method) (class_name , "get_solver_priority\0" . as_ptr () as * const c_char) ; table . set_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . set_node_a = (gd_api . godot_method_bind_get_method) (class_name , "set_node_a\0" . as_ptr () as * const c_char) ; table . set_node_b = (gd_api . godot_method_bind_get_method) (class_name , "set_node_b\0" . as_ptr () as * const c_char) ; table . set_solver_priority = (gd_api . godot_method_bind_get_method) (class_name , "set_solver_priority\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1162:10052 [INFO] [stdout] | [INFO] [stdout] 1162 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1162 | # [doc = "`tools class EditorVCSInterface` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorvcsinterface.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nEditorVCSInterface inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorVCSInterface { this : RawObject < Self > , } impl EditorVCSInterface { # [doc = "Creates a version commit if the addon is initialized, else returns without doing anything. Uses the files which have been staged previously, with the commit message set to a value as provided as in the argument."] # [doc = ""] # [inline] pub fn commit (& self , msg : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . commit ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , msg . into ()) ; } } # [doc = "Returns an [Array] of [Dictionary] objects containing the diff output from the VCS in use, if a VCS addon is initialized, else returns an empty [Array] object. The diff contents also consist of some contextual lines which provide context to the observed line change in the file.\nEach [Dictionary] object has the line diff contents under the keys:\n- `\"content\"` to store a [String] containing the line contents\n- `\"status\"` to store a [String] which contains `\"+\"` in case the content is a line addition but it stores a `\"-\"` in case of deletion and an empty string in the case the line content is neither an addition nor a deletion.\n- `\"new_line_number\"` to store an integer containing the new line number of the line content.\n- `\"line_count\"` to store an integer containing the number of lines in the line content.\n- `\"old_line_number\"` to store an integer containing the old line number of the line content.\n- `\"offset\"` to store the offset of the line change since the first contextual line content."] # [doc = ""] # [inline] pub fn get_file_diff (& self , file_path : impl Into < GodotString >) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . get_file_diff ; let ret = crate :: icalls :: icallvar__str (method_bind , self . this . sys () . as_ptr () , file_path . into ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns a [Dictionary] containing the path of the detected file change mapped to an integer signifying what kind of a change the corresponding file has experienced.\nThe following integer values are being used to signify that the detected file is:\n- `0`: New to the VCS working directory\n- `1`: Modified\n- `2`: Renamed\n- `3`: Deleted\n- `4`: Typechanged"] # [doc = ""] # [inline] pub fn get_modified_files_data (& self) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . get_modified_files_data ; let ret = crate :: icalls :: icallptr_dict (method_bind , self . this . sys () . as_ptr ()) ; Dictionary :: from_sys (ret) } } # [doc = "Returns the project name of the VCS working directory."] # [doc = ""] # [inline] pub fn get_project_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . get_project_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the name of the VCS if the VCS has been initialized, else return an empty string."] # [doc = ""] # [inline] pub fn get_vcs_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . get_vcs_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Initializes the VCS addon if not already. Uses the argument value as the path to the working directory of the project. Creates the initial commit if required. Returns `true` if no failure occurs, else returns `false`."] # [doc = ""] # [inline] pub fn initialize (& self , project_root_path : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . initialize ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , project_root_path . into ()) ; ret as _ } } # [doc = "Returns `true` if the addon is ready to respond to function calls, else returns `false`."] # [doc = ""] # [inline] pub fn is_addon_ready (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . is_addon_ready ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the VCS addon has been initialized, else returns `false`."] # [doc = ""] # [inline] pub fn is_vcs_initialized (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . is_vcs_initialized ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Shuts down the VCS addon to allow cleanup code to run on call. Returns `true` is no failure occurs, else returns `false`."] # [doc = ""] # [inline] pub fn shut_down (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . shut_down ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Stages the file which should be committed when [method EditorVCSInterface.commit] is called. Argument should contain the absolute path."] # [doc = ""] # [inline] pub fn stage_file (& self , file_path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . stage_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , file_path . into ()) ; } } # [doc = "Unstages the file which was staged previously to be committed, so that it is no longer committed when [method EditorVCSInterface.commit] is called. Argument should contain the absolute path."] # [doc = ""] # [inline] pub fn unstage_file (& self , file_path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorVCSInterfaceMethodTable :: get (get_api ()) . unstage_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , file_path . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorVCSInterface { } unsafe impl GodotObject for EditorVCSInterface { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorVCSInterface" } } impl std :: ops :: Deref for EditorVCSInterface { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorVCSInterface { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorVCSInterface { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorVCSInterfaceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub commit : * mut sys :: godot_method_bind , pub get_file_diff : * mut sys :: godot_method_bind , pub get_modified_files_data : * mut sys :: godot_method_bind , pub get_project_name : * mut sys :: godot_method_bind , pub get_vcs_name : * mut sys :: godot_method_bind , pub initialize : * mut sys :: godot_method_bind , pub is_addon_ready : * mut sys :: godot_method_bind , pub is_vcs_initialized : * mut sys :: godot_method_bind , pub shut_down : * mut sys :: godot_method_bind , pub stage_file : * mut sys :: godot_method_bind , pub unstage_file : * mut sys :: godot_method_bind } impl EditorVCSInterfaceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorVCSInterfaceMethodTable = EditorVCSInterfaceMethodTable { class_constructor : None , commit : 0 as * mut sys :: godot_method_bind , get_file_diff : 0 as * mut sys :: godot_method_bind , get_modified_files_data : 0 as * mut sys :: godot_method_bind , get_project_name : 0 as * mut sys :: godot_method_bind , get_vcs_name : 0 as * mut sys :: godot_method_bind , initialize : 0 as * mut sys :: godot_method_bind , is_addon_ready : 0 as * mut sys :: godot_method_bind , is_vcs_initialized : 0 as * mut sys :: godot_method_bind , shut_down : 0 as * mut sys :: godot_method_bind , stage_file : 0 as * mut sys :: godot_method_bind , unstage_file : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorVCSInterfaceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorVCSInterface\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . commit = (gd_api . godot_method_bind_get_method) (class_name , "commit\0" . as_ptr () as * const c_char) ; table . get_file_diff = (gd_api . godot_method_bind_get_method) (class_name , "get_file_diff\0" . as_ptr () as * const c_char) ; table . get_modified_files_data = (gd_api . godot_method_bind_get_method) (class_name , "get_modified_files_data\0" . as_ptr () as * const c_char) ; table . get_project_name = (gd_api . godot_method_bind_get_method) (class_name , "get_project_name\0" . as_ptr () as * const c_char) ; table . get_vcs_name = (gd_api . godot_method_bind_get_method) (class_name , "get_vcs_name\0" . as_ptr () as * const c_char) ; table . initialize = (gd_api . godot_method_bind_get_method) (class_name , "initialize\0" . as_ptr () as * const c_char) ; table . is_addon_ready = (gd_api . godot_method_bind_get_method) (class_name , "is_addon_ready\0" . as_ptr () as * const c_char) ; table . is_vcs_initialized = (gd_api . godot_method_bind_get_method) (class_name , "is_vcs_initialized\0" . as_ptr () as * const c_char) ; table . shut_down = (gd_api . godot_method_bind_get_method) (class_name , "shut_down\0" . as_ptr () as * const c_char) ; table . stage_file = (gd_api . godot_method_bind_get_method) (class_name , "stage_file\0" . as_ptr () as * const c_char) ; table . unstage_file = (gd_api . godot_method_bind_get_method) (class_name , "unstage_file\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1168:4202 [INFO] [stdout] | [INFO] [stdout] 1168 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1168 | # [doc = "`core class Panel` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_panel.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Panel` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nPanel inherits methods from:\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Panel { this : RawObject < Self > , } impl Panel { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = PanelMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for Panel { } unsafe impl GodotObject for Panel { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Panel" } } impl QueueFree for Panel { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Panel { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Panel { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for Panel { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Panel { } unsafe impl SubClass < crate :: generated :: node :: Node > for Panel { } unsafe impl SubClass < crate :: generated :: object :: Object > for Panel { } impl Instanciable for Panel { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Panel :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PanelMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl PanelMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PanelMethodTable = PanelMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PanelMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Panel\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1174:12136 [INFO] [stdout] | [INFO] [stdout] 1174 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1174 | # [doc = "`core class Physics2DDirectSpaceState` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physics2ddirectspacestate.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nPhysics2DDirectSpaceState inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Physics2DDirectSpaceState { this : RawObject < Self > , } impl Physics2DDirectSpaceState { # [doc = "Checks how far the shape can travel toward a point. If the shape can not move, the array will be empty.\n**Note:** Both the shape and the motion are supplied through a [Physics2DShapeQueryParameters] object. The method will return an array with two floats between 0 and 1, both representing a fraction of `motion`. The first is how far the shape can move without triggering a collision, and the second is the point at which a collision will occur. If no collision is detected, the returned array will be `[1, 1]`."] # [doc = ""] # [inline] pub fn cast_motion (& self , shape : impl AsArg < crate :: generated :: physics_2d_shape_query_parameters :: Physics2DShapeQueryParameters >) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectSpaceStateMethodTable :: get (get_api ()) . cast_motion ; let ret = crate :: icalls :: icallvar__obj (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Checks the intersections of a shape, given through a [Physics2DShapeQueryParameters] object, against the space. The resulting array contains a list of points where the shape intersects another. Like with [method intersect_shape], the number of returned results can be limited to save processing time.\n# Default Arguments\n* `max_results` - `32`"] # [doc = ""] # [inline] pub fn collide_shape (& self , shape : impl AsArg < crate :: generated :: physics_2d_shape_query_parameters :: Physics2DShapeQueryParameters > , max_results : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectSpaceStateMethodTable :: get (get_api ()) . collide_shape ; let ret = crate :: icalls :: icallvar__obj_i64 (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr () , max_results) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Checks the intersections of a shape, given through a [Physics2DShapeQueryParameters] object, against the space. If it collides with more than one shape, the nearest one is selected. If the shape did not intersect anything, then an empty dictionary is returned instead.\n**Note:** This method does not take into account the `motion` property of the object. The returned object is a dictionary containing the following fields:\n`collider_id`: The colliding object's ID.\n`linear_velocity`: The colliding object's velocity [Vector2]. If the object is an [Area2D], the result is `(0, 0)`.\n`metadata`: The intersecting shape's metadata. This metadata is different from [method Object.get_meta], and is set with [method Physics2DServer.shape_set_data].\n`normal`: The object's surface normal at the intersection point.\n`point`: The intersection point.\n`rid`: The intersecting object's [RID].\n`shape`: The shape index of the colliding shape."] # [doc = ""] # [inline] pub fn get_rest_info (& self , shape : impl AsArg < crate :: generated :: physics_2d_shape_query_parameters :: Physics2DShapeQueryParameters >) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectSpaceStateMethodTable :: get (get_api ()) . get_rest_info ; let ret = crate :: icalls :: icallptr_dict_obj (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr ()) ; Dictionary :: from_sys (ret) } } # [doc = "Checks whether a point is inside any shape. The shapes the point is inside of are returned in an array containing dictionaries with the following fields:\n`collider`: The colliding object.\n`collider_id`: The colliding object's ID.\n`metadata`: The intersecting shape's metadata. This metadata is different from [method Object.get_meta], and is set with [method Physics2DServer.shape_set_data].\n`rid`: The intersecting object's [RID].\n`shape`: The shape index of the colliding shape.\nAdditionally, the method can take an `exclude` array of objects or [RID]s that are to be excluded from collisions, a `collision_mask` bitmask representing the physics layers to check in, or booleans to determine if the ray should collide with [PhysicsBody]s or [Area]s, respectively.\n# Default Arguments\n* `max_results` - `32`\n* `exclude` - `[ ]`\n* `collision_layer` - `2147483647`\n* `collide_with_bodies` - `true`\n* `collide_with_areas` - `false`"] # [doc = ""] # [inline] pub fn intersect_point (& self , point : Vector2 , max_results : i64 , exclude : VariantArray , collision_layer : i64 , collide_with_bodies : bool , collide_with_areas : bool) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectSpaceStateMethodTable :: get (get_api ()) . intersect_point ; let ret = crate :: icalls :: icallvar__vec2_i64_arr_i64_bool_bool (method_bind , self . this . sys () . as_ptr () , point , max_results , exclude , collision_layer , collide_with_bodies , collide_with_areas) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "\n# Default Arguments\n* `max_results` - `32`\n* `exclude` - `[ ]`\n* `collision_layer` - `2147483647`\n* `collide_with_bodies` - `true`\n* `collide_with_areas` - `false`"] # [doc = ""] # [inline] pub fn intersect_point_on_canvas (& self , point : Vector2 , canvas_instance_id : i64 , max_results : i64 , exclude : VariantArray , collision_layer : i64 , collide_with_bodies : bool , collide_with_areas : bool) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectSpaceStateMethodTable :: get (get_api ()) . intersect_point_on_canvas ; let ret = crate :: icalls :: icallvar__vec2_i64_i64_arr_i64_bool_bool (method_bind , self . this . sys () . as_ptr () , point , canvas_instance_id , max_results , exclude , collision_layer , collide_with_bodies , collide_with_areas) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Intersects a ray in a given space. The returned object is a dictionary with the following fields:\n`collider`: The colliding object.\n`collider_id`: The colliding object's ID.\n`metadata`: The intersecting shape's metadata. This metadata is different from [method Object.get_meta], and is set with [method Physics2DServer.shape_set_data].\n`normal`: The object's surface normal at the intersection point.\n`position`: The intersection point.\n`rid`: The intersecting object's [RID].\n`shape`: The shape index of the colliding shape.\nIf the ray did not intersect anything, then an empty dictionary is returned instead.\nAdditionally, the method can take an `exclude` array of objects or [RID]s that are to be excluded from collisions, a `collision_mask` bitmask representing the physics layers to check in, or booleans to determine if the ray should collide with [PhysicsBody]s or [Area]s, respectively.\n# Default Arguments\n* `exclude` - `[ ]`\n* `collision_layer` - `2147483647`\n* `collide_with_bodies` - `true`\n* `collide_with_areas` - `false`"] # [doc = ""] # [inline] pub fn intersect_ray (& self , from : Vector2 , to : Vector2 , exclude : VariantArray , collision_layer : i64 , collide_with_bodies : bool , collide_with_areas : bool) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectSpaceStateMethodTable :: get (get_api ()) . intersect_ray ; let ret = crate :: icalls :: icallptr_dict_vec2_vec2_arr_i64_bool_bool (method_bind , self . this . sys () . as_ptr () , from , to , exclude , collision_layer , collide_with_bodies , collide_with_areas) ; Dictionary :: from_sys (ret) } } # [doc = "Checks the intersections of a shape, given through a [Physics2DShapeQueryParameters] object, against the space.\n**Note:** This method does not take into account the `motion` property of the object. The intersected shapes are returned in an array containing dictionaries with the following fields:\n`collider`: The colliding object.\n`collider_id`: The colliding object's ID.\n`metadata`: The intersecting shape's metadata. This metadata is different from [method Object.get_meta], and is set with [method Physics2DServer.shape_set_data].\n`rid`: The intersecting object's [RID].\n`shape`: The shape index of the colliding shape.\nThe number of intersections can be limited with the `max_results` parameter, to reduce the processing time.\n# Default Arguments\n* `max_results` - `32`"] # [doc = ""] # [inline] pub fn intersect_shape (& self , shape : impl AsArg < crate :: generated :: physics_2d_shape_query_parameters :: Physics2DShapeQueryParameters > , max_results : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DDirectSpaceStateMethodTable :: get (get_api ()) . intersect_shape ; let ret = crate :: icalls :: icallvar__obj_i64 (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr () , max_results) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } } impl gdnative_core :: private :: godot_object :: Sealed for Physics2DDirectSpaceState { } unsafe impl GodotObject for Physics2DDirectSpaceState { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Physics2DDirectSpaceState" } } impl std :: ops :: Deref for Physics2DDirectSpaceState { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Physics2DDirectSpaceState { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for Physics2DDirectSpaceState { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Physics2DDirectSpaceStateMethodTable { pub class_constructor : sys :: godot_class_constructor , pub cast_motion : * mut sys :: godot_method_bind , pub collide_shape : * mut sys :: godot_method_bind , pub get_rest_info : * mut sys :: godot_method_bind , pub intersect_point : * mut sys :: godot_method_bind , pub intersect_point_on_canvas : * mut sys :: godot_method_bind , pub intersect_ray : * mut sys :: godot_method_bind , pub intersect_shape : * mut sys :: godot_method_bind } impl Physics2DDirectSpaceStateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Physics2DDirectSpaceStateMethodTable = Physics2DDirectSpaceStateMethodTable { class_constructor : None , cast_motion : 0 as * mut sys :: godot_method_bind , collide_shape : 0 as * mut sys :: godot_method_bind , get_rest_info : 0 as * mut sys :: godot_method_bind , intersect_point : 0 as * mut sys :: godot_method_bind , intersect_point_on_canvas : 0 as * mut sys :: godot_method_bind , intersect_ray : 0 as * mut sys :: godot_method_bind , intersect_shape : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Physics2DDirectSpaceStateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Physics2DDirectSpaceState\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . cast_motion = (gd_api . godot_method_bind_get_method) (class_name , "cast_motion\0" . as_ptr () as * const c_char) ; table . collide_shape = (gd_api . godot_method_bind_get_method) (class_name , "collide_shape\0" . as_ptr () as * const c_char) ; table . get_rest_info = (gd_api . godot_method_bind_get_method) (class_name , "get_rest_info\0" . as_ptr () as * const c_char) ; table . intersect_point = (gd_api . godot_method_bind_get_method) (class_name , "intersect_point\0" . as_ptr () as * const c_char) ; table . intersect_point_on_canvas = (gd_api . godot_method_bind_get_method) (class_name , "intersect_point_on_canvas\0" . as_ptr () as * const c_char) ; table . intersect_ray = (gd_api . godot_method_bind_get_method) (class_name , "intersect_ray\0" . as_ptr () as * const c_char) ; table . intersect_shape = (gd_api . godot_method_bind_get_method) (class_name , "intersect_shape\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1180:13743 [INFO] [stdout] | [INFO] [stdout] 1180 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1180 | # [doc = "`core class Range` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_range.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nRange inherits methods from:\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Range { this : RawObject < Self > , } impl Range { # [doc = "The value mapped between 0 and 1."] # [doc = ""] # [inline] pub fn as_ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . get_as_ratio ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Maximum value. Range is clamped if `value` is greater than `max_value`."] # [doc = ""] # [inline] pub fn max (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . get_max ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Minimum value. Range is clamped if `value` is less than `min_value`."] # [doc = ""] # [inline] pub fn min (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . get_min ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Page size. Used mainly for [ScrollBar]. ScrollBar's length is its size multiplied by `page` over the difference between `min_value` and `max_value`."] # [doc = ""] # [inline] pub fn page (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . get_page ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If greater than 0, `value` will always be rounded to a multiple of `step`. If `rounded` is also `true`, `value` will first be rounded to a multiple of `step` then rounded to the nearest integer."] # [doc = ""] # [inline] pub fn step (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . get_step ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Range's current value."] # [doc = ""] # [inline] pub fn value (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . get_value ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, [member value] may be greater than [member max_value]."] # [doc = ""] # [inline] pub fn is_greater_allowed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . is_greater_allowed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, [member value] may be less than [member min_value]."] # [doc = ""] # [inline] pub fn is_lesser_allowed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . is_lesser_allowed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, and `min_value` is greater than 0, `value` will be represented exponentially rather than linearly."] # [doc = ""] # [inline] pub fn is_ratio_exp (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . is_ratio_exp ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, `value` will always be rounded to the nearest integer."] # [doc = ""] # [inline] pub fn is_using_rounded_values (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . is_using_rounded_values ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, [member value] may be greater than [member max_value]."] # [doc = ""] # [inline] pub fn set_allow_greater (& self , allow : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_allow_greater ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , allow) ; } } # [doc = "If `true`, [member value] may be less than [member min_value]."] # [doc = ""] # [inline] pub fn set_allow_lesser (& self , allow : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_allow_lesser ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , allow) ; } } # [doc = "The value mapped between 0 and 1."] # [doc = ""] # [inline] pub fn set_as_ratio (& self , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_as_ratio ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "If `true`, and `min_value` is greater than 0, `value` will be represented exponentially rather than linearly."] # [doc = ""] # [inline] pub fn set_exp_ratio (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_exp_ratio ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Maximum value. Range is clamped if `value` is greater than `max_value`."] # [doc = ""] # [inline] pub fn set_max (& self , maximum : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_max ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , maximum) ; } } # [doc = "Minimum value. Range is clamped if `value` is less than `min_value`."] # [doc = ""] # [inline] pub fn set_min (& self , minimum : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_min ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , minimum) ; } } # [doc = "Page size. Used mainly for [ScrollBar]. ScrollBar's length is its size multiplied by `page` over the difference between `min_value` and `max_value`."] # [doc = ""] # [inline] pub fn set_page (& self , pagesize : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_page ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , pagesize) ; } } # [doc = "If greater than 0, `value` will always be rounded to a multiple of `step`. If `rounded` is also `true`, `value` will first be rounded to a multiple of `step` then rounded to the nearest integer."] # [doc = ""] # [inline] pub fn set_step (& self , step : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_step ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , step) ; } } # [doc = "If `true`, `value` will always be rounded to the nearest integer."] # [doc = ""] # [inline] pub fn set_use_rounded_values (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_use_rounded_values ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Range's current value."] # [doc = ""] # [inline] pub fn set_value (& self , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . set_value ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Binds two ranges together along with any ranges previously grouped with either of them. When any of range's member variables change, it will share the new value with all other ranges in its group."] # [doc = ""] # [inline] pub fn share (& self , with : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . share ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , with . as_arg_ptr ()) ; } } # [doc = "Stops range from sharing its member variables with any other."] # [doc = ""] # [inline] pub fn unshare (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RangeMethodTable :: get (get_api ()) . unshare ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Range { } unsafe impl GodotObject for Range { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Range" } } impl QueueFree for Range { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Range { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Range { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for Range { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Range { } unsafe impl SubClass < crate :: generated :: node :: Node > for Range { } unsafe impl SubClass < crate :: generated :: object :: Object > for Range { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RangeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_as_ratio : * mut sys :: godot_method_bind , pub get_max : * mut sys :: godot_method_bind , pub get_min : * mut sys :: godot_method_bind , pub get_page : * mut sys :: godot_method_bind , pub get_step : * mut sys :: godot_method_bind , pub get_value : * mut sys :: godot_method_bind , pub is_greater_allowed : * mut sys :: godot_method_bind , pub is_lesser_allowed : * mut sys :: godot_method_bind , pub is_ratio_exp : * mut sys :: godot_method_bind , pub is_using_rounded_values : * mut sys :: godot_method_bind , pub set_allow_greater : * mut sys :: godot_method_bind , pub set_allow_lesser : * mut sys :: godot_method_bind , pub set_as_ratio : * mut sys :: godot_method_bind , pub set_exp_ratio : * mut sys :: godot_method_bind , pub set_max : * mut sys :: godot_method_bind , pub set_min : * mut sys :: godot_method_bind , pub set_page : * mut sys :: godot_method_bind , pub set_step : * mut sys :: godot_method_bind , pub set_use_rounded_values : * mut sys :: godot_method_bind , pub set_value : * mut sys :: godot_method_bind , pub share : * mut sys :: godot_method_bind , pub unshare : * mut sys :: godot_method_bind } impl RangeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RangeMethodTable = RangeMethodTable { class_constructor : None , get_as_ratio : 0 as * mut sys :: godot_method_bind , get_max : 0 as * mut sys :: godot_method_bind , get_min : 0 as * mut sys :: godot_method_bind , get_page : 0 as * mut sys :: godot_method_bind , get_step : 0 as * mut sys :: godot_method_bind , get_value : 0 as * mut sys :: godot_method_bind , is_greater_allowed : 0 as * mut sys :: godot_method_bind , is_lesser_allowed : 0 as * mut sys :: godot_method_bind , is_ratio_exp : 0 as * mut sys :: godot_method_bind , is_using_rounded_values : 0 as * mut sys :: godot_method_bind , set_allow_greater : 0 as * mut sys :: godot_method_bind , set_allow_lesser : 0 as * mut sys :: godot_method_bind , set_as_ratio : 0 as * mut sys :: godot_method_bind , set_exp_ratio : 0 as * mut sys :: godot_method_bind , set_max : 0 as * mut sys :: godot_method_bind , set_min : 0 as * mut sys :: godot_method_bind , set_page : 0 as * mut sys :: godot_method_bind , set_step : 0 as * mut sys :: godot_method_bind , set_use_rounded_values : 0 as * mut sys :: godot_method_bind , set_value : 0 as * mut sys :: godot_method_bind , share : 0 as * mut sys :: godot_method_bind , unshare : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RangeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Range\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_as_ratio = (gd_api . godot_method_bind_get_method) (class_name , "get_as_ratio\0" . as_ptr () as * const c_char) ; table . get_max = (gd_api . godot_method_bind_get_method) (class_name , "get_max\0" . as_ptr () as * const c_char) ; table . get_min = (gd_api . godot_method_bind_get_method) (class_name , "get_min\0" . as_ptr () as * const c_char) ; table . get_page = (gd_api . godot_method_bind_get_method) (class_name , "get_page\0" . as_ptr () as * const c_char) ; table . get_step = (gd_api . godot_method_bind_get_method) (class_name , "get_step\0" . as_ptr () as * const c_char) ; table . get_value = (gd_api . godot_method_bind_get_method) (class_name , "get_value\0" . as_ptr () as * const c_char) ; table . is_greater_allowed = (gd_api . godot_method_bind_get_method) (class_name , "is_greater_allowed\0" . as_ptr () as * const c_char) ; table . is_lesser_allowed = (gd_api . godot_method_bind_get_method) (class_name , "is_lesser_allowed\0" . as_ptr () as * const c_char) ; table . is_ratio_exp = (gd_api . godot_method_bind_get_method) (class_name , "is_ratio_exp\0" . as_ptr () as * const c_char) ; table . is_using_rounded_values = (gd_api . godot_method_bind_get_method) (class_name , "is_using_rounded_values\0" . as_ptr () as * const c_char) ; table . set_allow_greater = (gd_api . godot_method_bind_get_method) (class_name , "set_allow_greater\0" . as_ptr () as * const c_char) ; table . set_allow_lesser = (gd_api . godot_method_bind_get_method) (class_name , "set_allow_lesser\0" . as_ptr () as * const c_char) ; table . set_as_ratio = (gd_api . godot_method_bind_get_method) (class_name , "set_as_ratio\0" . as_ptr () as * const c_char) ; table . set_exp_ratio = (gd_api . godot_method_bind_get_method) (class_name , "set_exp_ratio\0" . as_ptr () as * const c_char) ; table . set_max = (gd_api . godot_method_bind_get_method) (class_name , "set_max\0" . as_ptr () as * const c_char) ; table . set_min = (gd_api . godot_method_bind_get_method) (class_name , "set_min\0" . as_ptr () as * const c_char) ; table . set_page = (gd_api . godot_method_bind_get_method) (class_name , "set_page\0" . as_ptr () as * const c_char) ; table . set_step = (gd_api . godot_method_bind_get_method) (class_name , "set_step\0" . as_ptr () as * const c_char) ; table . set_use_rounded_values = (gd_api . godot_method_bind_get_method) (class_name , "set_use_rounded_values\0" . as_ptr () as * const c_char) ; table . set_value = (gd_api . godot_method_bind_get_method) (class_name , "set_value\0" . as_ptr () as * const c_char) ; table . share = (gd_api . godot_method_bind_get_method) (class_name , "share\0" . as_ptr () as * const c_char) ; table . unshare = (gd_api . godot_method_bind_get_method) (class_name , "unshare\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1186:3261 [INFO] [stdout] | [INFO] [stdout] 1186 | ...thodTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1186 | # [doc = "`core class ResourceFormatSaver` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_resourceformatsaver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nResourceFormatSaver inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ResourceFormatSaver { this : RawObject < Self > , } impl ResourceFormatSaver { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ResourceFormatSaverMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for ResourceFormatSaver { } unsafe impl GodotObject for ResourceFormatSaver { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ResourceFormatSaver" } } impl std :: ops :: Deref for ResourceFormatSaver { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ResourceFormatSaver { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ResourceFormatSaver { } unsafe impl SubClass < crate :: generated :: object :: Object > for ResourceFormatSaver { } impl Instanciable for ResourceFormatSaver { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ResourceFormatSaver :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ResourceFormatSaverMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl ResourceFormatSaverMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ResourceFormatSaverMethodTable = ResourceFormatSaverMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ResourceFormatSaverMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ResourceFormatSaver\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1192:7570 [INFO] [stdout] | [INFO] [stdout] 1192 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1192 | # [doc = "`core class AudioEffectLimiter` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectlimiter.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectLimiter inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectLimiter { this : RawObject < Self > , } impl AudioEffectLimiter { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectLimiterMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The waveform's maximum allowed value, in decibels. Value can range from -20 to -0.1."] # [doc = ""] # [inline] pub fn ceiling_db (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . get_ceiling_db ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Applies a gain to the limited waves, in decibels. Value can range from 0 to 6."] # [doc = ""] # [inline] pub fn soft_clip_db (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . get_soft_clip_db ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn soft_clip_ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . get_soft_clip_ratio ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Threshold from which the limiter begins to be active, in decibels. Value can range from -30 to 0."] # [doc = ""] # [inline] pub fn threshold_db (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . get_threshold_db ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The waveform's maximum allowed value, in decibels. Value can range from -20 to -0.1."] # [doc = ""] # [inline] pub fn set_ceiling_db (& self , ceiling : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . set_ceiling_db ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ceiling) ; } } # [doc = "Applies a gain to the limited waves, in decibels. Value can range from 0 to 6."] # [doc = ""] # [inline] pub fn set_soft_clip_db (& self , soft_clip : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . set_soft_clip_db ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , soft_clip) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_soft_clip_ratio (& self , soft_clip : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . set_soft_clip_ratio ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , soft_clip) ; } } # [doc = "Threshold from which the limiter begins to be active, in decibels. Value can range from -30 to 0."] # [doc = ""] # [inline] pub fn set_threshold_db (& self , threshold : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectLimiterMethodTable :: get (get_api ()) . set_threshold_db ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , threshold) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectLimiter { } unsafe impl GodotObject for AudioEffectLimiter { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectLimiter" } } impl std :: ops :: Deref for AudioEffectLimiter { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectLimiter { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectLimiter { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectLimiter { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectLimiter { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectLimiter { } impl Instanciable for AudioEffectLimiter { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectLimiter :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectLimiterMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_ceiling_db : * mut sys :: godot_method_bind , pub get_soft_clip_db : * mut sys :: godot_method_bind , pub get_soft_clip_ratio : * mut sys :: godot_method_bind , pub get_threshold_db : * mut sys :: godot_method_bind , pub set_ceiling_db : * mut sys :: godot_method_bind , pub set_soft_clip_db : * mut sys :: godot_method_bind , pub set_soft_clip_ratio : * mut sys :: godot_method_bind , pub set_threshold_db : * mut sys :: godot_method_bind } impl AudioEffectLimiterMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectLimiterMethodTable = AudioEffectLimiterMethodTable { class_constructor : None , get_ceiling_db : 0 as * mut sys :: godot_method_bind , get_soft_clip_db : 0 as * mut sys :: godot_method_bind , get_soft_clip_ratio : 0 as * mut sys :: godot_method_bind , get_threshold_db : 0 as * mut sys :: godot_method_bind , set_ceiling_db : 0 as * mut sys :: godot_method_bind , set_soft_clip_db : 0 as * mut sys :: godot_method_bind , set_soft_clip_ratio : 0 as * mut sys :: godot_method_bind , set_threshold_db : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectLimiterMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectLimiter\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_ceiling_db = (gd_api . godot_method_bind_get_method) (class_name , "get_ceiling_db\0" . as_ptr () as * const c_char) ; table . get_soft_clip_db = (gd_api . godot_method_bind_get_method) (class_name , "get_soft_clip_db\0" . as_ptr () as * const c_char) ; table . get_soft_clip_ratio = (gd_api . godot_method_bind_get_method) (class_name , "get_soft_clip_ratio\0" . as_ptr () as * const c_char) ; table . get_threshold_db = (gd_api . godot_method_bind_get_method) (class_name , "get_threshold_db\0" . as_ptr () as * const c_char) ; table . set_ceiling_db = (gd_api . godot_method_bind_get_method) (class_name , "set_ceiling_db\0" . as_ptr () as * const c_char) ; table . set_soft_clip_db = (gd_api . godot_method_bind_get_method) (class_name , "set_soft_clip_db\0" . as_ptr () as * const c_char) ; table . set_soft_clip_ratio = (gd_api . godot_method_bind_get_method) (class_name , "set_soft_clip_ratio\0" . as_ptr () as * const c_char) ; table . set_threshold_db = (gd_api . godot_method_bind_get_method) (class_name , "set_threshold_db\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1198:16904 [INFO] [stdout] | [INFO] [stdout] 1198 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1198 | # [doc = "`core class Curve` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_curve.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nCurve inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Curve { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TangentMode (pub i64) ; impl TangentMode { pub const FREE : TangentMode = TangentMode (0i64) ; pub const LINEAR : TangentMode = TangentMode (1i64) ; pub const MODE_COUNT : TangentMode = TangentMode (2i64) ; } impl From < i64 > for TangentMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TangentMode > for i64 { # [inline] fn from (v : TangentMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Curve { pub const TANGENT_FREE : i64 = 0i64 ; pub const TANGENT_LINEAR : i64 = 1i64 ; pub const TANGENT_MODE_COUNT : i64 = 2i64 ; } impl Curve { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = CurveMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a point to the curve. For each side, if the `*_mode` is [constant TANGENT_LINEAR], the `*_tangent` angle (in degrees) uses the slope of the curve halfway to the adjacent point. Allows custom assignments to the `*_tangent` angle if `*_mode` is set to [constant TANGENT_FREE].\n# Default Arguments\n* `left_tangent` - `0`\n* `right_tangent` - `0`\n* `left_mode` - `0`\n* `right_mode` - `0`"] # [doc = ""] # [inline] pub fn add_point (& self , position : Vector2 , left_tangent : f64 , right_tangent : f64 , left_mode : i64 , right_mode : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . add_point ; let ret = crate :: icalls :: icallptr_i64_vec2_f64_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , position , left_tangent , right_tangent , left_mode , right_mode) ; ret as _ } } # [doc = "Recomputes the baked cache of points for the curve."] # [doc = ""] # [inline] pub fn bake (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . bake ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes points that are closer than `CMP_EPSILON` (0.00001) units to their neighbor on the curve."] # [doc = ""] # [inline] pub fn clean_dupes (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . clean_dupes ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes all points from the curve."] # [doc = ""] # [inline] pub fn clear_points (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . clear_points ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The number of points to include in the baked (i.e. cached) curve data."] # [doc = ""] # [inline] pub fn bake_resolution (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_bake_resolution ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum value the curve can reach."] # [doc = ""] # [inline] pub fn max_value (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_max_value ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The minimum value the curve can reach."] # [doc = ""] # [inline] pub fn min_value (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_min_value ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the number of points describing the curve."] # [doc = ""] # [inline] pub fn get_point_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_point_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the left [enum TangentMode] for the point at `index`."] # [doc = ""] # [inline] pub fn get_point_left_mode (& self , index : i64) -> crate :: generated :: curve :: TangentMode { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_point_left_mode ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , index) ; crate :: generated :: curve :: TangentMode (ret) } } # [doc = "Returns the left tangent angle (in degrees) for the point at `index`."] # [doc = ""] # [inline] pub fn get_point_left_tangent (& self , index : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_point_left_tangent ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , index) ; ret as _ } } # [doc = "Returns the curve coordinates for the point at `index`."] # [doc = ""] # [inline] pub fn get_point_position (& self , index : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_point_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , index) ; mem :: transmute (ret) } } # [doc = "Returns the right [enum TangentMode] for the point at `index`."] # [doc = ""] # [inline] pub fn get_point_right_mode (& self , index : i64) -> crate :: generated :: curve :: TangentMode { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_point_right_mode ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , index) ; crate :: generated :: curve :: TangentMode (ret) } } # [doc = "Returns the right tangent angle (in degrees) for the point at `index`."] # [doc = ""] # [inline] pub fn get_point_right_tangent (& self , index : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . get_point_right_tangent ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , index) ; ret as _ } } # [doc = "Returns the Y value for the point that would exist at the X position `offset` along the curve."] # [doc = ""] # [inline] pub fn interpolate (& self , offset : f64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . interpolate ; let ret = crate :: icalls :: icallptr_f64_f64 (method_bind , self . this . sys () . as_ptr () , offset) ; ret as _ } } # [doc = "Returns the Y value for the point that would exist at the X position `offset` along the curve using the baked cache. Bakes the curve's points if not already baked."] # [doc = ""] # [inline] pub fn interpolate_baked (& self , offset : f64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . interpolate_baked ; let ret = crate :: icalls :: icallptr_f64_f64 (method_bind , self . this . sys () . as_ptr () , offset) ; ret as _ } } # [doc = "Removes the point at `index` from the curve."] # [doc = ""] # [inline] pub fn remove_point (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . remove_point ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "The number of points to include in the baked (i.e. cached) curve data."] # [doc = ""] # [inline] pub fn set_bake_resolution (& self , resolution : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_bake_resolution ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , resolution) ; } } # [doc = "The maximum value the curve can reach."] # [doc = ""] # [inline] pub fn set_max_value (& self , max : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_max_value ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , max) ; } } # [doc = "The minimum value the curve can reach."] # [doc = ""] # [inline] pub fn set_min_value (& self , min : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_min_value ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , min) ; } } # [doc = "Sets the left [enum TangentMode] for the point at `index` to `mode`."] # [doc = ""] # [inline] pub fn set_point_left_mode (& self , index : i64 , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_point_left_mode ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , index , mode) ; } } # [doc = "Sets the left tangent angle for the point at `index` to `tangent`."] # [doc = ""] # [inline] pub fn set_point_left_tangent (& self , index : i64 , tangent : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_point_left_tangent ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , index , tangent) ; } } # [doc = "Sets the offset from `0.5`."] # [doc = ""] # [inline] pub fn set_point_offset (& self , index : i64 , offset : f64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_point_offset ; let ret = crate :: icalls :: icallptr_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , index , offset) ; ret as _ } } # [doc = "Sets the right [enum TangentMode] for the point at `index` to `mode`."] # [doc = ""] # [inline] pub fn set_point_right_mode (& self , index : i64 , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_point_right_mode ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , index , mode) ; } } # [doc = "Sets the right tangent angle for the point at `index` to `tangent`."] # [doc = ""] # [inline] pub fn set_point_right_tangent (& self , index : i64 , tangent : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_point_right_tangent ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , index , tangent) ; } } # [doc = "Assigns the vertical position `y` to the point at `index`."] # [doc = ""] # [inline] pub fn set_point_value (& self , index : i64 , y : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CurveMethodTable :: get (get_api ()) . set_point_value ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , index , y) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Curve { } unsafe impl GodotObject for Curve { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Curve" } } impl std :: ops :: Deref for Curve { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Curve { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Curve { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Curve { } unsafe impl SubClass < crate :: generated :: object :: Object > for Curve { } impl Instanciable for Curve { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Curve :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CurveMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_point : * mut sys :: godot_method_bind , pub bake : * mut sys :: godot_method_bind , pub clean_dupes : * mut sys :: godot_method_bind , pub clear_points : * mut sys :: godot_method_bind , pub get_bake_resolution : * mut sys :: godot_method_bind , pub get_max_value : * mut sys :: godot_method_bind , pub get_min_value : * mut sys :: godot_method_bind , pub get_point_count : * mut sys :: godot_method_bind , pub get_point_left_mode : * mut sys :: godot_method_bind , pub get_point_left_tangent : * mut sys :: godot_method_bind , pub get_point_position : * mut sys :: godot_method_bind , pub get_point_right_mode : * mut sys :: godot_method_bind , pub get_point_right_tangent : * mut sys :: godot_method_bind , pub interpolate : * mut sys :: godot_method_bind , pub interpolate_baked : * mut sys :: godot_method_bind , pub remove_point : * mut sys :: godot_method_bind , pub set_bake_resolution : * mut sys :: godot_method_bind , pub set_max_value : * mut sys :: godot_method_bind , pub set_min_value : * mut sys :: godot_method_bind , pub set_point_left_mode : * mut sys :: godot_method_bind , pub set_point_left_tangent : * mut sys :: godot_method_bind , pub set_point_offset : * mut sys :: godot_method_bind , pub set_point_right_mode : * mut sys :: godot_method_bind , pub set_point_right_tangent : * mut sys :: godot_method_bind , pub set_point_value : * mut sys :: godot_method_bind } impl CurveMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CurveMethodTable = CurveMethodTable { class_constructor : None , add_point : 0 as * mut sys :: godot_method_bind , bake : 0 as * mut sys :: godot_method_bind , clean_dupes : 0 as * mut sys :: godot_method_bind , clear_points : 0 as * mut sys :: godot_method_bind , get_bake_resolution : 0 as * mut sys :: godot_method_bind , get_max_value : 0 as * mut sys :: godot_method_bind , get_min_value : 0 as * mut sys :: godot_method_bind , get_point_count : 0 as * mut sys :: godot_method_bind , get_point_left_mode : 0 as * mut sys :: godot_method_bind , get_point_left_tangent : 0 as * mut sys :: godot_method_bind , get_point_position : 0 as * mut sys :: godot_method_bind , get_point_right_mode : 0 as * mut sys :: godot_method_bind , get_point_right_tangent : 0 as * mut sys :: godot_method_bind , interpolate : 0 as * mut sys :: godot_method_bind , interpolate_baked : 0 as * mut sys :: godot_method_bind , remove_point : 0 as * mut sys :: godot_method_bind , set_bake_resolution : 0 as * mut sys :: godot_method_bind , set_max_value : 0 as * mut sys :: godot_method_bind , set_min_value : 0 as * mut sys :: godot_method_bind , set_point_left_mode : 0 as * mut sys :: godot_method_bind , set_point_left_tangent : 0 as * mut sys :: godot_method_bind , set_point_offset : 0 as * mut sys :: godot_method_bind , set_point_right_mode : 0 as * mut sys :: godot_method_bind , set_point_right_tangent : 0 as * mut sys :: godot_method_bind , set_point_value : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CurveMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Curve\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_point = (gd_api . godot_method_bind_get_method) (class_name , "add_point\0" . as_ptr () as * const c_char) ; table . bake = (gd_api . godot_method_bind_get_method) (class_name , "bake\0" . as_ptr () as * const c_char) ; table . clean_dupes = (gd_api . godot_method_bind_get_method) (class_name , "clean_dupes\0" . as_ptr () as * const c_char) ; table . clear_points = (gd_api . godot_method_bind_get_method) (class_name , "clear_points\0" . as_ptr () as * const c_char) ; table . get_bake_resolution = (gd_api . godot_method_bind_get_method) (class_name , "get_bake_resolution\0" . as_ptr () as * const c_char) ; table . get_max_value = (gd_api . godot_method_bind_get_method) (class_name , "get_max_value\0" . as_ptr () as * const c_char) ; table . get_min_value = (gd_api . godot_method_bind_get_method) (class_name , "get_min_value\0" . as_ptr () as * const c_char) ; table . get_point_count = (gd_api . godot_method_bind_get_method) (class_name , "get_point_count\0" . as_ptr () as * const c_char) ; table . get_point_left_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_point_left_mode\0" . as_ptr () as * const c_char) ; table . get_point_left_tangent = (gd_api . godot_method_bind_get_method) (class_name , "get_point_left_tangent\0" . as_ptr () as * const c_char) ; table . get_point_position = (gd_api . godot_method_bind_get_method) (class_name , "get_point_position\0" . as_ptr () as * const c_char) ; table . get_point_right_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_point_right_mode\0" . as_ptr () as * const c_char) ; table . get_point_right_tangent = (gd_api . godot_method_bind_get_method) (class_name , "get_point_right_tangent\0" . as_ptr () as * const c_char) ; table . interpolate = (gd_api . godot_method_bind_get_method) (class_name , "interpolate\0" . as_ptr () as * const c_char) ; table . interpolate_baked = (gd_api . godot_method_bind_get_method) (class_name , "interpolate_baked\0" . as_ptr () as * const c_char) ; table . remove_point = (gd_api . godot_method_bind_get_method) (class_name , "remove_point\0" . as_ptr () as * const c_char) ; table . set_bake_resolution = (gd_api . godot_method_bind_get_method) (class_name , "set_bake_resolution\0" . as_ptr () as * const c_char) ; table . set_max_value = (gd_api . godot_method_bind_get_method) (class_name , "set_max_value\0" . as_ptr () as * const c_char) ; table . set_min_value = (gd_api . godot_method_bind_get_method) (class_name , "set_min_value\0" . as_ptr () as * const c_char) ; table . set_point_left_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_point_left_mode\0" . as_ptr () as * const c_char) ; table . set_point_left_tangent = (gd_api . godot_method_bind_get_method) (class_name , "set_point_left_tangent\0" . as_ptr () as * const c_char) ; table . set_point_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_point_offset\0" . as_ptr () as * const c_char) ; table . set_point_right_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_point_right_mode\0" . as_ptr () as * const c_char) ; table . set_point_right_tangent = (gd_api . godot_method_bind_get_method) (class_name , "set_point_right_tangent\0" . as_ptr () as * const c_char) ; table . set_point_value = (gd_api . godot_method_bind_get_method) (class_name , "set_point_value\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1204:7181 [INFO] [stdout] | [INFO] [stdout] 1204 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1204 | # [doc = "`core class Joint2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_joint2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nJoint2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Joint2D { this : RawObject < Self > , } impl Joint2D { # [doc = "When [member node_a] and [member node_b] move in different directions the `bias` controls how fast the joint pulls them back to their original position. The lower the `bias` the more the two bodies can pull on the joint."] # [doc = ""] # [inline] pub fn bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, [member node_a] and [member node_b] can not collide."] # [doc = ""] # [inline] pub fn exclude_nodes_from_collision (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The first body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn node_a (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_node_a ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The second body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn node_b (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_node_b ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "When [member node_a] and [member node_b] move in different directions the `bias` controls how fast the joint pulls them back to their original position. The lower the `bias` the more the two bodies can pull on the joint."] # [doc = ""] # [inline] pub fn set_bias (& self , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bias) ; } } # [doc = "If `true`, [member node_a] and [member node_b] can not collide."] # [doc = ""] # [inline] pub fn set_exclude_nodes_from_collision (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The first body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn set_node_a (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_node_a ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } # [doc = "The second body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn set_node_b (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_node_b ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Joint2D { } unsafe impl GodotObject for Joint2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Joint2D" } } impl QueueFree for Joint2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Joint2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Joint2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for Joint2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Joint2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Joint2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Joint2D { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Joint2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bias : * mut sys :: godot_method_bind , pub get_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub get_node_a : * mut sys :: godot_method_bind , pub get_node_b : * mut sys :: godot_method_bind , pub set_bias : * mut sys :: godot_method_bind , pub set_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub set_node_a : * mut sys :: godot_method_bind , pub set_node_b : * mut sys :: godot_method_bind } impl Joint2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Joint2DMethodTable = Joint2DMethodTable { class_constructor : None , get_bias : 0 as * mut sys :: godot_method_bind , get_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , get_node_a : 0 as * mut sys :: godot_method_bind , get_node_b : 0 as * mut sys :: godot_method_bind , set_bias : 0 as * mut sys :: godot_method_bind , set_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , set_node_a : 0 as * mut sys :: godot_method_bind , set_node_b : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Joint2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Joint2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_bias\0" . as_ptr () as * const c_char) ; table . get_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . get_node_a = (gd_api . godot_method_bind_get_method) (class_name , "get_node_a\0" . as_ptr () as * const c_char) ; table . get_node_b = (gd_api . godot_method_bind_get_method) (class_name , "get_node_b\0" . as_ptr () as * const c_char) ; table . set_bias = (gd_api . godot_method_bind_get_method) (class_name , "set_bias\0" . as_ptr () as * const c_char) ; table . set_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . set_node_a = (gd_api . godot_method_bind_get_method) (class_name , "set_node_a\0" . as_ptr () as * const c_char) ; table . set_node_b = (gd_api . godot_method_bind_get_method) (class_name , "set_node_b\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1210:8426 [INFO] [stdout] | [INFO] [stdout] 1210 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1210 | # [doc = "`core class Shape2D` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_shape2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nShape2D inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Shape2D { this : RawObject < Self > , } impl Shape2D { # [doc = "Returns `true` if this shape is colliding with another.\nThis method needs the transformation matrix for this shape (`local_xform`), the shape to check collisions with (`with_shape`), and the transformation matrix of that shape (`shape_xform`)."] # [doc = ""] # [inline] pub fn collide (& self , local_xform : Transform2D , with_shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D > , shape_xform : Transform2D) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Shape2DMethodTable :: get (get_api ()) . collide ; let ret = crate :: icalls :: icallptr_bool_trans2D_obj_trans2D (method_bind , self . this . sys () . as_ptr () , local_xform , with_shape . as_arg_ptr () , shape_xform) ; ret as _ } } # [doc = "Returns a list of the points where this shape touches another. If there are no collisions the list is empty.\nThis method needs the transformation matrix for this shape (`local_xform`), the shape to check collisions with (`with_shape`), and the transformation matrix of that shape (`shape_xform`)."] # [doc = ""] # [inline] pub fn collide_and_get_contacts (& self , local_xform : Transform2D , with_shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D > , shape_xform : Transform2D) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Shape2DMethodTable :: get (get_api ()) . collide_and_get_contacts ; let ret = crate :: icalls :: icallvar__trans2D_obj_trans2D (method_bind , self . this . sys () . as_ptr () , local_xform , with_shape . as_arg_ptr () , shape_xform) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns whether this shape would collide with another, if a given movement was applied.\nThis method needs the transformation matrix for this shape (`local_xform`), the movement to test on this shape (`local_motion`), the shape to check collisions with (`with_shape`), the transformation matrix of that shape (`shape_xform`), and the movement to test onto the other object (`shape_motion`)."] # [doc = ""] # [inline] pub fn collide_with_motion (& self , local_xform : Transform2D , local_motion : Vector2 , with_shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D > , shape_xform : Transform2D , shape_motion : Vector2) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Shape2DMethodTable :: get (get_api ()) . collide_with_motion ; let ret = crate :: icalls :: icallptr_bool_trans2D_vec2_obj_trans2D_vec2 (method_bind , self . this . sys () . as_ptr () , local_xform , local_motion , with_shape . as_arg_ptr () , shape_xform , shape_motion) ; ret as _ } } # [doc = "Returns a list of the points where this shape would touch another, if a given movement was applied. If there are no collisions the list is empty.\nThis method needs the transformation matrix for this shape (`local_xform`), the movement to test on this shape (`local_motion`), the shape to check collisions with (`with_shape`), the transformation matrix of that shape (`shape_xform`), and the movement to test onto the other object (`shape_motion`)."] # [doc = ""] # [inline] pub fn collide_with_motion_and_get_contacts (& self , local_xform : Transform2D , local_motion : Vector2 , with_shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D > , shape_xform : Transform2D , shape_motion : Vector2) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = Shape2DMethodTable :: get (get_api ()) . collide_with_motion_and_get_contacts ; let ret = crate :: icalls :: icallvar__trans2D_vec2_obj_trans2D_vec2 (method_bind , self . this . sys () . as_ptr () , local_xform , local_motion , with_shape . as_arg_ptr () , shape_xform , shape_motion) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Draws a solid shape onto a [CanvasItem] with the [VisualServer] API filled with the specified `color`. The exact drawing method is specific for each shape and cannot be configured."] # [doc = ""] # [inline] pub fn draw (& self , canvas_item : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Shape2DMethodTable :: get (get_api ()) . draw ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , canvas_item , color) ; } } # [doc = "The shape's custom solver bias."] # [doc = ""] # [inline] pub fn custom_solver_bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Shape2DMethodTable :: get (get_api ()) . get_custom_solver_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The shape's custom solver bias."] # [doc = ""] # [inline] pub fn set_custom_solver_bias (& self , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Shape2DMethodTable :: get (get_api ()) . set_custom_solver_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bias) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Shape2D { } unsafe impl GodotObject for Shape2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Shape2D" } } impl std :: ops :: Deref for Shape2D { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Shape2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Shape2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Shape2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Shape2D { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Shape2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub collide : * mut sys :: godot_method_bind , pub collide_and_get_contacts : * mut sys :: godot_method_bind , pub collide_with_motion : * mut sys :: godot_method_bind , pub collide_with_motion_and_get_contacts : * mut sys :: godot_method_bind , pub draw : * mut sys :: godot_method_bind , pub get_custom_solver_bias : * mut sys :: godot_method_bind , pub set_custom_solver_bias : * mut sys :: godot_method_bind } impl Shape2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Shape2DMethodTable = Shape2DMethodTable { class_constructor : None , collide : 0 as * mut sys :: godot_method_bind , collide_and_get_contacts : 0 as * mut sys :: godot_method_bind , collide_with_motion : 0 as * mut sys :: godot_method_bind , collide_with_motion_and_get_contacts : 0 as * mut sys :: godot_method_bind , draw : 0 as * mut sys :: godot_method_bind , get_custom_solver_bias : 0 as * mut sys :: godot_method_bind , set_custom_solver_bias : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Shape2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Shape2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . collide = (gd_api . godot_method_bind_get_method) (class_name , "collide\0" . as_ptr () as * const c_char) ; table . collide_and_get_contacts = (gd_api . godot_method_bind_get_method) (class_name , "collide_and_get_contacts\0" . as_ptr () as * const c_char) ; table . collide_with_motion = (gd_api . godot_method_bind_get_method) (class_name , "collide_with_motion\0" . as_ptr () as * const c_char) ; table . collide_with_motion_and_get_contacts = (gd_api . godot_method_bind_get_method) (class_name , "collide_with_motion_and_get_contacts\0" . as_ptr () as * const c_char) ; table . draw = (gd_api . godot_method_bind_get_method) (class_name , "draw\0" . as_ptr () as * const c_char) ; table . get_custom_solver_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_custom_solver_bias\0" . as_ptr () as * const c_char) ; table . set_custom_solver_bias = (gd_api . godot_method_bind_get_method) (class_name , "set_custom_solver_bias\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1216:7086 [INFO] [stdout] | [INFO] [stdout] 1216 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1216 | # [doc = "`core class DynamicFontData` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_dynamicfontdata.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nDynamicFontData inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct DynamicFontData { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Hinting (pub i64) ; impl Hinting { pub const NONE : Hinting = Hinting (0i64) ; pub const LIGHT : Hinting = Hinting (1i64) ; pub const NORMAL : Hinting = Hinting (2i64) ; } impl From < i64 > for Hinting { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Hinting > for i64 { # [inline] fn from (v : Hinting) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl DynamicFontData { pub const HINTING_LIGHT : i64 = 1i64 ; pub const HINTING_NONE : i64 = 0i64 ; pub const HINTING_NORMAL : i64 = 2i64 ; } impl DynamicFontData { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = DynamicFontDataMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The path to the vector font file."] # [doc = ""] # [inline] pub fn font_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontDataMethodTable :: get (get_api ()) . get_font_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The font hinting mode used by FreeType. See [enum Hinting] for options."] # [doc = ""] # [inline] pub fn hinting (& self) -> crate :: generated :: dynamic_font_data :: Hinting { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontDataMethodTable :: get (get_api ()) . get_hinting ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: dynamic_font_data :: Hinting (ret) } } # [doc = "If `true`, the font is rendered with anti-aliasing. This property applies both to the main font and its outline (if it has one)."] # [doc = ""] # [inline] pub fn is_antialiased (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontDataMethodTable :: get (get_api ()) . is_antialiased ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the font is rendered with anti-aliasing. This property applies both to the main font and its outline (if it has one)."] # [doc = ""] # [inline] pub fn set_antialiased (& self , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontDataMethodTable :: get (get_api ()) . set_antialiased ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , antialiased) ; } } # [doc = "The path to the vector font file."] # [doc = ""] # [inline] pub fn set_font_path (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontDataMethodTable :: get (get_api ()) . set_font_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "The font hinting mode used by FreeType. See [enum Hinting] for options."] # [doc = ""] # [inline] pub fn set_hinting (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontDataMethodTable :: get (get_api ()) . set_hinting ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for DynamicFontData { } unsafe impl GodotObject for DynamicFontData { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "DynamicFontData" } } impl std :: ops :: Deref for DynamicFontData { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for DynamicFontData { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for DynamicFontData { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for DynamicFontData { } unsafe impl SubClass < crate :: generated :: object :: Object > for DynamicFontData { } impl Instanciable for DynamicFontData { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { DynamicFontData :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct DynamicFontDataMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_font_path : * mut sys :: godot_method_bind , pub get_hinting : * mut sys :: godot_method_bind , pub is_antialiased : * mut sys :: godot_method_bind , pub set_antialiased : * mut sys :: godot_method_bind , pub set_font_path : * mut sys :: godot_method_bind , pub set_hinting : * mut sys :: godot_method_bind } impl DynamicFontDataMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : DynamicFontDataMethodTable = DynamicFontDataMethodTable { class_constructor : None , get_font_path : 0 as * mut sys :: godot_method_bind , get_hinting : 0 as * mut sys :: godot_method_bind , is_antialiased : 0 as * mut sys :: godot_method_bind , set_antialiased : 0 as * mut sys :: godot_method_bind , set_font_path : 0 as * mut sys :: godot_method_bind , set_hinting : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { DynamicFontDataMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "DynamicFontData\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_font_path = (gd_api . godot_method_bind_get_method) (class_name , "get_font_path\0" . as_ptr () as * const c_char) ; table . get_hinting = (gd_api . godot_method_bind_get_method) (class_name , "get_hinting\0" . as_ptr () as * const c_char) ; table . is_antialiased = (gd_api . godot_method_bind_get_method) (class_name , "is_antialiased\0" . as_ptr () as * const c_char) ; table . set_antialiased = (gd_api . godot_method_bind_get_method) (class_name , "set_antialiased\0" . as_ptr () as * const c_char) ; table . set_font_path = (gd_api . godot_method_bind_get_method) (class_name , "set_font_path\0" . as_ptr () as * const c_char) ; table . set_hinting = (gd_api . godot_method_bind_get_method) (class_name , "set_hinting\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-81940f3d0159db86/out/generated.rs:1222:282238 [INFO] [stdout] | [INFO] [stdout] 1222 | ... : 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'stati... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 1222 | # [doc = "`core singleton class VisualServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualserver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nVisualServer inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualServer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ArrayFormat (pub i64) ; impl ArrayFormat { pub const FORMAT_VERTEX : ArrayFormat = ArrayFormat (1i64) ; pub const FORMAT_NORMAL : ArrayFormat = ArrayFormat (2i64) ; pub const FORMAT_TANGENT : ArrayFormat = ArrayFormat (4i64) ; pub const FORMAT_COLOR : ArrayFormat = ArrayFormat (8i64) ; pub const FORMAT_TEX_UV : ArrayFormat = ArrayFormat (16i64) ; pub const FORMAT_TEX_UV2 : ArrayFormat = ArrayFormat (32i64) ; pub const FORMAT_BONES : ArrayFormat = ArrayFormat (64i64) ; pub const FORMAT_WEIGHTS : ArrayFormat = ArrayFormat (128i64) ; pub const FORMAT_INDEX : ArrayFormat = ArrayFormat (256i64) ; pub const COMPRESS_VERTEX : ArrayFormat = ArrayFormat (512i64) ; pub const COMPRESS_NORMAL : ArrayFormat = ArrayFormat (1024i64) ; pub const COMPRESS_TANGENT : ArrayFormat = ArrayFormat (2048i64) ; pub const COMPRESS_COLOR : ArrayFormat = ArrayFormat (4096i64) ; pub const COMPRESS_TEX_UV : ArrayFormat = ArrayFormat (8192i64) ; pub const COMPRESS_TEX_UV2 : ArrayFormat = ArrayFormat (16384i64) ; pub const COMPRESS_BONES : ArrayFormat = ArrayFormat (32768i64) ; pub const COMPRESS_WEIGHTS : ArrayFormat = ArrayFormat (65536i64) ; pub const COMPRESS_DEFAULT : ArrayFormat = ArrayFormat (97280i64) ; pub const COMPRESS_INDEX : ArrayFormat = ArrayFormat (131072i64) ; pub const FLAG_USE_2D_VERTICES : ArrayFormat = ArrayFormat (262144i64) ; pub const FLAG_USE_16_BIT_BONES : ArrayFormat = ArrayFormat (524288i64) ; } impl From < i64 > for ArrayFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ArrayFormat > for i64 { # [inline] fn from (v : ArrayFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ArrayType (pub i64) ; impl ArrayType { pub const VERTEX : ArrayType = ArrayType (0i64) ; pub const NORMAL : ArrayType = ArrayType (1i64) ; pub const TANGENT : ArrayType = ArrayType (2i64) ; pub const COLOR : ArrayType = ArrayType (3i64) ; pub const TEX_UV : ArrayType = ArrayType (4i64) ; pub const TEX_UV2 : ArrayType = ArrayType (5i64) ; pub const BONES : ArrayType = ArrayType (6i64) ; pub const WEIGHTS : ArrayType = ArrayType (7i64) ; pub const INDEX : ArrayType = ArrayType (8i64) ; pub const MAX : ArrayType = ArrayType (9i64) ; } impl From < i64 > for ArrayType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ArrayType > for i64 { # [inline] fn from (v : ArrayType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BlendShapeMode (pub i64) ; impl BlendShapeMode { pub const NORMALIZED : BlendShapeMode = BlendShapeMode (0i64) ; pub const RELATIVE : BlendShapeMode = BlendShapeMode (1i64) ; } impl From < i64 > for BlendShapeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BlendShapeMode > for i64 { # [inline] fn from (v : BlendShapeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CanvasLightMode (pub i64) ; impl CanvasLightMode { pub const ADD : CanvasLightMode = CanvasLightMode (0i64) ; pub const SUB : CanvasLightMode = CanvasLightMode (1i64) ; pub const MIX : CanvasLightMode = CanvasLightMode (2i64) ; pub const MASK : CanvasLightMode = CanvasLightMode (3i64) ; } impl From < i64 > for CanvasLightMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CanvasLightMode > for i64 { # [inline] fn from (v : CanvasLightMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CanvasLightShadowFilter (pub i64) ; impl CanvasLightShadowFilter { pub const NONE : CanvasLightShadowFilter = CanvasLightShadowFilter (0i64) ; pub const PCF3 : CanvasLightShadowFilter = CanvasLightShadowFilter (1i64) ; pub const PCF5 : CanvasLightShadowFilter = CanvasLightShadowFilter (2i64) ; pub const PCF7 : CanvasLightShadowFilter = CanvasLightShadowFilter (3i64) ; pub const PCF9 : CanvasLightShadowFilter = CanvasLightShadowFilter (4i64) ; pub const PCF13 : CanvasLightShadowFilter = CanvasLightShadowFilter (5i64) ; } impl From < i64 > for CanvasLightShadowFilter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CanvasLightShadowFilter > for i64 { # [inline] fn from (v : CanvasLightShadowFilter) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CanvasOccluderPolygonCullMode (pub i64) ; impl CanvasOccluderPolygonCullMode { pub const DISABLED : CanvasOccluderPolygonCullMode = CanvasOccluderPolygonCullMode (0i64) ; pub const CLOCKWISE : CanvasOccluderPolygonCullMode = CanvasOccluderPolygonCullMode (1i64) ; pub const COUNTER_CLOCKWISE : CanvasOccluderPolygonCullMode = CanvasOccluderPolygonCullMode (2i64) ; } impl From < i64 > for CanvasOccluderPolygonCullMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CanvasOccluderPolygonCullMode > for i64 { # [inline] fn from (v : CanvasOccluderPolygonCullMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CubeMapSide (pub i64) ; impl CubeMapSide { pub const LEFT : CubeMapSide = CubeMapSide (0i64) ; pub const RIGHT : CubeMapSide = CubeMapSide (1i64) ; pub const BOTTOM : CubeMapSide = CubeMapSide (2i64) ; pub const TOP : CubeMapSide = CubeMapSide (3i64) ; pub const FRONT : CubeMapSide = CubeMapSide (4i64) ; pub const BACK : CubeMapSide = CubeMapSide (5i64) ; } impl From < i64 > for CubeMapSide { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CubeMapSide > for i64 { # [inline] fn from (v : CubeMapSide) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentBg (pub i64) ; impl EnvironmentBg { pub const CLEAR_COLOR : EnvironmentBg = EnvironmentBg (0i64) ; pub const COLOR : EnvironmentBg = EnvironmentBg (1i64) ; pub const SKY : EnvironmentBg = EnvironmentBg (2i64) ; pub const COLOR_SKY : EnvironmentBg = EnvironmentBg (3i64) ; pub const CANVAS : EnvironmentBg = EnvironmentBg (4i64) ; pub const KEEP : EnvironmentBg = EnvironmentBg (5i64) ; pub const MAX : EnvironmentBg = EnvironmentBg (7i64) ; } impl From < i64 > for EnvironmentBg { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentBg > for i64 { # [inline] fn from (v : EnvironmentBg) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentDofBlurQuality (pub i64) ; impl EnvironmentDofBlurQuality { pub const LOW : EnvironmentDofBlurQuality = EnvironmentDofBlurQuality (0i64) ; pub const MEDIUM : EnvironmentDofBlurQuality = EnvironmentDofBlurQuality (1i64) ; pub const HIGH : EnvironmentDofBlurQuality = EnvironmentDofBlurQuality (2i64) ; } impl From < i64 > for EnvironmentDofBlurQuality { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentDofBlurQuality > for i64 { # [inline] fn from (v : EnvironmentDofBlurQuality) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentGlowBlendMode (pub i64) ; impl EnvironmentGlowBlendMode { pub const ADDITIVE : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (0i64) ; pub const SCREEN : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (1i64) ; pub const SOFTLIGHT : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (2i64) ; pub const REPLACE : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (3i64) ; } impl From < i64 > for EnvironmentGlowBlendMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentGlowBlendMode > for i64 { # [inline] fn from (v : EnvironmentGlowBlendMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentSsaoBlur (pub i64) ; impl EnvironmentSsaoBlur { pub const DISABLED : EnvironmentSsaoBlur = EnvironmentSsaoBlur (0i64) ; pub const _1X1 : EnvironmentSsaoBlur = EnvironmentSsaoBlur (1i64) ; pub const _2X2 : EnvironmentSsaoBlur = EnvironmentSsaoBlur (2i64) ; pub const _3X3 : EnvironmentSsaoBlur = EnvironmentSsaoBlur (3i64) ; } impl From < i64 > for EnvironmentSsaoBlur { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentSsaoBlur > for i64 { # [inline] fn from (v : EnvironmentSsaoBlur) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentSsaoQuality (pub i64) ; impl EnvironmentSsaoQuality { pub const LOW : EnvironmentSsaoQuality = EnvironmentSsaoQuality (0i64) ; pub const MEDIUM : EnvironmentSsaoQuality = EnvironmentSsaoQuality (1i64) ; pub const HIGH : EnvironmentSsaoQuality = EnvironmentSsaoQuality (2i64) ; } impl From < i64 > for EnvironmentSsaoQuality { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentSsaoQuality > for i64 { # [inline] fn from (v : EnvironmentSsaoQuality) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentToneMapper (pub i64) ; impl EnvironmentToneMapper { pub const LINEAR : EnvironmentToneMapper = EnvironmentToneMapper (0i64) ; pub const REINHARD : EnvironmentToneMapper = EnvironmentToneMapper (1i64) ; pub const FILMIC : EnvironmentToneMapper = EnvironmentToneMapper (2i64) ; pub const ACES : EnvironmentToneMapper = EnvironmentToneMapper (3i64) ; } impl From < i64 > for EnvironmentToneMapper { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentToneMapper > for i64 { # [inline] fn from (v : EnvironmentToneMapper) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Features (pub i64) ; impl Features { pub const SHADERS : Features = Features (0i64) ; pub const MULTITHREADED : Features = Features (1i64) ; } impl From < i64 > for Features { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Features > for i64 { # [inline] fn from (v : Features) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct InstanceFlags (pub i64) ; impl InstanceFlags { pub const USE_BAKED_LIGHT : InstanceFlags = InstanceFlags (0i64) ; pub const DRAW_NEXT_FRAME_IF_VISIBLE : InstanceFlags = InstanceFlags (1i64) ; pub const MAX : InstanceFlags = InstanceFlags (2i64) ; } impl From < i64 > for InstanceFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < InstanceFlags > for i64 { # [inline] fn from (v : InstanceFlags) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct InstanceType (pub i64) ; impl InstanceType { pub const NONE : InstanceType = InstanceType (0i64) ; pub const MESH : InstanceType = InstanceType (1i64) ; pub const MULTIMESH : InstanceType = InstanceType (2i64) ; pub const IMMEDIATE : InstanceType = InstanceType (3i64) ; pub const PARTICLES : InstanceType = InstanceType (4i64) ; pub const LIGHT : InstanceType = InstanceType (5i64) ; pub const REFLECTION_PROBE : InstanceType = InstanceType (6i64) ; pub const GI_PROBE : InstanceType = InstanceType (7i64) ; pub const LIGHTMAP_CAPTURE : InstanceType = InstanceType (8i64) ; pub const MAX : InstanceType = InstanceType (9i64) ; pub const GEOMETRY_MASK : InstanceType = InstanceType (30i64) ; } impl From < i64 > for InstanceType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < InstanceType > for i64 { # [inline] fn from (v : InstanceType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightBakeMode (pub i64) ; impl LightBakeMode { pub const DISABLED : LightBakeMode = LightBakeMode (0i64) ; pub const INDIRECT : LightBakeMode = LightBakeMode (1i64) ; pub const ALL : LightBakeMode = LightBakeMode (2i64) ; } impl From < i64 > for LightBakeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightBakeMode > for i64 { # [inline] fn from (v : LightBakeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightDirectionalShadowDepthRangeMode (pub i64) ; impl LightDirectionalShadowDepthRangeMode { pub const STABLE : LightDirectionalShadowDepthRangeMode = LightDirectionalShadowDepthRangeMode (0i64) ; pub const OPTIMIZED : LightDirectionalShadowDepthRangeMode = LightDirectionalShadowDepthRangeMode (1i64) ; } impl From < i64 > for LightDirectionalShadowDepthRangeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightDirectionalShadowDepthRangeMode > for i64 { # [inline] fn from (v : LightDirectionalShadowDepthRangeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightDirectionalShadowMode (pub i64) ; impl LightDirectionalShadowMode { pub const ORTHOGONAL : LightDirectionalShadowMode = LightDirectionalShadowMode (0i64) ; pub const PARALLEL_2_SPLITS : LightDirectionalShadowMode = LightDirectionalShadowMode (1i64) ; pub const PARALLEL_4_SPLITS : LightDirectionalShadowMode = LightDirectionalShadowMode (2i64) ; } impl From < i64 > for LightDirectionalShadowMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightDirectionalShadowMode > for i64 { # [inline] fn from (v : LightDirectionalShadowMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightOmniShadowDetail (pub i64) ; impl LightOmniShadowDetail { pub const VERTICAL : LightOmniShadowDetail = LightOmniShadowDetail (0i64) ; pub const HORIZONTAL : LightOmniShadowDetail = LightOmniShadowDetail (1i64) ; } impl From < i64 > for LightOmniShadowDetail { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightOmniShadowDetail > for i64 { # [inline] fn from (v : LightOmniShadowDetail) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightOmniShadowMode (pub i64) ; impl LightOmniShadowMode { pub const DUAL_PARABOLOID : LightOmniShadowMode = LightOmniShadowMode (0i64) ; pub const CUBE : LightOmniShadowMode = LightOmniShadowMode (1i64) ; } impl From < i64 > for LightOmniShadowMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightOmniShadowMode > for i64 { # [inline] fn from (v : LightOmniShadowMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightParam (pub i64) ; impl LightParam { pub const ENERGY : LightParam = LightParam (0i64) ; pub const SPECULAR : LightParam = LightParam (2i64) ; pub const RANGE : LightParam = LightParam (3i64) ; pub const ATTENUATION : LightParam = LightParam (4i64) ; pub const SPOT_ANGLE : LightParam = LightParam (5i64) ; pub const SPOT_ATTENUATION : LightParam = LightParam (6i64) ; pub const CONTACT_SHADOW_SIZE : LightParam = LightParam (7i64) ; pub const SHADOW_MAX_DISTANCE : LightParam = LightParam (8i64) ; pub const SHADOW_SPLIT_1_OFFSET : LightParam = LightParam (9i64) ; pub const SHADOW_SPLIT_2_OFFSET : LightParam = LightParam (10i64) ; pub const SHADOW_SPLIT_3_OFFSET : LightParam = LightParam (11i64) ; pub const SHADOW_NORMAL_BIAS : LightParam = LightParam (12i64) ; pub const SHADOW_BIAS : LightParam = LightParam (13i64) ; pub const SHADOW_BIAS_SPLIT_SCALE : LightParam = LightParam (14i64) ; pub const MAX : LightParam = LightParam (15i64) ; } impl From < i64 > for LightParam { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightParam > for i64 { # [inline] fn from (v : LightParam) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightType (pub i64) ; impl LightType { pub const DIRECTIONAL : LightType = LightType (0i64) ; pub const OMNI : LightType = LightType (1i64) ; pub const SPOT : LightType = LightType (2i64) ; } impl From < i64 > for LightType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightType > for i64 { # [inline] fn from (v : LightType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MultimeshColorFormat (pub i64) ; impl MultimeshColorFormat { pub const NONE : MultimeshColorFormat = MultimeshColorFormat (0i64) ; pub const _8BIT : MultimeshColorFormat = MultimeshColorFormat (1i64) ; pub const FLOAT : MultimeshColorFormat = MultimeshColorFormat (2i64) ; } impl From < i64 > for MultimeshColorFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MultimeshColorFormat > for i64 { # [inline] fn from (v : MultimeshColorFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MultimeshCustomDataFormat (pub i64) ; impl MultimeshCustomDataFormat { pub const NONE : MultimeshCustomDataFormat = MultimeshCustomDataFormat (0i64) ; pub const _8BIT : MultimeshCustomDataFormat = MultimeshCustomDataFormat (1i64) ; pub const FLOAT : MultimeshCustomDataFormat = MultimeshCustomDataFormat (2i64) ; } impl From < i64 > for MultimeshCustomDataFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MultimeshCustomDataFormat > for i64 { # [inline] fn from (v : MultimeshCustomDataFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MultimeshTransformFormat (pub i64) ; impl MultimeshTransformFormat { pub const _2D : MultimeshTransformFormat = MultimeshTransformFormat (0i64) ; pub const _3D : MultimeshTransformFormat = MultimeshTransformFormat (1i64) ; } impl From < i64 > for MultimeshTransformFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MultimeshTransformFormat > for i64 { # [inline] fn from (v : MultimeshTransformFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct NinePatchAxisMode (pub i64) ; impl NinePatchAxisMode { pub const STRETCH : NinePatchAxisMode = NinePatchAxisMode (0i64) ; pub const TILE : NinePatchAxisMode = NinePatchAxisMode (1i64) ; pub const TILE_FIT : NinePatchAxisMode = NinePatchAxisMode (2i64) ; } impl From < i64 > for NinePatchAxisMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < NinePatchAxisMode > for i64 { # [inline] fn from (v : NinePatchAxisMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ParticlesDrawOrder (pub i64) ; impl ParticlesDrawOrder { pub const INDEX : ParticlesDrawOrder = ParticlesDrawOrder (0i64) ; pub const LIFETIME : ParticlesDrawOrder = ParticlesDrawOrder (1i64) ; pub const VIEW_DEPTH : ParticlesDrawOrder = ParticlesDrawOrder (2i64) ; } impl From < i64 > for ParticlesDrawOrder { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ParticlesDrawOrder > for i64 { # [inline] fn from (v : ParticlesDrawOrder) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PrimitiveType (pub i64) ; impl PrimitiveType { pub const POINTS : PrimitiveType = PrimitiveType (0i64) ; pub const LINES : PrimitiveType = PrimitiveType (1i64) ; pub const LINE_STRIP : PrimitiveType = PrimitiveType (2i64) ; pub const LINE_LOOP : PrimitiveType = PrimitiveType (3i64) ; pub const TRIANGLES : PrimitiveType = PrimitiveType (4i64) ; pub const TRIANGLE_STRIP : PrimitiveType = PrimitiveType (5i64) ; pub const TRIANGLE_FAN : PrimitiveType = PrimitiveType (6i64) ; pub const MAX : PrimitiveType = PrimitiveType (7i64) ; } impl From < i64 > for PrimitiveType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PrimitiveType > for i64 { # [inline] fn from (v : PrimitiveType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ReflectionProbeUpdateMode (pub i64) ; impl ReflectionProbeUpdateMode { pub const ONCE : ReflectionProbeUpdateMode = ReflectionProbeUpdateMode (0i64) ; pub const ALWAYS : ReflectionProbeUpdateMode = ReflectionProbeUpdateMode (1i64) ; } impl From < i64 > for ReflectionProbeUpdateMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ReflectionProbeUpdateMode > for i64 { # [inline] fn from (v : ReflectionProbeUpdateMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct RenderInfo (pub i64) ; impl RenderInfo { pub const OBJECTS_IN_FRAME : RenderInfo = RenderInfo (0i64) ; pub const VERTICES_IN_FRAME : RenderInfo = RenderInfo (1i64) ; pub const MATERIAL_CHANGES_IN_FRAME : RenderInfo = RenderInfo (2i64) ; pub const SHADER_CHANGES_IN_FRAME : RenderInfo = RenderInfo (3i64) ; pub const SURFACE_CHANGES_IN_FRAME : RenderInfo = RenderInfo (4i64) ; pub const DRAW_CALLS_IN_FRAME : RenderInfo = RenderInfo (5i64) ; pub const _2D_ITEMS_IN_FRAME : RenderInfo = RenderInfo (6i64) ; pub const _2D_DRAW_CALLS_IN_FRAME : RenderInfo = RenderInfo (7i64) ; pub const USAGE_VIDEO_MEM_TOTAL : RenderInfo = RenderInfo (8i64) ; pub const VIDEO_MEM_USED : RenderInfo = RenderInfo (9i64) ; pub const TEXTURE_MEM_USED : RenderInfo = RenderInfo (10i64) ; pub const VERTEX_MEM_USED : RenderInfo = RenderInfo (11i64) ; } impl From < i64 > for RenderInfo { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < RenderInfo > for i64 { # [inline] fn from (v : RenderInfo) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ScenarioDebugMode (pub i64) ; impl ScenarioDebugMode { pub const DISABLED : ScenarioDebugMode = ScenarioDebugMode (0i64) ; pub const WIREFRAME : ScenarioDebugMode = ScenarioDebugMode (1i64) ; pub const OVERDRAW : ScenarioDebugMode = ScenarioDebugMode (2i64) ; pub const SHADELESS : ScenarioDebugMode = ScenarioDebugMode (3i64) ; } impl From < i64 > for ScenarioDebugMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ScenarioDebugMode > for i64 { # [inline] fn from (v : ScenarioDebugMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShaderMode (pub i64) ; impl ShaderMode { pub const SPATIAL : ShaderMode = ShaderMode (0i64) ; pub const CANVAS_ITEM : ShaderMode = ShaderMode (1i64) ; pub const PARTICLES : ShaderMode = ShaderMode (2i64) ; pub const MAX : ShaderMode = ShaderMode (3i64) ; } impl From < i64 > for ShaderMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShaderMode > for i64 { # [inline] fn from (v : ShaderMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShadowCastingSetting (pub i64) ; impl ShadowCastingSetting { pub const OFF : ShadowCastingSetting = ShadowCastingSetting (0i64) ; pub const ON : ShadowCastingSetting = ShadowCastingSetting (1i64) ; pub const DOUBLE_SIDED : ShadowCastingSetting = ShadowCastingSetting (2i64) ; pub const SHADOWS_ONLY : ShadowCastingSetting = ShadowCastingSetting (3i64) ; } impl From < i64 > for ShadowCastingSetting { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShadowCastingSetting > for i64 { # [inline] fn from (v : ShadowCastingSetting) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TextureFlags (pub i64) ; impl TextureFlags { pub const FLAG_MIPMAPS : TextureFlags = TextureFlags (1i64) ; pub const FLAG_REPEAT : TextureFlags = TextureFlags (2i64) ; pub const FLAG_FILTER : TextureFlags = TextureFlags (4i64) ; pub const FLAGS_DEFAULT : TextureFlags = TextureFlags (7i64) ; pub const FLAG_ANISOTROPIC_FILTER : TextureFlags = TextureFlags (8i64) ; pub const FLAG_CONVERT_TO_LINEAR : TextureFlags = TextureFlags (16i64) ; pub const FLAG_MIRRORED_REPEAT : TextureFlags = TextureFlags (32i64) ; pub const FLAG_USED_FOR_STREAMING : TextureFlags = TextureFlags (2048i64) ; } impl From < i64 > for TextureFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TextureFlags > for i64 { # [inline] fn from (v : TextureFlags) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TextureType (pub i64) ; impl TextureType { pub const _2D : TextureType = TextureType (0i64) ; pub const CUBEMAP : TextureType = TextureType (2i64) ; pub const _2D_ARRAY : TextureType = TextureType (3i64) ; pub const _3D : TextureType = TextureType (4i64) ; } impl From < i64 > for TextureType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TextureType > for i64 { # [inline] fn from (v : TextureType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportClearMode (pub i64) ; impl ViewportClearMode { pub const ALWAYS : ViewportClearMode = ViewportClearMode (0i64) ; pub const NEVER : ViewportClearMode = ViewportClearMode (1i64) ; pub const ONLY_NEXT_FRAME : ViewportClearMode = ViewportClearMode (2i64) ; } impl From < i64 > for ViewportClearMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportClearMode > for i64 { # [inline] fn from (v : ViewportClearMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportDebugDraw (pub i64) ; impl ViewportDebugDraw { pub const DISABLED : ViewportDebugDraw = ViewportDebugDraw (0i64) ; pub const UNSHADED : ViewportDebugDraw = ViewportDebugDraw (1i64) ; pub const OVERDRAW : ViewportDebugDraw = ViewportDebugDraw (2i64) ; pub const WIREFRAME : ViewportDebugDraw = ViewportDebugDraw (3i64) ; } impl From < i64 > for ViewportDebugDraw { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportDebugDraw > for i64 { # [inline] fn from (v : ViewportDebugDraw) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportMsaa (pub i64) ; impl ViewportMsaa { pub const DISABLED : ViewportMsaa = ViewportMsaa (0i64) ; pub const _2X : ViewportMsaa = ViewportMsaa (1i64) ; pub const _4X : ViewportMsaa = ViewportMsaa (2i64) ; pub const _8X : ViewportMsaa = ViewportMsaa (3i64) ; pub const _16X : ViewportMsaa = ViewportMsaa (4i64) ; pub const EXT_2X : ViewportMsaa = ViewportMsaa (5i64) ; pub const EXT_4X : ViewportMsaa = ViewportMsaa (6i64) ; } impl From < i64 > for ViewportMsaa { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportMsaa > for i64 { # [inline] fn from (v : ViewportMsaa) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportRenderInfo (pub i64) ; impl ViewportRenderInfo { pub const OBJECTS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (0i64) ; pub const VERTICES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (1i64) ; pub const MATERIAL_CHANGES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (2i64) ; pub const SHADER_CHANGES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (3i64) ; pub const SURFACE_CHANGES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (4i64) ; pub const DRAW_CALLS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (5i64) ; pub const _2D_ITEMS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (6i64) ; pub const _2D_DRAW_CALLS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (7i64) ; pub const MAX : ViewportRenderInfo = ViewportRenderInfo (8i64) ; } impl From < i64 > for ViewportRenderInfo { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportRenderInfo > for i64 { # [inline] fn from (v : ViewportRenderInfo) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportUpdateMode (pub i64) ; impl ViewportUpdateMode { pub const DISABLED : ViewportUpdateMode = ViewportUpdateMode (0i64) ; pub const ONCE : ViewportUpdateMode = ViewportUpdateMode (1i64) ; pub const WHEN_VISIBLE : ViewportUpdateMode = ViewportUpdateMode (2i64) ; pub const ALWAYS : ViewportUpdateMode = ViewportUpdateMode (3i64) ; } impl From < i64 > for ViewportUpdateMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportUpdateMode > for i64 { # [inline] fn from (v : ViewportUpdateMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportUsage (pub i64) ; impl ViewportUsage { pub const _2D : ViewportUsage = ViewportUsage (0i64) ; pub const _2D_NO_SAMPLING : ViewportUsage = ViewportUsage (1i64) ; pub const _3D : ViewportUsage = ViewportUsage (2i64) ; pub const _3D_NO_EFFECTS : ViewportUsage = ViewportUsage (3i64) ; } impl From < i64 > for ViewportUsage { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportUsage > for i64 { # [inline] fn from (v : ViewportUsage) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualServer { pub const ARRAY_BONES : i64 = 6i64 ; pub const ARRAY_COLOR : i64 = 3i64 ; pub const ARRAY_COMPRESS_BONES : i64 = 32768i64 ; pub const ARRAY_COMPRESS_COLOR : i64 = 4096i64 ; pub const ARRAY_COMPRESS_DEFAULT : i64 = 97280i64 ; pub const ARRAY_COMPRESS_INDEX : i64 = 131072i64 ; pub const ARRAY_COMPRESS_NORMAL : i64 = 1024i64 ; pub const ARRAY_COMPRESS_TANGENT : i64 = 2048i64 ; pub const ARRAY_COMPRESS_TEX_UV : i64 = 8192i64 ; pub const ARRAY_COMPRESS_TEX_UV2 : i64 = 16384i64 ; pub const ARRAY_COMPRESS_VERTEX : i64 = 512i64 ; pub const ARRAY_COMPRESS_WEIGHTS : i64 = 65536i64 ; pub const ARRAY_FLAG_USE_16_BIT_BONES : i64 = 524288i64 ; pub const ARRAY_FLAG_USE_2D_VERTICES : i64 = 262144i64 ; pub const ARRAY_FORMAT_BONES : i64 = 64i64 ; pub const ARRAY_FORMAT_COLOR : i64 = 8i64 ; pub const ARRAY_FORMAT_INDEX : i64 = 256i64 ; pub const ARRAY_FORMAT_NORMAL : i64 = 2i64 ; pub const ARRAY_FORMAT_TANGENT : i64 = 4i64 ; pub const ARRAY_FORMAT_TEX_UV : i64 = 16i64 ; pub const ARRAY_FORMAT_TEX_UV2 : i64 = 32i64 ; pub const ARRAY_FORMAT_VERTEX : i64 = 1i64 ; pub const ARRAY_FORMAT_WEIGHTS : i64 = 128i64 ; pub const ARRAY_INDEX : i64 = 8i64 ; pub const ARRAY_MAX : i64 = 9i64 ; pub const ARRAY_NORMAL : i64 = 1i64 ; pub const ARRAY_TANGENT : i64 = 2i64 ; pub const ARRAY_TEX_UV : i64 = 4i64 ; pub const ARRAY_TEX_UV2 : i64 = 5i64 ; pub const ARRAY_VERTEX : i64 = 0i64 ; pub const ARRAY_WEIGHTS : i64 = 7i64 ; pub const ARRAY_WEIGHTS_SIZE : i64 = 4i64 ; pub const BLEND_SHAPE_MODE_NORMALIZED : i64 = 0i64 ; pub const BLEND_SHAPE_MODE_RELATIVE : i64 = 1i64 ; pub const CANVAS_ITEM_Z_MAX : i64 = 4096i64 ; pub const CANVAS_ITEM_Z_MIN : i64 = - 4096i64 ; pub const CANVAS_LIGHT_FILTER_NONE : i64 = 0i64 ; pub const CANVAS_LIGHT_FILTER_PCF13 : i64 = 5i64 ; pub const CANVAS_LIGHT_FILTER_PCF3 : i64 = 1i64 ; pub const CANVAS_LIGHT_FILTER_PCF5 : i64 = 2i64 ; pub const CANVAS_LIGHT_FILTER_PCF7 : i64 = 3i64 ; pub const CANVAS_LIGHT_FILTER_PCF9 : i64 = 4i64 ; pub const CANVAS_LIGHT_MODE_ADD : i64 = 0i64 ; pub const CANVAS_LIGHT_MODE_MASK : i64 = 3i64 ; pub const CANVAS_LIGHT_MODE_MIX : i64 = 2i64 ; pub const CANVAS_LIGHT_MODE_SUB : i64 = 1i64 ; pub const CANVAS_OCCLUDER_POLYGON_CULL_CLOCKWISE : i64 = 1i64 ; pub const CANVAS_OCCLUDER_POLYGON_CULL_COUNTER_CLOCKWISE : i64 = 2i64 ; pub const CANVAS_OCCLUDER_POLYGON_CULL_DISABLED : i64 = 0i64 ; pub const CUBEMAP_BACK : i64 = 5i64 ; pub const CUBEMAP_BOTTOM : i64 = 2i64 ; pub const CUBEMAP_FRONT : i64 = 4i64 ; pub const CUBEMAP_LEFT : i64 = 0i64 ; pub const CUBEMAP_RIGHT : i64 = 1i64 ; pub const CUBEMAP_TOP : i64 = 3i64 ; pub const ENV_BG_CANVAS : i64 = 4i64 ; pub const ENV_BG_CLEAR_COLOR : i64 = 0i64 ; pub const ENV_BG_COLOR : i64 = 1i64 ; pub const ENV_BG_COLOR_SKY : i64 = 3i64 ; pub const ENV_BG_KEEP : i64 = 5i64 ; pub const ENV_BG_MAX : i64 = 7i64 ; pub const ENV_BG_SKY : i64 = 2i64 ; pub const ENV_DOF_BLUR_QUALITY_HIGH : i64 = 2i64 ; pub const ENV_DOF_BLUR_QUALITY_LOW : i64 = 0i64 ; pub const ENV_DOF_BLUR_QUALITY_MEDIUM : i64 = 1i64 ; pub const ENV_SSAO_BLUR_1x1 : i64 = 1i64 ; pub const ENV_SSAO_BLUR_2x2 : i64 = 2i64 ; pub const ENV_SSAO_BLUR_3x3 : i64 = 3i64 ; pub const ENV_SSAO_BLUR_DISABLED : i64 = 0i64 ; pub const ENV_SSAO_QUALITY_HIGH : i64 = 2i64 ; pub const ENV_SSAO_QUALITY_LOW : i64 = 0i64 ; pub const ENV_SSAO_QUALITY_MEDIUM : i64 = 1i64 ; pub const ENV_TONE_MAPPER_ACES : i64 = 3i64 ; pub const ENV_TONE_MAPPER_FILMIC : i64 = 2i64 ; pub const ENV_TONE_MAPPER_LINEAR : i64 = 0i64 ; pub const ENV_TONE_MAPPER_REINHARD : i64 = 1i64 ; pub const FEATURE_MULTITHREADED : i64 = 1i64 ; pub const FEATURE_SHADERS : i64 = 0i64 ; pub const GLOW_BLEND_MODE_ADDITIVE : i64 = 0i64 ; pub const GLOW_BLEND_MODE_REPLACE : i64 = 3i64 ; pub const GLOW_BLEND_MODE_SCREEN : i64 = 1i64 ; pub const GLOW_BLEND_MODE_SOFTLIGHT : i64 = 2i64 ; pub const INFO_2D_DRAW_CALLS_IN_FRAME : i64 = 7i64 ; pub const INFO_2D_ITEMS_IN_FRAME : i64 = 6i64 ; pub const INFO_DRAW_CALLS_IN_FRAME : i64 = 5i64 ; pub const INFO_MATERIAL_CHANGES_IN_FRAME : i64 = 2i64 ; pub const INFO_OBJECTS_IN_FRAME : i64 = 0i64 ; pub const INFO_SHADER_CHANGES_IN_FRAME : i64 = 3i64 ; pub const INFO_SURFACE_CHANGES_IN_FRAME : i64 = 4i64 ; pub const INFO_TEXTURE_MEM_USED : i64 = 10i64 ; pub const INFO_USAGE_VIDEO_MEM_TOTAL : i64 = 8i64 ; pub const INFO_VERTEX_MEM_USED : i64 = 11i64 ; pub const INFO_VERTICES_IN_FRAME : i64 = 1i64 ; pub const INFO_VIDEO_MEM_USED : i64 = 9i64 ; pub const INSTANCE_FLAG_DRAW_NEXT_FRAME_IF_VISIBLE : i64 = 1i64 ; pub const INSTANCE_FLAG_MAX : i64 = 2i64 ; pub const INSTANCE_FLAG_USE_BAKED_LIGHT : i64 = 0i64 ; pub const INSTANCE_GEOMETRY_MASK : i64 = 30i64 ; pub const INSTANCE_GI_PROBE : i64 = 7i64 ; pub const INSTANCE_IMMEDIATE : i64 = 3i64 ; pub const INSTANCE_LIGHT : i64 = 5i64 ; pub const INSTANCE_LIGHTMAP_CAPTURE : i64 = 8i64 ; pub const INSTANCE_MAX : i64 = 9i64 ; pub const INSTANCE_MESH : i64 = 1i64 ; pub const INSTANCE_MULTIMESH : i64 = 2i64 ; pub const INSTANCE_NONE : i64 = 0i64 ; pub const INSTANCE_PARTICLES : i64 = 4i64 ; pub const INSTANCE_REFLECTION_PROBE : i64 = 6i64 ; pub const LIGHT_BAKE_ALL : i64 = 2i64 ; pub const LIGHT_BAKE_DISABLED : i64 = 0i64 ; pub const LIGHT_BAKE_INDIRECT : i64 = 1i64 ; pub const LIGHT_DIRECTIONAL : i64 = 0i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_DEPTH_RANGE_OPTIMIZED : i64 = 1i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_DEPTH_RANGE_STABLE : i64 = 0i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_ORTHOGONAL : i64 = 0i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS : i64 = 1i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS : i64 = 2i64 ; pub const LIGHT_OMNI : i64 = 1i64 ; pub const LIGHT_OMNI_SHADOW_CUBE : i64 = 1i64 ; pub const LIGHT_OMNI_SHADOW_DETAIL_HORIZONTAL : i64 = 1i64 ; pub const LIGHT_OMNI_SHADOW_DETAIL_VERTICAL : i64 = 0i64 ; pub const LIGHT_OMNI_SHADOW_DUAL_PARABOLOID : i64 = 0i64 ; pub const LIGHT_PARAM_ATTENUATION : i64 = 4i64 ; pub const LIGHT_PARAM_CONTACT_SHADOW_SIZE : i64 = 7i64 ; pub const LIGHT_PARAM_ENERGY : i64 = 0i64 ; pub const LIGHT_PARAM_MAX : i64 = 15i64 ; pub const LIGHT_PARAM_RANGE : i64 = 3i64 ; pub const LIGHT_PARAM_SHADOW_BIAS : i64 = 13i64 ; pub const LIGHT_PARAM_SHADOW_BIAS_SPLIT_SCALE : i64 = 14i64 ; pub const LIGHT_PARAM_SHADOW_MAX_DISTANCE : i64 = 8i64 ; pub const LIGHT_PARAM_SHADOW_NORMAL_BIAS : i64 = 12i64 ; pub const LIGHT_PARAM_SHADOW_SPLIT_1_OFFSET : i64 = 9i64 ; pub const LIGHT_PARAM_SHADOW_SPLIT_2_OFFSET : i64 = 10i64 ; pub const LIGHT_PARAM_SHADOW_SPLIT_3_OFFSET : i64 = 11i64 ; pub const LIGHT_PARAM_SPECULAR : i64 = 2i64 ; pub const LIGHT_PARAM_SPOT_ANGLE : i64 = 5i64 ; pub const LIGHT_PARAM_SPOT_ATTENUATION : i64 = 6i64 ; pub const LIGHT_SPOT : i64 = 2i64 ; pub const MATERIAL_RENDER_PRIORITY_MAX : i64 = 127i64 ; pub const MATERIAL_RENDER_PRIORITY_MIN : i64 = - 128i64 ; pub const MAX_CURSORS : i64 = 8i64 ; pub const MAX_GLOW_LEVELS : i64 = 7i64 ; pub const MULTIMESH_COLOR_8BIT : i64 = 1i64 ; pub const MULTIMESH_COLOR_FLOAT : i64 = 2i64 ; pub const MULTIMESH_COLOR_NONE : i64 = 0i64 ; pub const MULTIMESH_CUSTOM_DATA_8BIT : i64 = 1i64 ; pub const MULTIMESH_CUSTOM_DATA_FLOAT : i64 = 2i64 ; pub const MULTIMESH_CUSTOM_DATA_NONE : i64 = 0i64 ; pub const MULTIMESH_TRANSFORM_2D : i64 = 0i64 ; pub const MULTIMESH_TRANSFORM_3D : i64 = 1i64 ; pub const NINE_PATCH_STRETCH : i64 = 0i64 ; pub const NINE_PATCH_TILE : i64 = 1i64 ; pub const NINE_PATCH_TILE_FIT : i64 = 2i64 ; pub const NO_INDEX_ARRAY : i64 = - 1i64 ; pub const PARTICLES_DRAW_ORDER_INDEX : i64 = 0i64 ; pub const PARTICLES_DRAW_ORDER_LIFETIME : i64 = 1i64 ; pub const PARTICLES_DRAW_ORDER_VIEW_DEPTH : i64 = 2i64 ; pub const PRIMITIVE_LINES : i64 = 1i64 ; pub const PRIMITIVE_LINE_LOOP : i64 = 3i64 ; pub const PRIMITIVE_LINE_STRIP : i64 = 2i64 ; pub const PRIMITIVE_MAX : i64 = 7i64 ; pub const PRIMITIVE_POINTS : i64 = 0i64 ; pub const PRIMITIVE_TRIANGLES : i64 = 4i64 ; pub const PRIMITIVE_TRIANGLE_FAN : i64 = 6i64 ; pub const PRIMITIVE_TRIANGLE_STRIP : i64 = 5i64 ; pub const REFLECTION_PROBE_UPDATE_ALWAYS : i64 = 1i64 ; pub const REFLECTION_PROBE_UPDATE_ONCE : i64 = 0i64 ; pub const SCENARIO_DEBUG_DISABLED : i64 = 0i64 ; pub const SCENARIO_DEBUG_OVERDRAW : i64 = 2i64 ; pub const SCENARIO_DEBUG_SHADELESS : i64 = 3i64 ; pub const SCENARIO_DEBUG_WIREFRAME : i64 = 1i64 ; pub const SHADER_CANVAS_ITEM : i64 = 1i64 ; pub const SHADER_MAX : i64 = 3i64 ; pub const SHADER_PARTICLES : i64 = 2i64 ; pub const SHADER_SPATIAL : i64 = 0i64 ; pub const SHADOW_CASTING_SETTING_DOUBLE_SIDED : i64 = 2i64 ; pub const SHADOW_CASTING_SETTING_OFF : i64 = 0i64 ; pub const SHADOW_CASTING_SETTING_ON : i64 = 1i64 ; pub const SHADOW_CASTING_SETTING_SHADOWS_ONLY : i64 = 3i64 ; pub const TEXTURE_FLAGS_DEFAULT : i64 = 7i64 ; pub const TEXTURE_FLAG_ANISOTROPIC_FILTER : i64 = 8i64 ; pub const TEXTURE_FLAG_CONVERT_TO_LINEAR : i64 = 16i64 ; pub const TEXTURE_FLAG_FILTER : i64 = 4i64 ; pub const TEXTURE_FLAG_MIPMAPS : i64 = 1i64 ; pub const TEXTURE_FLAG_MIRRORED_REPEAT : i64 = 32i64 ; pub const TEXTURE_FLAG_REPEAT : i64 = 2i64 ; pub const TEXTURE_FLAG_USED_FOR_STREAMING : i64 = 2048i64 ; pub const TEXTURE_TYPE_2D : i64 = 0i64 ; pub const TEXTURE_TYPE_2D_ARRAY : i64 = 3i64 ; pub const TEXTURE_TYPE_3D : i64 = 4i64 ; pub const TEXTURE_TYPE_CUBEMAP : i64 = 2i64 ; pub const VIEWPORT_CLEAR_ALWAYS : i64 = 0i64 ; pub const VIEWPORT_CLEAR_NEVER : i64 = 1i64 ; pub const VIEWPORT_CLEAR_ONLY_NEXT_FRAME : i64 = 2i64 ; pub const VIEWPORT_DEBUG_DRAW_DISABLED : i64 = 0i64 ; pub const VIEWPORT_DEBUG_DRAW_OVERDRAW : i64 = 2i64 ; pub const VIEWPORT_DEBUG_DRAW_UNSHADED : i64 = 1i64 ; pub const VIEWPORT_DEBUG_DRAW_WIREFRAME : i64 = 3i64 ; pub const VIEWPORT_MSAA_16X : i64 = 4i64 ; pub const VIEWPORT_MSAA_2X : i64 = 1i64 ; pub const VIEWPORT_MSAA_4X : i64 = 2i64 ; pub const VIEWPORT_MSAA_8X : i64 = 3i64 ; pub const VIEWPORT_MSAA_DISABLED : i64 = 0i64 ; pub const VIEWPORT_MSAA_EXT_2X : i64 = 5i64 ; pub const VIEWPORT_MSAA_EXT_4X : i64 = 6i64 ; pub const VIEWPORT_RENDER_INFO_2D_DRAW_CALLS_IN_FRAME : i64 = 7i64 ; pub const VIEWPORT_RENDER_INFO_2D_ITEMS_IN_FRAME : i64 = 6i64 ; pub const VIEWPORT_RENDER_INFO_DRAW_CALLS_IN_FRAME : i64 = 5i64 ; pub const VIEWPORT_RENDER_INFO_MATERIAL_CHANGES_IN_FRAME : i64 = 2i64 ; pub const VIEWPORT_RENDER_INFO_MAX : i64 = 8i64 ; pub const VIEWPORT_RENDER_INFO_OBJECTS_IN_FRAME : i64 = 0i64 ; pub const VIEWPORT_RENDER_INFO_SHADER_CHANGES_IN_FRAME : i64 = 3i64 ; pub const VIEWPORT_RENDER_INFO_SURFACE_CHANGES_IN_FRAME : i64 = 4i64 ; pub const VIEWPORT_RENDER_INFO_VERTICES_IN_FRAME : i64 = 1i64 ; pub const VIEWPORT_UPDATE_ALWAYS : i64 = 3i64 ; pub const VIEWPORT_UPDATE_DISABLED : i64 = 0i64 ; pub const VIEWPORT_UPDATE_ONCE : i64 = 1i64 ; pub const VIEWPORT_UPDATE_WHEN_VISIBLE : i64 = 2i64 ; pub const VIEWPORT_USAGE_2D : i64 = 0i64 ; pub const VIEWPORT_USAGE_2D_NO_SAMPLING : i64 = 1i64 ; pub const VIEWPORT_USAGE_3D : i64 = 2i64 ; pub const VIEWPORT_USAGE_3D_NO_EFFECTS : i64 = 3i64 ; } impl VisualServer { # [doc = "Returns a reference to the singleton instance.\n\n# Safety\n\nThis singleton server is only safe to access from outside the main thread if thread-safe\noperations are enabled in the project settings. See the official\n[thread-safety guidelines][thread-safety] for more information.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [inline] pub unsafe fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("VisualServer\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Sets images to be rendered in the window margin."] # [doc = ""] # [inline] pub fn black_bars_set_images (& self , left : Rid , top : Rid , right : Rid , bottom : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . black_bars_set_images ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , left , top , right , bottom) ; } } # [doc = "Sets margin size, where black bars (or images, if [method black_bars_set_images] was used) are rendered."] # [doc = ""] # [inline] pub fn black_bars_set_margins (& self , left : i64 , top : i64 , right : i64 , bottom : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . black_bars_set_margins ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , left , top , right , bottom) ; } } # [doc = "Creates a camera and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `camera_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn camera_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets the cull mask associated with this camera. The cull mask describes which 3D layers are rendered by this camera. Equivalent to [member Camera.cull_mask]."] # [doc = ""] # [inline] pub fn camera_set_cull_mask (& self , camera : Rid , layers : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , camera , layers) ; } } # [doc = "Sets the environment used by this camera. Equivalent to [member Camera.environment]."] # [doc = ""] # [inline] pub fn camera_set_environment (& self , camera : Rid , env : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_environment ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , camera , env) ; } } # [doc = "Sets camera to use frustum projection. This mode allows adjusting the `offset` argument to create \"tilted frustum\" effects."] # [doc = ""] # [inline] pub fn camera_set_frustum (& self , camera : Rid , size : f64 , offset : Vector2 , z_near : f64 , z_far : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_frustum ; let ret = crate :: icalls :: icallptr_void_rid_f64_vec2_f64_f64 (method_bind , self . this . sys () . as_ptr () , camera , size , offset , z_near , z_far) ; } } # [doc = "Sets camera to use orthogonal projection, also known as orthographic projection. Objects remain the same size on the screen no matter how far away they are."] # [doc = ""] # [inline] pub fn camera_set_orthogonal (& self , camera : Rid , size : f64 , z_near : f64 , z_far : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_orthogonal ; let ret = crate :: icalls :: icallptr_void_rid_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , camera , size , z_near , z_far) ; } } # [doc = "Sets camera to use perspective projection. Objects on the screen becomes smaller when they are far away."] # [doc = ""] # [inline] pub fn camera_set_perspective (& self , camera : Rid , fovy_degrees : f64 , z_near : f64 , z_far : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_perspective ; let ret = crate :: icalls :: icallptr_void_rid_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , camera , fovy_degrees , z_near , z_far) ; } } # [doc = "Sets [Transform] of camera."] # [doc = ""] # [inline] pub fn camera_set_transform (& self , camera : Rid , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , camera , transform) ; } } # [doc = "If `true`, preserves the horizontal aspect ratio which is equivalent to [constant Camera.KEEP_WIDTH]. If `false`, preserves the vertical aspect ratio which is equivalent to [constant Camera.KEEP_HEIGHT]."] # [doc = ""] # [inline] pub fn camera_set_use_vertical_aspect (& self , camera : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_use_vertical_aspect ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , camera , enable) ; } } # [doc = "Creates a canvas and returns the assigned [RID]. It can be accessed with the RID that is returned. This RID will be used in all `canvas_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Adds a circle command to the [CanvasItem]'s draw commands."] # [doc = ""] # [inline] pub fn canvas_item_add_circle (& self , item : Rid , pos : Vector2 , radius : f64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_circle ; let ret = crate :: icalls :: icallptr_void_rid_vec2_f64_color (method_bind , self . this . sys () . as_ptr () , item , pos , radius , color) ; } } # [doc = "If ignore is `true`, the VisualServer does not perform clipping."] # [doc = ""] # [inline] pub fn canvas_item_add_clip_ignore (& self , item : Rid , ignore : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_clip_ignore ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , ignore) ; } } # [doc = "Adds a line command to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `width` - `1.0`\n* `antialiased` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_line (& self , item : Rid , from : Vector2 , to : Vector2 , color : Color , width : f64 , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_line ; let ret = crate :: icalls :: icallptr_void_rid_vec2_vec2_color_f64_bool (method_bind , self . this . sys () . as_ptr () , item , from , to , color , width , antialiased) ; } } # [doc = "Adds a mesh command to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `transform` - `Transform2D( 1, 0, 0, 1, 0, 0 )`\n* `modulate` - `Color( 1, 1, 1, 1 )`"] # [doc = ""] # [inline] pub fn canvas_item_add_mesh (& self , item : Rid , mesh : Rid , transform : Transform2D , modulate : Color , texture : Rid , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_mesh ; let ret = crate :: icalls :: icallptr_void_rid_rid_trans2D_color_rid_rid (method_bind , self . this . sys () . as_ptr () , item , mesh , transform , modulate , texture , normal_map) ; } } # [doc = "Adds a [MultiMesh] to the [CanvasItem]'s draw commands. Only affects its aabb at the moment."] # [doc = ""] # [inline] pub fn canvas_item_add_multimesh (& self , item : Rid , mesh : Rid , texture : Rid , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_multimesh ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , item , mesh , texture , normal_map) ; } } # [doc = "Adds a nine patch image to the [CanvasItem]'s draw commands.\nSee [NinePatchRect] for more explanation.\n# Default Arguments\n* `x_axis_mode` - `0`\n* `y_axis_mode` - `0`\n* `draw_center` - `true`\n* `modulate` - `Color( 1, 1, 1, 1 )`"] # [doc = ""] # [inline] pub fn canvas_item_add_nine_patch (& self , item : Rid , rect : Rect2 , source : Rect2 , texture : Rid , topleft : Vector2 , bottomright : Vector2 , x_axis_mode : i64 , y_axis_mode : i64 , draw_center : bool , modulate : Color , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_nine_patch ; let ret = crate :: icalls :: icallptr_void_rid_rect2_rect2_rid_vec2_vec2_i64_i64_bool_color_rid (method_bind , self . this . sys () . as_ptr () , item , rect , source , texture , topleft , bottomright , x_axis_mode , y_axis_mode , draw_center , modulate , normal_map) ; } } # [doc = "Adds a particle system to the [CanvasItem]'s draw commands."] # [doc = ""] # [inline] pub fn canvas_item_add_particles (& self , item : Rid , particles : Rid , texture : Rid , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_particles ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , item , particles , texture , normal_map) ; } } # [doc = "Adds a polygon to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `uvs` - `PoolVector2Array( )`\n* `antialiased` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_polygon (& self , item : Rid , points : Vector2Array , colors : ColorArray , uvs : Vector2Array , texture : Rid , normal_map : Rid , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_polygon ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_colorarr_vec2arr_rid_rid_bool (method_bind , self . this . sys () . as_ptr () , item , points , colors , uvs , texture , normal_map , antialiased) ; } } # [doc = "Adds a polyline, which is a line from multiple points with a width, to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `width` - `1.0`\n* `antialiased` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_polyline (& self , item : Rid , points : Vector2Array , colors : ColorArray , width : f64 , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_polyline ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_colorarr_f64_bool (method_bind , self . this . sys () . as_ptr () , item , points , colors , width , antialiased) ; } } # [doc = "Adds a primitive to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `width` - `1.0`"] # [doc = ""] # [inline] pub fn canvas_item_add_primitive (& self , item : Rid , points : Vector2Array , colors : ColorArray , uvs : Vector2Array , texture : Rid , width : f64 , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_primitive ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_colorarr_vec2arr_rid_f64_rid (method_bind , self . this . sys () . as_ptr () , item , points , colors , uvs , texture , width , normal_map) ; } } # [doc = "Adds a rectangle to the [CanvasItem]'s draw commands."] # [doc = ""] # [inline] pub fn canvas_item_add_rect (& self , item : Rid , rect : Rect2 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_rect ; let ret = crate :: icalls :: icallptr_void_rid_rect2_color (method_bind , self . this . sys () . as_ptr () , item , rect , color) ; } } # [doc = "Adds a [Transform2D] command to the [CanvasItem]'s draw commands.\nThis sets the extra_matrix uniform when executed. This affects the later commands of the canvas item."] # [doc = ""] # [inline] pub fn canvas_item_add_set_transform (& self , item : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , item , transform) ; } } # [doc = "Adds a textured rect to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `tile` - `false`\n* `modulate` - `Color( 1, 1, 1, 1 )`\n* `transpose` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_texture_rect (& self , item : Rid , rect : Rect2 , texture : Rid , tile : bool , modulate : Color , transpose : bool , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_texture_rect ; let ret = crate :: icalls :: icallptr_void_rid_rect2_rid_bool_color_bool_rid (method_bind , self . this . sys () . as_ptr () , item , rect , texture , tile , modulate , transpose , normal_map) ; } } # [doc = "Adds a texture rect with region setting to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `modulate` - `Color( 1, 1, 1, 1 )`\n* `transpose` - `false`\n* `clip_uv` - `true`"] # [doc = ""] # [inline] pub fn canvas_item_add_texture_rect_region (& self , item : Rid , rect : Rect2 , texture : Rid , src_rect : Rect2 , modulate : Color , transpose : bool , normal_map : Rid , clip_uv : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_texture_rect_region ; let ret = crate :: icalls :: icallptr_void_rid_rect2_rid_rect2_color_bool_rid_bool (method_bind , self . this . sys () . as_ptr () , item , rect , texture , src_rect , modulate , transpose , normal_map , clip_uv) ; } } # [doc = "Adds a triangle array to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `uvs` - `PoolVector2Array( )`\n* `bones` - `PoolIntArray( )`\n* `weights` - `PoolRealArray( )`\n* `count` - `-1`\n* `antialiased` - `false`\n* `antialiasing_use_indices` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_triangle_array (& self , item : Rid , indices : Int32Array , points : Vector2Array , colors : ColorArray , uvs : Vector2Array , bones : Int32Array , weights : Float32Array , texture : Rid , count : i64 , normal_map : Rid , antialiased : bool , antialiasing_use_indices : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_triangle_array ; let ret = crate :: icalls :: icallptr_void_rid_i32arr_vec2arr_colorarr_vec2arr_i32arr_f32arr_rid_i64_rid_bool_bool (method_bind , self . this . sys () . as_ptr () , item , indices , points , colors , uvs , bones , weights , texture , count , normal_map , antialiased , antialiasing_use_indices) ; } } # [doc = "Clears the [CanvasItem] and removes all commands in it."] # [doc = ""] # [inline] pub fn canvas_item_clear (& self , item : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_clear ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , item) ; } } # [doc = "Creates a new [CanvasItem] and returns its [RID]. It can be accessed with the RID that is returned. This RID will be used in all `canvas_item_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_item_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets clipping for the [CanvasItem]."] # [doc = ""] # [inline] pub fn canvas_item_set_clip (& self , item : Rid , clip : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_clip ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , clip) ; } } # [doc = "Sets the [CanvasItem] to copy a rect to the backbuffer."] # [doc = ""] # [inline] pub fn canvas_item_set_copy_to_backbuffer (& self , item : Rid , enabled : bool , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_copy_to_backbuffer ; let ret = crate :: icalls :: icallptr_void_rid_bool_rect2 (method_bind , self . this . sys () . as_ptr () , item , enabled , rect) ; } } # [doc = "Defines a custom drawing rectangle for the [CanvasItem].\n# Default Arguments\n* `rect` - `Rect2( 0, 0, 0, 0 )`"] # [doc = ""] # [inline] pub fn canvas_item_set_custom_rect (& self , item : Rid , use_custom_rect : bool , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_custom_rect ; let ret = crate :: icalls :: icallptr_void_rid_bool_rect2 (method_bind , self . this . sys () . as_ptr () , item , use_custom_rect , rect) ; } } # [doc = "Enables the use of distance fields for GUI elements that are rendering distance field based fonts."] # [doc = ""] # [inline] pub fn canvas_item_set_distance_field_mode (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_distance_field_mode ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets [CanvasItem] to be drawn behind its parent."] # [doc = ""] # [inline] pub fn canvas_item_set_draw_behind_parent (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_draw_behind_parent ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets the index for the [CanvasItem]."] # [doc = ""] # [inline] pub fn canvas_item_set_draw_index (& self , item : Rid , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_draw_index ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , item , index) ; } } # [doc = "The light mask. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_item_set_light_mask (& self , item : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_light_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , item , mask) ; } } # [doc = "Sets a new material to the [CanvasItem]."] # [doc = ""] # [inline] pub fn canvas_item_set_material (& self , item : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_material ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , item , material) ; } } # [doc = "Sets the color that modulates the [CanvasItem] and its children."] # [doc = ""] # [inline] pub fn canvas_item_set_modulate (& self , item : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_modulate ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , item , color) ; } } # [doc = "Sets the parent for the [CanvasItem]. The parent can be another canvas item, or it can be the root canvas that is attached to the viewport."] # [doc = ""] # [inline] pub fn canvas_item_set_parent (& self , item : Rid , parent : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_parent ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , item , parent) ; } } # [doc = "Sets the color that modulates the [CanvasItem] without children."] # [doc = ""] # [inline] pub fn canvas_item_set_self_modulate (& self , item : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_self_modulate ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , item , color) ; } } # [doc = "Sets if [CanvasItem]'s children should be sorted by y-position."] # [doc = ""] # [inline] pub fn canvas_item_set_sort_children_by_y (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_sort_children_by_y ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets the [CanvasItem]'s [Transform2D]."] # [doc = ""] # [inline] pub fn canvas_item_set_transform (& self , item : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , item , transform) ; } } # [doc = "Sets if the [CanvasItem] uses its parent's material."] # [doc = ""] # [inline] pub fn canvas_item_set_use_parent_material (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_use_parent_material ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets if the canvas item (including its children) is visible."] # [doc = ""] # [inline] pub fn canvas_item_set_visible (& self , item : Rid , visible : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_visible ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , visible) ; } } # [doc = "If this is enabled, the Z index of the parent will be added to the children's Z index."] # [doc = ""] # [inline] pub fn canvas_item_set_z_as_relative_to_parent (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_z_as_relative_to_parent ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets the [CanvasItem]'s Z index, i.e. its draw order (lower indexes are drawn first)."] # [doc = ""] # [inline] pub fn canvas_item_set_z_index (& self , item : Rid , z_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_z_index ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , item , z_index) ; } } # [doc = "Attaches the canvas light to the canvas. Removes it from its previous canvas."] # [doc = ""] # [inline] pub fn canvas_light_attach_to_canvas (& self , light : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_attach_to_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , light , canvas) ; } } # [doc = "Creates a canvas light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `canvas_light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Attaches a light occluder to the canvas. Removes it from its previous canvas."] # [doc = ""] # [inline] pub fn canvas_light_occluder_attach_to_canvas (& self , occluder : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_attach_to_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , occluder , canvas) ; } } # [doc = "Creates a light occluder and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `canvas_light_ocluder_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_light_occluder_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Enables or disables light occluder."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_enabled (& self , occluder : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_enabled ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , occluder , enabled) ; } } # [doc = "The light mask. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_light_mask (& self , occluder : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_light_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , occluder , mask) ; } } # [doc = "Sets a light occluder's polygon."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_polygon (& self , occluder : Rid , polygon : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_polygon ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , occluder , polygon) ; } } # [doc = "Sets a light occluder's [Transform2D]."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_transform (& self , occluder : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , occluder , transform) ; } } # [doc = "Sets the color for a light."] # [doc = ""] # [inline] pub fn canvas_light_set_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Enables or disables a canvas light."] # [doc = ""] # [inline] pub fn canvas_light_set_enabled (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_enabled ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Sets a canvas light's energy."] # [doc = ""] # [inline] pub fn canvas_light_set_energy (& self , light : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , energy) ; } } # [doc = "Sets a canvas light's height."] # [doc = ""] # [inline] pub fn canvas_light_set_height (& self , light : Rid , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_height ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , height) ; } } # [doc = "The light mask. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_light_set_item_cull_mask (& self , light : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_item_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mask) ; } } # [doc = "The binary mask used to determine which layers this canvas light's shadows affects. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_light_set_item_shadow_cull_mask (& self , light : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_item_shadow_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mask) ; } } # [doc = "The layer range that gets rendered with this light."] # [doc = ""] # [inline] pub fn canvas_light_set_layer_range (& self , light : Rid , min_layer : i64 , max_layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_layer_range ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , light , min_layer , max_layer) ; } } # [doc = "The mode of the light, see [enum CanvasLightMode] constants."] # [doc = ""] # [inline] pub fn canvas_light_set_mode (& self , light : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mode) ; } } # [doc = "Sets the texture's scale factor of the light. Equivalent to [member Light2D.texture_scale]."] # [doc = ""] # [inline] pub fn canvas_light_set_scale (& self , light : Rid , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_scale ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , scale) ; } } # [doc = "Sets the width of the shadow buffer, size gets scaled to the next power of two for this."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_buffer_size (& self , light : Rid , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_buffer_size ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , size) ; } } # [doc = "Sets the color of the canvas light's shadow."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Enables or disables the canvas light's shadow."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_enabled (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_enabled ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Sets the canvas light's shadow's filter, see [enum CanvasLightShadowFilter] constants."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_filter (& self , light : Rid , filter : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_filter ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , filter) ; } } # [doc = "Sets the length of the shadow's gradient."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_gradient_length (& self , light : Rid , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_gradient_length ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , length) ; } } # [doc = "Smoothens the shadow. The lower, the smoother."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_smooth (& self , light : Rid , smooth : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_smooth ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , smooth) ; } } # [doc = "Sets texture to be used by light. Equivalent to [member Light2D.texture]."] # [doc = ""] # [inline] pub fn canvas_light_set_texture (& self , light : Rid , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_texture ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , light , texture) ; } } # [doc = "Sets the offset of the light's texture. Equivalent to [member Light2D.offset]."] # [doc = ""] # [inline] pub fn canvas_light_set_texture_offset (& self , light : Rid , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_texture_offset ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , light , offset) ; } } # [doc = "Sets the canvas light's [Transform2D]."] # [doc = ""] # [inline] pub fn canvas_light_set_transform (& self , light : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , light , transform) ; } } # [doc = "Sets the Z range of objects that will be affected by this light. Equivalent to [member Light2D.range_z_min] and [member Light2D.range_z_max]."] # [doc = ""] # [inline] pub fn canvas_light_set_z_range (& self , light : Rid , min_z : i64 , max_z : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_z_range ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , light , min_z , max_z) ; } } # [doc = "Creates a new light occluder polygon and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `canvas_occluder_polygon_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets an occluder polygons cull mode. See [enum CanvasOccluderPolygonCullMode] constants."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_set_cull_mode (& self , occluder_polygon : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_set_cull_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , occluder_polygon , mode) ; } } # [doc = "Sets the shape of the occluder polygon."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_set_shape (& self , occluder_polygon : Rid , shape : Vector2Array , closed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_set_shape ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_bool (method_bind , self . this . sys () . as_ptr () , occluder_polygon , shape , closed) ; } } # [doc = "Sets the shape of the occluder polygon as lines."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_set_shape_as_lines (& self , occluder_polygon : Rid , shape : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_set_shape_as_lines ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr (method_bind , self . this . sys () . as_ptr () , occluder_polygon , shape) ; } } # [doc = "A copy of the canvas item will be drawn with a local offset of the mirroring [Vector2]."] # [doc = ""] # [inline] pub fn canvas_set_item_mirroring (& self , canvas : Rid , item : Rid , mirroring : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_set_item_mirroring ; let ret = crate :: icalls :: icallptr_void_rid_rid_vec2 (method_bind , self . this . sys () . as_ptr () , canvas , item , mirroring) ; } } # [doc = "Modulates all colors in the given canvas."] # [doc = ""] # [inline] pub fn canvas_set_modulate (& self , canvas : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_set_modulate ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , canvas , color) ; } } # [doc = "Creates a directional light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID can be used in most `light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this directional light to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn directional_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . directional_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Draws a frame. [i]This method is deprecated[/i], please use [method force_draw] instead.\n# Default Arguments\n* `swap_buffers` - `true`\n* `frame_step` - `0.0`"] # [doc = ""] # [inline] pub fn draw (& self , swap_buffers : bool , frame_step : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . draw ; let ret = crate :: icalls :: icallptr_void_bool_f64 (method_bind , self . this . sys () . as_ptr () , swap_buffers , frame_step) ; } } # [doc = "Creates an environment and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `environment_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn environment_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets the values to be used with the \"Adjustment\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_adjustment (& self , env : Rid , enable : bool , brightness : f64 , contrast : f64 , saturation : f64 , ramp : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_adjustment ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_rid (method_bind , self . this . sys () . as_ptr () , env , enable , brightness , contrast , saturation , ramp) ; } } # [doc = "Sets the ambient light parameters. See [Environment] for more details.\n# Default Arguments\n* `energy` - `1.0`\n* `sky_contibution` - `0.0`"] # [doc = ""] # [inline] pub fn environment_set_ambient_light (& self , env : Rid , color : Color , energy : f64 , sky_contibution : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_ambient_light ; let ret = crate :: icalls :: icallptr_void_rid_color_f64_f64 (method_bind , self . this . sys () . as_ptr () , env , color , energy , sky_contibution) ; } } # [doc = "Sets the [i]BGMode[/i] of the environment. Equivalent to [member Environment.background_mode]."] # [doc = ""] # [inline] pub fn environment_set_background (& self , env : Rid , bg : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_background ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , env , bg) ; } } # [doc = "Color displayed for clear areas of the scene (if using Custom color or Color+Sky background modes)."] # [doc = ""] # [inline] pub fn environment_set_bg_color (& self , env : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_bg_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , env , color) ; } } # [doc = "Sets the intensity of the background color."] # [doc = ""] # [inline] pub fn environment_set_bg_energy (& self , env : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_bg_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , env , energy) ; } } # [doc = "Sets the maximum layer to use if using Canvas background mode."] # [doc = ""] # [inline] pub fn environment_set_canvas_max_layer (& self , env : Rid , max_layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_canvas_max_layer ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , env , max_layer) ; } } # [doc = "Sets the values to be used with the \"DoF Far Blur\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_dof_blur_far (& self , env : Rid , enable : bool , distance : f64 , transition : f64 , far_amount : f64 , quality : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_dof_blur_far ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_i64 (method_bind , self . this . sys () . as_ptr () , env , enable , distance , transition , far_amount , quality) ; } } # [doc = "Sets the values to be used with the \"DoF Near Blur\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_dof_blur_near (& self , env : Rid , enable : bool , distance : f64 , transition : f64 , far_amount : f64 , quality : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_dof_blur_near ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_i64 (method_bind , self . this . sys () . as_ptr () , env , enable , distance , transition , far_amount , quality) ; } } # [doc = "Sets the variables to be used with the scene fog. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_fog (& self , env : Rid , enable : bool , color : Color , sun_color : Color , sun_amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_fog ; let ret = crate :: icalls :: icallptr_void_rid_bool_color_color_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , color , sun_color , sun_amount) ; } } # [doc = "Sets the variables to be used with the fog depth effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_fog_depth (& self , env : Rid , enable : bool , depth_begin : f64 , depth_end : f64 , depth_curve : f64 , transmit : bool , transmit_curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_fog_depth ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_bool_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , depth_begin , depth_end , depth_curve , transmit , transmit_curve) ; } } # [doc = "Sets the variables to be used with the fog height effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_fog_height (& self , env : Rid , enable : bool , min_height : f64 , max_height : f64 , height_curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_fog_height ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , min_height , max_height , height_curve) ; } } # [doc = "Sets the variables to be used with the \"glow\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_glow (& self , env : Rid , enable : bool , level_flags : i64 , intensity : f64 , strength : f64 , bloom_threshold : f64 , blend_mode : i64 , hdr_bleed_threshold : f64 , hdr_bleed_scale : f64 , hdr_luminance_cap : f64 , bicubic_upscale : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_glow ; let ret = crate :: icalls :: icallptr_void_rid_bool_i64_f64_f64_f64_i64_f64_f64_f64_bool (method_bind , self . this . sys () . as_ptr () , env , enable , level_flags , intensity , strength , bloom_threshold , blend_mode , hdr_bleed_threshold , hdr_bleed_scale , hdr_luminance_cap , bicubic_upscale) ; } } # [doc = "Sets the [Sky] to be used as the environment's background when using [i]BGMode[/i] sky. Equivalent to [member Environment.background_sky]."] # [doc = ""] # [inline] pub fn environment_set_sky (& self , env : Rid , sky : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_sky ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , env , sky) ; } } # [doc = "Sets a custom field of view for the background [Sky]. Equivalent to [member Environment.background_sky_custom_fov]."] # [doc = ""] # [inline] pub fn environment_set_sky_custom_fov (& self , env : Rid , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_sky_custom_fov ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , env , scale) ; } } # [doc = "Sets the rotation of the background [Sky] expressed as a [Basis]. Equivalent to [member Environment.background_sky_orientation]."] # [doc = ""] # [inline] pub fn environment_set_sky_orientation (& self , env : Rid , orientation : Basis) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_sky_orientation ; let ret = crate :: icalls :: icallptr_void_rid_basis (method_bind , self . this . sys () . as_ptr () , env , orientation) ; } } # [doc = "Sets the variables to be used with the \"Screen Space Ambient Occlusion (SSAO)\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_ssao (& self , env : Rid , enable : bool , radius : f64 , intensity : f64 , radius2 : f64 , intensity2 : f64 , bias : f64 , light_affect : f64 , ao_channel_affect : f64 , color : Color , quality : i64 , blur : i64 , bilateral_sharpness : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_ssao ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_f64_f64_f64_f64_color_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , radius , intensity , radius2 , intensity2 , bias , light_affect , ao_channel_affect , color , quality , blur , bilateral_sharpness) ; } } # [doc = "Sets the variables to be used with the \"screen space reflections\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_ssr (& self , env : Rid , enable : bool , max_steps : i64 , fade_in : f64 , fade_out : f64 , depth_tolerance : f64 , roughness : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_ssr ; let ret = crate :: icalls :: icallptr_void_rid_bool_i64_f64_f64_f64_bool (method_bind , self . this . sys () . as_ptr () , env , enable , max_steps , fade_in , fade_out , depth_tolerance , roughness) ; } } # [doc = "Sets the variables to be used with the \"tonemap\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_tonemap (& self , env : Rid , tone_mapper : i64 , exposure : f64 , white : f64 , auto_exposure : bool , min_luminance : f64 , max_luminance : f64 , auto_exp_speed : f64 , auto_exp_grey : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_tonemap ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64_f64_bool_f64_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , env , tone_mapper , exposure , white , auto_exposure , min_luminance , max_luminance , auto_exp_speed , auto_exp_grey) ; } } # [doc = "Removes buffers and clears testcubes."] # [doc = ""] # [inline] pub fn finish (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . finish ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Forces a frame to be drawn when the function is called. Drawing a frame updates all [Viewport]s that are set to update. Use with extreme caution.\n# Default Arguments\n* `swap_buffers` - `true`\n* `frame_step` - `0.0`"] # [doc = ""] # [inline] pub fn force_draw (& self , swap_buffers : bool , frame_step : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . force_draw ; let ret = crate :: icalls :: icallptr_void_bool_f64 (method_bind , self . this . sys () . as_ptr () , swap_buffers , frame_step) ; } } # [doc = "Synchronizes threads."] # [doc = ""] # [inline] pub fn force_sync (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . force_sync ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Tries to free an object in the VisualServer."] # [doc = ""] # [inline] pub fn free_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . free_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "Returns a certain information, see [enum RenderInfo] for options."] # [doc = ""] # [inline] pub fn get_render_info (& self , info : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_render_info ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , info) ; ret as _ } } # [doc = "Returns the id of the test cube. Creates one if none exists."] # [doc = ""] # [inline] pub fn get_test_cube (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_test_cube ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the id of the test texture. Creates one if none exists."] # [doc = ""] # [inline] pub fn get_test_texture (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_test_texture ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the name of the video adapter (e.g. \"GeForce GTX 1080/PCIe/SSE2\").\n**Note:** When running a headless or server binary, this function returns an empty string."] # [doc = ""] # [inline] pub fn get_video_adapter_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_video_adapter_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the vendor of the video adapter (e.g. \"NVIDIA Corporation\").\n**Note:** When running a headless or server binary, this function returns an empty string."] # [doc = ""] # [inline] pub fn get_video_adapter_vendor (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_video_adapter_vendor ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the id of a white texture. Creates one if none exists."] # [doc = ""] # [inline] pub fn get_white_texture (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_white_texture ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a GI probe and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `gi_probe_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this GI probe to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn gi_probe_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the bias value for the GI probe. Bias is used to avoid self occlusion. Equivalent to [member GIProbeData.bias]."] # [doc = ""] # [inline] pub fn gi_probe_get_bias (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_bias ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the axis-aligned bounding box that covers the full extent of the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_get_bounds (& self , probe : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_bounds ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , probe) ; mem :: transmute (ret) } } # [doc = "Returns the cell size set by [method gi_probe_set_cell_size]."] # [doc = ""] # [inline] pub fn gi_probe_get_cell_size (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_cell_size ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the data used by the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_get_dynamic_data (& self , probe : Rid) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_dynamic_data ; let ret = crate :: icalls :: icallptr_i32arr_rid (method_bind , self . this . sys () . as_ptr () , probe) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the dynamic range set for this GI probe. Equivalent to [member GIProbe.dynamic_range]."] # [doc = ""] # [inline] pub fn gi_probe_get_dynamic_range (& self , probe : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_dynamic_range ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the energy multiplier for this GI probe. Equivalent to [member GIProbe.energy]."] # [doc = ""] # [inline] pub fn gi_probe_get_energy (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_energy ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the normal bias for this GI probe. Equivalent to [member GIProbe.normal_bias]."] # [doc = ""] # [inline] pub fn gi_probe_get_normal_bias (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_normal_bias ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the propagation value for this GI probe. Equivalent to [member GIProbe.propagation]."] # [doc = ""] # [inline] pub fn gi_probe_get_propagation (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_propagation ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the Transform set by [method gi_probe_set_to_cell_xform]."] # [doc = ""] # [inline] pub fn gi_probe_get_to_cell_xform (& self , probe : Rid) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_to_cell_xform ; let ret = crate :: icalls :: icallptr_trans_rid (method_bind , self . this . sys () . as_ptr () , probe) ; mem :: transmute (ret) } } # [doc = "Returns `true` if the GI probe data associated with this GI probe is compressed. Equivalent to [member GIProbe.compress]."] # [doc = ""] # [inline] pub fn gi_probe_is_compressed (& self , probe : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_is_compressed ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns `true` if the GI probe is set to interior, meaning it does not account for sky light. Equivalent to [member GIProbe.interior]."] # [doc = ""] # [inline] pub fn gi_probe_is_interior (& self , probe : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_is_interior ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Sets the bias value to avoid self-occlusion. Equivalent to [member GIProbe.bias]."] # [doc = ""] # [inline] pub fn gi_probe_set_bias (& self , probe : Rid , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_bias ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , bias) ; } } # [doc = "Sets the axis-aligned bounding box that covers the extent of the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_set_bounds (& self , probe : Rid , bounds : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_bounds ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , probe , bounds) ; } } # [doc = "Sets the size of individual cells within the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_set_cell_size (& self , probe : Rid , range : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_cell_size ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , range) ; } } # [doc = "Sets the compression setting for the GI probe data. Compressed data will take up less space but may look worse. Equivalent to [member GIProbe.compress]."] # [doc = ""] # [inline] pub fn gi_probe_set_compress (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_compress ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the data to be used in the GI probe for lighting calculations. Normally this is created and called internally within the [GIProbe] node. You should not try to set this yourself."] # [doc = ""] # [inline] pub fn gi_probe_set_dynamic_data (& self , probe : Rid , data : Int32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_dynamic_data ; let ret = crate :: icalls :: icallptr_void_rid_i32arr (method_bind , self . this . sys () . as_ptr () , probe , data) ; } } # [doc = "Sets the dynamic range of the GI probe. Dynamic range sets the limit for how bright lights can be. A smaller range captures greater detail but limits how bright lights can be. Equivalent to [member GIProbe.dynamic_range]."] # [doc = ""] # [inline] pub fn gi_probe_set_dynamic_range (& self , probe : Rid , range : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_dynamic_range ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , probe , range) ; } } # [doc = "Sets the energy multiplier for this GI probe. A higher energy makes the indirect light from the GI probe brighter. Equivalent to [member GIProbe.energy]."] # [doc = ""] # [inline] pub fn gi_probe_set_energy (& self , probe : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , energy) ; } } # [doc = "Sets the interior value of this GI probe. A GI probe set to interior does not include the sky when calculating lighting. Equivalent to [member GIProbe.interior]."] # [doc = ""] # [inline] pub fn gi_probe_set_interior (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_interior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the normal bias for this GI probe. Normal bias behaves similar to the other form of bias and may help reduce self-occlusion. Equivalent to [member GIProbe.normal_bias]."] # [doc = ""] # [inline] pub fn gi_probe_set_normal_bias (& self , probe : Rid , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_normal_bias ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , bias) ; } } # [doc = "Sets the propagation of light within this GI probe. Equivalent to [member GIProbe.propagation]."] # [doc = ""] # [inline] pub fn gi_probe_set_propagation (& self , probe : Rid , propagation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_propagation ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , propagation) ; } } # [doc = "Sets the to cell [Transform] for this GI probe."] # [doc = ""] # [inline] pub fn gi_probe_set_to_cell_xform (& self , probe : Rid , xform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_to_cell_xform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , probe , xform) ; } } # [doc = "Returns `true` if changes have been made to the VisualServer's data. [method draw] is usually called if this happens."] # [doc = ""] # [inline] pub fn has_changed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . has_changed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Not yet implemented. Always returns `false`."] # [doc = ""] # [inline] pub fn has_feature (& self , feature : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . has_feature ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , feature) ; ret as _ } } # [doc = "Returns `true` if the OS supports a certain feature. Features might be `s3tc`, `etc`, `etc2` and `pvrtc`."] # [doc = ""] # [inline] pub fn has_os_feature (& self , feature : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . has_os_feature ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , feature . into ()) ; ret as _ } } # [doc = "Sets up [ImmediateGeometry] internals to prepare for drawing. Equivalent to [method ImmediateGeometry.begin]."] # [doc = ""] # [inline] pub fn immediate_begin (& self , immediate : Rid , primitive : i64 , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_begin ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , immediate , primitive , texture) ; } } # [doc = "Clears everything that was set up between [method immediate_begin] and [method immediate_end]. Equivalent to [method ImmediateGeometry.clear]."] # [doc = ""] # [inline] pub fn immediate_clear (& self , immediate : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_clear ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , immediate) ; } } # [doc = "Sets the color to be used with next vertex. Equivalent to [method ImmediateGeometry.set_color]."] # [doc = ""] # [inline] pub fn immediate_color (& self , immediate : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , immediate , color) ; } } # [doc = "Creates an immediate geometry and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `immediate_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this immediate geometry to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn immediate_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Ends drawing the [ImmediateGeometry] and displays it. Equivalent to [method ImmediateGeometry.end]."] # [doc = ""] # [inline] pub fn immediate_end (& self , immediate : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_end ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , immediate) ; } } # [doc = "Returns the material assigned to the [ImmediateGeometry]."] # [doc = ""] # [inline] pub fn immediate_get_material (& self , immediate : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_get_material ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , immediate) ; Rid :: from_sys (ret) } } # [doc = "Sets the normal to be used with next vertex. Equivalent to [method ImmediateGeometry.set_normal]."] # [doc = ""] # [inline] pub fn immediate_normal (& self , immediate : Rid , normal : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_normal ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , immediate , normal) ; } } # [doc = "Sets the material to be used to draw the [ImmediateGeometry]."] # [doc = ""] # [inline] pub fn immediate_set_material (& self , immediate : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_set_material ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , immediate , material) ; } } # [doc = "Sets the tangent to be used with next vertex. Equivalent to [method ImmediateGeometry.set_tangent]."] # [doc = ""] # [inline] pub fn immediate_tangent (& self , immediate : Rid , tangent : Plane) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_tangent ; let ret = crate :: icalls :: icallptr_void_rid_plane (method_bind , self . this . sys () . as_ptr () , immediate , tangent) ; } } # [doc = "Sets the UV to be used with next vertex. Equivalent to [method ImmediateGeometry.set_uv]."] # [doc = ""] # [inline] pub fn immediate_uv (& self , immediate : Rid , tex_uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_uv ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , immediate , tex_uv) ; } } # [doc = "Sets the UV2 to be used with next vertex. Equivalent to [method ImmediateGeometry.set_uv2]."] # [doc = ""] # [inline] pub fn immediate_uv2 (& self , immediate : Rid , tex_uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_uv2 ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , immediate , tex_uv) ; } } # [doc = "Adds the next vertex using the information provided in advance. Equivalent to [method ImmediateGeometry.add_vertex]."] # [doc = ""] # [inline] pub fn immediate_vertex (& self , immediate : Rid , vertex : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_vertex ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , immediate , vertex) ; } } # [doc = "Adds the next vertex using the information provided in advance. This is a helper class that calls [method immediate_vertex] under the hood. Equivalent to [method ImmediateGeometry.add_vertex]."] # [doc = ""] # [inline] pub fn immediate_vertex_2d (& self , immediate : Rid , vertex : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_vertex_2d ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , immediate , vertex) ; } } # [doc = "Initializes the visual server. This function is called internally by platform-dependent code during engine initialization. If called from a running game, it will not do anything."] # [doc = ""] # [inline] pub fn init (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . init ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Attaches a unique Object ID to instance. Object ID must be attached to instance for proper culling with [method instances_cull_aabb], [method instances_cull_convex], and [method instances_cull_ray]."] # [doc = ""] # [inline] pub fn instance_attach_object_instance_id (& self , instance : Rid , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_attach_object_instance_id ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , instance , id) ; } } # [doc = "Attaches a skeleton to an instance. Removes the previous skeleton from the instance."] # [doc = ""] # [inline] pub fn instance_attach_skeleton (& self , instance : Rid , skeleton : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_attach_skeleton ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , skeleton) ; } } # [doc = "Creates a visual instance and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `instance_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nAn instance is a way of placing a 3D object in the scenario. Objects like particles, meshes, and reflection probes need to be associated with an instance to be visible in the scenario using [method instance_set_base]."] # [doc = ""] # [inline] pub fn instance_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a visual instance, adds it to the VisualServer, and sets both base and scenario. It can be accessed with the RID that is returned. This RID will be used in all `instance_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn instance_create2 (& self , base : Rid , scenario : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_create2 ; let ret = crate :: icalls :: icallptr_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , base , scenario) ; Rid :: from_sys (ret) } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn instance_geometry_set_as_instance_lod (& self , instance : Rid , as_lod_of_instance : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_as_instance_lod ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , as_lod_of_instance) ; } } # [doc = "Sets the shadow casting setting to one of [enum ShadowCastingSetting]. Equivalent to [member GeometryInstance.cast_shadow]."] # [doc = ""] # [inline] pub fn instance_geometry_set_cast_shadows_setting (& self , instance : Rid , shadow_casting_setting : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_cast_shadows_setting ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , instance , shadow_casting_setting) ; } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn instance_geometry_set_draw_range (& self , instance : Rid , min : f64 , max : f64 , min_margin : f64 , max_margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_draw_range ; let ret = crate :: icalls :: icallptr_void_rid_f64_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , instance , min , max , min_margin , max_margin) ; } } # [doc = "Sets the flag for a given [enum InstanceFlags]. See [enum InstanceFlags] for more details."] # [doc = ""] # [inline] pub fn instance_geometry_set_flag (& self , instance : Rid , flag : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_flag ; let ret = crate :: icalls :: icallptr_void_rid_i64_bool (method_bind , self . this . sys () . as_ptr () , instance , flag , enabled) ; } } # [doc = "Sets a material that will override the material for all surfaces on the mesh associated with this instance. Equivalent to [member GeometryInstance.material_override]."] # [doc = ""] # [inline] pub fn instance_geometry_set_material_override (& self , instance : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_material_override ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , material) ; } } # [doc = "Sets the base of the instance. A base can be any of the 3D objects that are created in the VisualServer that can be displayed. For example, any of the light types, mesh, multimesh, immediate geometry, particle system, reflection probe, lightmap capture, and the GI probe are all types that can be set as the base of an instance in order to be displayed in the scenario."] # [doc = ""] # [inline] pub fn instance_set_base (& self , instance : Rid , base : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_base ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , base) ; } } # [doc = "Sets the weight for a given blend shape associated with this instance."] # [doc = ""] # [inline] pub fn instance_set_blend_shape_weight (& self , instance : Rid , shape : i64 , weight : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_blend_shape_weight ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , instance , shape , weight) ; } } # [doc = "Sets a custom AABB to use when culling objects from the view frustum. Equivalent to [method GeometryInstance.set_custom_aabb]."] # [doc = ""] # [inline] pub fn instance_set_custom_aabb (& self , instance : Rid , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , instance , aabb) ; } } # [doc = "Function not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn instance_set_exterior (& self , instance : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_exterior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , instance , enabled) ; } } # [doc = "Sets a margin to increase the size of the AABB when culling objects from the view frustum. This allows you avoid culling objects that fall outside the view frustum. Equivalent to [member GeometryInstance.extra_cull_margin]."] # [doc = ""] # [inline] pub fn instance_set_extra_visibility_margin (& self , instance : Rid , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_extra_visibility_margin ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , instance , margin) ; } } # [doc = "Sets the render layers that this instance will be drawn to. Equivalent to [member VisualInstance.layers]."] # [doc = ""] # [inline] pub fn instance_set_layer_mask (& self , instance : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_layer_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , instance , mask) ; } } # [doc = "Sets the scenario that the instance is in. The scenario is the 3D world that the objects will be displayed in."] # [doc = ""] # [inline] pub fn instance_set_scenario (& self , instance : Rid , scenario : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_scenario ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , scenario) ; } } # [doc = "Sets the material of a specific surface. Equivalent to [method MeshInstance.set_surface_material]."] # [doc = ""] # [inline] pub fn instance_set_surface_material (& self , instance : Rid , surface : i64 , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_surface_material ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , instance , surface , material) ; } } # [doc = "Sets the world space transform of the instance. Equivalent to [member Spatial.transform]."] # [doc = ""] # [inline] pub fn instance_set_transform (& self , instance : Rid , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , instance , transform) ; } } # [doc = "Sets the lightmap to use with this instance."] # [doc = ""] # [inline] pub fn instance_set_use_lightmap (& self , instance : Rid , lightmap_instance : Rid , lightmap : Rid , lightmap_slice : i64 , lightmap_uv_rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_use_lightmap ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_i64_rect2 (method_bind , self . this . sys () . as_ptr () , instance , lightmap_instance , lightmap , lightmap_slice , lightmap_uv_rect) ; } } # [doc = "Sets whether an instance is drawn or not. Equivalent to [member Spatial.visible]."] # [doc = ""] # [inline] pub fn instance_set_visible (& self , instance : Rid , visible : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_visible ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , instance , visible) ; } } # [doc = "Returns an array of object IDs intersecting with the provided AABB. Only visual 3D nodes are considered, such as [MeshInstance] or [DirectionalLight]. Use [method @GDScript.instance_from_id] to obtain the actual nodes. A scenario RID must be provided, which is available in the [World] you want to query. This forces an update for all resources queued to update.\n**Warning:** This function is primarily intended for editor usage. For in-game use cases, prefer physics collision."] # [doc = ""] # [inline] pub fn instances_cull_aabb (& self , aabb : Aabb , scenario : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instances_cull_aabb ; let ret = crate :: icalls :: icallvar__aabb_rid (method_bind , self . this . sys () . as_ptr () , aabb , scenario) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns an array of object IDs intersecting with the provided convex shape. Only visual 3D nodes are considered, such as [MeshInstance] or [DirectionalLight]. Use [method @GDScript.instance_from_id] to obtain the actual nodes. A scenario RID must be provided, which is available in the [World] you want to query. This forces an update for all resources queued to update.\n**Warning:** This function is primarily intended for editor usage. For in-game use cases, prefer physics collision."] # [doc = ""] # [inline] pub fn instances_cull_convex (& self , convex : VariantArray , scenario : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instances_cull_convex ; let ret = crate :: icalls :: icallvar__arr_rid (method_bind , self . this . sys () . as_ptr () , convex , scenario) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns an array of object IDs intersecting with the provided 3D ray. Only visual 3D nodes are considered, such as [MeshInstance] or [DirectionalLight]. Use [method @GDScript.instance_from_id] to obtain the actual nodes. A scenario RID must be provided, which is available in the [World] you want to query. This forces an update for all resources queued to update.\n**Warning:** This function is primarily intended for editor usage. For in-game use cases, prefer physics collision."] # [doc = ""] # [inline] pub fn instances_cull_ray (& self , from : Vector3 , to : Vector3 , scenario : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instances_cull_ray ; let ret = crate :: icalls :: icallvar__vec3_vec3_rid (method_bind , self . this . sys () . as_ptr () , from , to , scenario) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "If `false`, disables rendering completely, but the engine logic is still being processed. You can call [method force_draw] to draw a frame even with rendering disabled."] # [doc = ""] # [inline] pub fn is_render_loop_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . is_render_loop_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this directional light will blend between shadow map splits resulting in a smoother transition between them. Equivalent to [member DirectionalLight.directional_shadow_blend_splits]."] # [doc = ""] # [inline] pub fn light_directional_set_blend_splits (& self , light : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_directional_set_blend_splits ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enable) ; } } # [doc = "Sets the shadow depth range mode for this directional light. Equivalent to [member DirectionalLight.directional_shadow_depth_range]. See [enum LightDirectionalShadowDepthRangeMode] for options."] # [doc = ""] # [inline] pub fn light_directional_set_shadow_depth_range_mode (& self , light : Rid , range_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_directional_set_shadow_depth_range_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , range_mode) ; } } # [doc = "Sets the shadow mode for this directional light. Equivalent to [member DirectionalLight.directional_shadow_mode]. See [enum LightDirectionalShadowMode] for options."] # [doc = ""] # [inline] pub fn light_directional_set_shadow_mode (& self , light : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_directional_set_shadow_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mode) ; } } # [doc = "Sets whether to use vertical or horizontal detail for this omni light. This can be used to alleviate artifacts in the shadow map. Equivalent to [member OmniLight.omni_shadow_detail]."] # [doc = ""] # [inline] pub fn light_omni_set_shadow_detail (& self , light : Rid , detail : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_omni_set_shadow_detail ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , detail) ; } } # [doc = "Sets whether to use a dual paraboloid or a cubemap for the shadow map. Dual paraboloid is faster but may suffer from artifacts. Equivalent to [member OmniLight.omni_shadow_mode]."] # [doc = ""] # [inline] pub fn light_omni_set_shadow_mode (& self , light : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_omni_set_shadow_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn light_set_bake_mode (& self , light : Rid , bake_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_bake_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , bake_mode) ; } } # [doc = "Sets the color of the light. Equivalent to [member Light.light_color]."] # [doc = ""] # [inline] pub fn light_set_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Sets the cull mask for this Light. Lights only affect objects in the selected layers. Equivalent to [member Light.light_cull_mask]."] # [doc = ""] # [inline] pub fn light_set_cull_mask (& self , light : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mask) ; } } # [doc = "If `true`, light will subtract light instead of adding light. Equivalent to [member Light.light_negative]."] # [doc = ""] # [inline] pub fn light_set_negative (& self , light : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_negative ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enable) ; } } # [doc = "Sets the specified light parameter. See [enum LightParam] for options. Equivalent to [method Light.set_param]."] # [doc = ""] # [inline] pub fn light_set_param (& self , light : Rid , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_param ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , light , param , value) ; } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn light_set_projector (& self , light : Rid , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_projector ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , light , texture) ; } } # [doc = "If `true`, reverses the backface culling of the mesh. This can be useful when you have a flat mesh that has a light behind it. If you need to cast a shadow on both sides of the mesh, set the mesh to use double sided shadows with [method instance_geometry_set_cast_shadows_setting]. Equivalent to [member Light.shadow_reverse_cull_face]."] # [doc = ""] # [inline] pub fn light_set_reverse_cull_face_mode (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_reverse_cull_face_mode ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "If `true`, light will cast shadows. Equivalent to [member Light.shadow_enabled]."] # [doc = ""] # [inline] pub fn light_set_shadow (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_shadow ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Sets the color of the shadow cast by the light. Equivalent to [member Light.shadow_color]."] # [doc = ""] # [inline] pub fn light_set_shadow_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_shadow_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Sets whether GI probes capture light information from this light."] # [doc = ""] # [inline] pub fn light_set_use_gi (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_use_gi ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Creates a lightmap capture and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `lightmap_capture_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this lightmap capture to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn lightmap_capture_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the size of the lightmap capture area."] # [doc = ""] # [inline] pub fn lightmap_capture_get_bounds (& self , capture : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_bounds ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , capture) ; mem :: transmute (ret) } } # [doc = "Returns the energy multiplier used by the lightmap capture."] # [doc = ""] # [inline] pub fn lightmap_capture_get_energy (& self , capture : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_energy ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ret as _ } } # [doc = "Returns the octree used by the lightmap capture."] # [doc = ""] # [inline] pub fn lightmap_capture_get_octree (& self , capture : Rid) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_octree ; let ret = crate :: icalls :: icallptr_bytearr_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ByteArray :: from_sys (ret) } } # [doc = "Returns the cell subdivision amount used by this lightmap capture's octree."] # [doc = ""] # [inline] pub fn lightmap_capture_get_octree_cell_subdiv (& self , capture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_octree_cell_subdiv ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ret as _ } } # [doc = "Returns the cell transform for this lightmap capture's octree."] # [doc = ""] # [inline] pub fn lightmap_capture_get_octree_cell_transform (& self , capture : Rid) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_octree_cell_transform ; let ret = crate :: icalls :: icallptr_trans_rid (method_bind , self . this . sys () . as_ptr () , capture) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn lightmap_capture_is_interior (& self , capture : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_is_interior ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ret as _ } } # [doc = "Sets the size of the area covered by the lightmap capture. Equivalent to [member BakedLightmapData.bounds]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_bounds (& self , capture : Rid , bounds : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_bounds ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , capture , bounds) ; } } # [doc = "Sets the energy multiplier for this lightmap capture. Equivalent to [member BakedLightmapData.energy]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_energy (& self , capture : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , capture , energy) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn lightmap_capture_set_interior (& self , capture : Rid , interior : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_interior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , capture , interior) ; } } # [doc = "Sets the octree to be used by this lightmap capture. This function is normally used by the [BakedLightmap] node. Equivalent to [member BakedLightmapData.octree]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_octree (& self , capture : Rid , octree : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_octree ; let ret = crate :: icalls :: icallptr_void_rid_bytearr (method_bind , self . this . sys () . as_ptr () , capture , octree) ; } } # [doc = "Sets the subdivision level of this lightmap capture's octree. Equivalent to [member BakedLightmapData.cell_subdiv]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_octree_cell_subdiv (& self , capture : Rid , subdiv : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_octree_cell_subdiv ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , capture , subdiv) ; } } # [doc = "Sets the octree cell transform for this lightmap capture's octree. Equivalent to [member BakedLightmapData.cell_space_transform]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_octree_cell_transform (& self , capture : Rid , xform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_octree_cell_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , capture , xform) ; } } # [doc = "Returns a mesh of a sphere with the given amount of horizontal and vertical subdivisions."] # [doc = ""] # [inline] pub fn make_sphere_mesh (& self , latitudes : i64 , longitudes : i64 , radius : f64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . make_sphere_mesh ; let ret = crate :: icalls :: icallptr_rid_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , latitudes , longitudes , radius) ; Rid :: from_sys (ret) } } # [doc = "Creates an empty material and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `material_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn material_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the value of a certain material's parameter."] # [doc = ""] # [inline] pub fn material_get_param (& self , material : Rid , parameter : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_get_param ; let ret = crate :: icalls :: icallptr_var_rid_str (method_bind , self . this . sys () . as_ptr () , material , parameter . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the default value for the param if available. Otherwise returns an empty [Variant]."] # [doc = ""] # [inline] pub fn material_get_param_default (& self , material : Rid , parameter : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_get_param_default ; let ret = crate :: icalls :: icallptr_var_rid_str (method_bind , self . this . sys () . as_ptr () , material , parameter . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the shader of a certain material's shader. Returns an empty RID if the material doesn't have a shader."] # [doc = ""] # [inline] pub fn material_get_shader (& self , shader_material : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_get_shader ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , shader_material) ; Rid :: from_sys (ret) } } # [doc = "Sets a material's line width."] # [doc = ""] # [inline] pub fn material_set_line_width (& self , material : Rid , width : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_line_width ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , material , width) ; } } # [doc = "Sets an object's next material."] # [doc = ""] # [inline] pub fn material_set_next_pass (& self , material : Rid , next_material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_next_pass ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , material , next_material) ; } } # [doc = "Sets a material's parameter."] # [doc = ""] # [inline] pub fn material_set_param (& self , material : Rid , parameter : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_param ; let ret = crate :: icalls :: icallptr_void_rid_str_var (method_bind , self . this . sys () . as_ptr () , material , parameter . into () , value . owned_to_variant ()) ; } } # [doc = "Sets a material's render priority."] # [doc = ""] # [inline] pub fn material_set_render_priority (& self , material : Rid , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_render_priority ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , material , priority) ; } } # [doc = "Sets a shader material's shader."] # [doc = ""] # [inline] pub fn material_set_shader (& self , shader_material : Rid , shader : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_shader ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , shader_material , shader) ; } } # [doc = "Adds a surface generated from the Arrays to a mesh. See [enum PrimitiveType] constants for types.\n# Default Arguments\n* `blend_shapes` - `[ ]`\n* `compress_format` - `97280`"] # [doc = ""] # [inline] pub fn mesh_add_surface_from_arrays (& self , mesh : Rid , primitive : i64 , arrays : VariantArray , blend_shapes : VariantArray , compress_format : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_add_surface_from_arrays ; let ret = crate :: icalls :: icallptr_void_rid_i64_arr_arr_i64 (method_bind , self . this . sys () . as_ptr () , mesh , primitive , arrays , blend_shapes , compress_format) ; } } # [doc = "Removes all surfaces from a mesh."] # [doc = ""] # [inline] pub fn mesh_clear (& self , mesh : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_clear ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; } } # [doc = "Creates a new mesh and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `mesh_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this mesh to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn mesh_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns a mesh's blend shape count."] # [doc = ""] # [inline] pub fn mesh_get_blend_shape_count (& self , mesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_blend_shape_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; ret as _ } } # [doc = "Returns a mesh's blend shape mode."] # [doc = ""] # [inline] pub fn mesh_get_blend_shape_mode (& self , mesh : Rid) -> crate :: generated :: visual_server :: BlendShapeMode { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_blend_shape_mode ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; crate :: generated :: visual_server :: BlendShapeMode (ret) } } # [doc = "Returns a mesh's custom aabb."] # [doc = ""] # [inline] pub fn mesh_get_custom_aabb (& self , mesh : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_custom_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; mem :: transmute (ret) } } # [doc = "Returns a mesh's number of surfaces."] # [doc = ""] # [inline] pub fn mesh_get_surface_count (& self , mesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_surface_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; ret as _ } } # [doc = "Removes a mesh's surface."] # [doc = ""] # [inline] pub fn mesh_remove_surface (& self , mesh : Rid , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_remove_surface ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , index) ; } } # [doc = "Sets a mesh's blend shape count."] # [doc = ""] # [inline] pub fn mesh_set_blend_shape_count (& self , mesh : Rid , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_set_blend_shape_count ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , amount) ; } } # [doc = "Sets a mesh's blend shape mode."] # [doc = ""] # [inline] pub fn mesh_set_blend_shape_mode (& self , mesh : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_set_blend_shape_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , mode) ; } } # [doc = "Sets a mesh's custom aabb."] # [doc = ""] # [inline] pub fn mesh_set_custom_aabb (& self , mesh : Rid , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , mesh , aabb) ; } } # [doc = "Returns a mesh's surface's aabb."] # [doc = ""] # [inline] pub fn mesh_surface_get_aabb (& self , mesh : Rid , surface : i64) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; mem :: transmute (ret) } } # [doc = "Returns a mesh's surface's vertex buffer."] # [doc = ""] # [inline] pub fn mesh_surface_get_array (& self , mesh : Rid , surface : i64) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_array ; let ret = crate :: icalls :: icallptr_bytearr_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ByteArray :: from_sys (ret) } } # [doc = "Returns a mesh's surface's amount of indices."] # [doc = ""] # [inline] pub fn mesh_surface_get_array_index_len (& self , mesh : Rid , surface : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_array_index_len ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ret as _ } } # [doc = "Returns a mesh's surface's amount of vertices."] # [doc = ""] # [inline] pub fn mesh_surface_get_array_len (& self , mesh : Rid , surface : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_array_len ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ret as _ } } # [doc = "Returns a mesh's surface's buffer arrays."] # [doc = ""] # [inline] pub fn mesh_surface_get_arrays (& self , mesh : Rid , surface : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_arrays ; let ret = crate :: icalls :: icallvar__rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns a mesh's surface's arrays for blend shapes."] # [doc = ""] # [inline] pub fn mesh_surface_get_blend_shape_arrays (& self , mesh : Rid , surface : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_blend_shape_arrays ; let ret = crate :: icalls :: icallvar__rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the format of a mesh's surface."] # [doc = ""] # [inline] pub fn mesh_surface_get_format (& self , mesh : Rid , surface : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_format ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ret as _ } } # [doc = "Function is unused in Godot 3.x."] # [doc = ""] # [inline] pub fn mesh_surface_get_format_offset (& self , format : i64 , vertex_len : i64 , index_len : i64 , array_index : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_format_offset ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , format , vertex_len , index_len , array_index) ; ret as _ } } # [doc = "Function is unused in Godot 3.x."] # [doc = ""] # [inline] pub fn mesh_surface_get_format_stride (& self , format : i64 , vertex_len : i64 , index_len : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_format_stride ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , format , vertex_len , index_len) ; ret as _ } } # [doc = "Returns a mesh's surface's index buffer."] # [doc = ""] # [inline] pub fn mesh_surface_get_index_array (& self , mesh : Rid , surface : i64) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_index_array ; let ret = crate :: icalls :: icallptr_bytearr_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ByteArray :: from_sys (ret) } } # [doc = "Returns a mesh's surface's material."] # [doc = ""] # [inline] pub fn mesh_surface_get_material (& self , mesh : Rid , surface : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_material ; let ret = crate :: icalls :: icallptr_rid_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; Rid :: from_sys (ret) } } # [doc = "Returns the primitive type of a mesh's surface."] # [doc = ""] # [inline] pub fn mesh_surface_get_primitive_type (& self , mesh : Rid , surface : i64) -> crate :: generated :: visual_server :: PrimitiveType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_primitive_type ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; crate :: generated :: visual_server :: PrimitiveType (ret) } } # [doc = "Returns the aabb of a mesh's surface's skeleton."] # [doc = ""] # [inline] pub fn mesh_surface_get_skeleton_aabb (& self , mesh : Rid , surface : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_skeleton_aabb ; let ret = crate :: icalls :: icallvar__rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Sets a mesh's surface's material."] # [doc = ""] # [inline] pub fn mesh_surface_set_material (& self , mesh : Rid , surface : i64 , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_set_material ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh , surface , material) ; } } # [doc = "Updates a specific region of a vertex buffer for the specified surface. Warning: this function alters the vertex buffer directly with no safety mechanisms, you can easily corrupt your mesh."] # [doc = ""] # [inline] pub fn mesh_surface_update_region (& self , mesh : Rid , surface : i64 , offset : i64 , data : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_update_region ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_bytearr (method_bind , self . this . sys () . as_ptr () , mesh , surface , offset , data) ; } } # [doc = "Allocates space for the multimesh data. Format parameters determine how the data will be stored by OpenGL. See [enum MultimeshTransformFormat], [enum MultimeshColorFormat], and [enum MultimeshCustomDataFormat] for usage. Equivalent to [member MultiMesh.instance_count].\n# Default Arguments\n* `custom_data_format` - `0`"] # [doc = ""] # [inline] pub fn multimesh_allocate (& self , multimesh : Rid , instances : i64 , transform_format : i64 , color_format : i64 , custom_data_format : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_allocate ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , instances , transform_format , color_format , custom_data_format) ; } } # [doc = "Creates a new multimesh on the VisualServer and returns an [RID] handle. This RID will be used in all `multimesh_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this multimesh to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn multimesh_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Calculates and returns the axis-aligned bounding box that encloses all instances within the multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_aabb (& self , multimesh : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; mem :: transmute (ret) } } # [doc = "Returns the number of instances allocated for this multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_instance_count (& self , multimesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_instance_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; ret as _ } } # [doc = "Returns the RID of the mesh that will be used in drawing this multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_mesh (& self , multimesh : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_mesh ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; Rid :: from_sys (ret) } } # [doc = "Returns the number of visible instances for this multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_visible_instances (& self , multimesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_visible_instances ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; ret as _ } } # [doc = "Returns the color by which the specified instance will be modulated."] # [doc = ""] # [inline] pub fn multimesh_instance_get_color (& self , multimesh : Rid , index : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_color ; let ret = crate :: icalls :: icallptr_color_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Returns the custom data associated with the specified instance."] # [doc = ""] # [inline] pub fn multimesh_instance_get_custom_data (& self , multimesh : Rid , index : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_custom_data ; let ret = crate :: icalls :: icallptr_color_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Returns the [Transform] of the specified instance."] # [doc = ""] # [inline] pub fn multimesh_instance_get_transform (& self , multimesh : Rid , index : i64) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_transform ; let ret = crate :: icalls :: icallptr_trans_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Returns the [Transform2D] of the specified instance. For use when the multimesh is set to use 2D transforms."] # [doc = ""] # [inline] pub fn multimesh_instance_get_transform_2d (& self , multimesh : Rid , index : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_transform_2d ; let ret = crate :: icalls :: icallptr_trans2D_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Sets the color by which this instance will be modulated. Equivalent to [method MultiMesh.set_instance_color]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_color (& self , multimesh : Rid , index : i64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_color ; let ret = crate :: icalls :: icallptr_void_rid_i64_color (method_bind , self . this . sys () . as_ptr () , multimesh , index , color) ; } } # [doc = "Sets the custom data for this instance. Custom data is passed as a [Color], but is interpreted as a `vec4` in the shader. Equivalent to [method MultiMesh.set_instance_custom_data]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_custom_data (& self , multimesh : Rid , index : i64 , custom_data : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_custom_data ; let ret = crate :: icalls :: icallptr_void_rid_i64_color (method_bind , self . this . sys () . as_ptr () , multimesh , index , custom_data) ; } } # [doc = "Sets the [Transform] for this instance. Equivalent to [method MultiMesh.set_instance_transform]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_transform (& self , multimesh : Rid , index : i64 , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans (method_bind , self . this . sys () . as_ptr () , multimesh , index , transform) ; } } # [doc = "Sets the [Transform2D] for this instance. For use when multimesh is used in 2D. Equivalent to [method MultiMesh.set_instance_transform_2d]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_transform_2d (& self , multimesh : Rid , index : i64 , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_transform_2d ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans2D (method_bind , self . this . sys () . as_ptr () , multimesh , index , transform) ; } } # [doc = "Sets all data related to the instances in one go. This is especially useful when loading the data from disk or preparing the data from GDNative.\n\nAll data is packed in one large float array. An array may look like this: Transform for instance 1, color data for instance 1, custom data for instance 1, transform for instance 2, color data for instance 2, etc.\n\n[Transform] is stored as 12 floats, [Transform2D] is stored as 8 floats, `COLOR_8BIT` / `CUSTOM_DATA_8BIT` is stored as 1 float (4 bytes as is) and `COLOR_FLOAT` / `CUSTOM_DATA_FLOAT` is stored as 4 floats."] # [doc = ""] # [inline] pub fn multimesh_set_as_bulk_array (& self , multimesh : Rid , array : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_set_as_bulk_array ; let ret = crate :: icalls :: icallptr_void_rid_f32arr (method_bind , self . this . sys () . as_ptr () , multimesh , array) ; } } # [doc = "Sets the mesh to be drawn by the multimesh. Equivalent to [member MultiMesh.mesh]."] # [doc = ""] # [inline] pub fn multimesh_set_mesh (& self , multimesh : Rid , mesh : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_set_mesh ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , multimesh , mesh) ; } } # [doc = "Sets the number of instances visible at a given time. If -1, all instances that have been allocated are drawn. Equivalent to [member MultiMesh.visible_instance_count]."] # [doc = ""] # [inline] pub fn multimesh_set_visible_instances (& self , multimesh : Rid , visible : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_set_visible_instances ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , visible) ; } } # [doc = "Creates a new omni light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID can be used in most `light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this omni light to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn omni_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . omni_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a particle system and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `particles_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach these particles to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn particles_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Calculates and returns the axis-aligned bounding box that contains all the particles. Equivalent to [method Particles.capture_aabb]."] # [doc = ""] # [inline] pub fn particles_get_current_aabb (& self , particles : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_get_current_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , particles) ; mem :: transmute (ret) } } # [doc = "Returns `true` if particles are currently set to emitting."] # [doc = ""] # [inline] pub fn particles_get_emitting (& self , particles : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_get_emitting ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , particles) ; ret as _ } } # [doc = "Returns `true` if particles are not emitting and particles are set to inactive."] # [doc = ""] # [inline] pub fn particles_is_inactive (& self , particles : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_is_inactive ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , particles) ; ret as _ } } # [doc = "Add particle system to list of particle systems that need to be updated. Update will take place on the next frame, or on the next call to [method instances_cull_aabb], [method instances_cull_convex], or [method instances_cull_ray]."] # [doc = ""] # [inline] pub fn particles_request_process (& self , particles : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_request_process ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , particles) ; } } # [doc = "Reset the particles on the next update. Equivalent to [method Particles.restart]."] # [doc = ""] # [inline] pub fn particles_restart (& self , particles : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_restart ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , particles) ; } } # [doc = "Sets the number of particles to be drawn and allocates the memory for them. Equivalent to [member Particles.amount]."] # [doc = ""] # [inline] pub fn particles_set_amount (& self , particles : Rid , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_amount ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , amount) ; } } # [doc = "Sets a custom axis-aligned bounding box for the particle system. Equivalent to [member Particles.visibility_aabb]."] # [doc = ""] # [inline] pub fn particles_set_custom_aabb (& self , particles : Rid , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , particles , aabb) ; } } # [doc = "Sets the draw order of the particles to one of the named enums from [enum ParticlesDrawOrder]. See [enum ParticlesDrawOrder] for options. Equivalent to [member Particles.draw_order]."] # [doc = ""] # [inline] pub fn particles_set_draw_order (& self , particles : Rid , order : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_draw_order ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , order) ; } } # [doc = "Sets the mesh to be used for the specified draw pass. Equivalent to [member Particles.draw_pass_1], [member Particles.draw_pass_2], [member Particles.draw_pass_3], and [member Particles.draw_pass_4]."] # [doc = ""] # [inline] pub fn particles_set_draw_pass_mesh (& self , particles : Rid , pass : i64 , mesh : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_draw_pass_mesh ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , particles , pass , mesh) ; } } # [doc = "Sets the number of draw passes to use. Equivalent to [member Particles.draw_passes]."] # [doc = ""] # [inline] pub fn particles_set_draw_passes (& self , particles : Rid , count : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_draw_passes ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , count) ; } } # [doc = "Sets the [Transform] that will be used by the particles when they first emit."] # [doc = ""] # [inline] pub fn particles_set_emission_transform (& self , particles : Rid , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_emission_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , particles , transform) ; } } # [doc = "If `true`, particles will emit over time. Setting to false does not reset the particles, but only stops their emission. Equivalent to [member Particles.emitting]."] # [doc = ""] # [inline] pub fn particles_set_emitting (& self , particles : Rid , emitting : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_emitting ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , emitting) ; } } # [doc = "Sets the explosiveness ratio. Equivalent to [member Particles.explosiveness]."] # [doc = ""] # [inline] pub fn particles_set_explosiveness_ratio (& self , particles : Rid , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_explosiveness_ratio ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , ratio) ; } } # [doc = "Sets the frame rate that the particle system rendering will be fixed to. Equivalent to [member Particles.fixed_fps]."] # [doc = ""] # [inline] pub fn particles_set_fixed_fps (& self , particles : Rid , fps : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_fixed_fps ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , fps) ; } } # [doc = "If `true`, uses fractional delta which smooths the movement of the particles. Equivalent to [member Particles.fract_delta]."] # [doc = ""] # [inline] pub fn particles_set_fractional_delta (& self , particles : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_fractional_delta ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , enable) ; } } # [doc = "Sets the lifetime of each particle in the system. Equivalent to [member Particles.lifetime]."] # [doc = ""] # [inline] pub fn particles_set_lifetime (& self , particles : Rid , lifetime : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_lifetime ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , lifetime) ; } } # [doc = "If `true`, particles will emit once and then stop. Equivalent to [member Particles.one_shot]."] # [doc = ""] # [inline] pub fn particles_set_one_shot (& self , particles : Rid , one_shot : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_one_shot ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , one_shot) ; } } # [doc = "Sets the preprocess time for the particles animation. This lets you delay starting an animation until after the particles have begun emitting. Equivalent to [member Particles.preprocess]."] # [doc = ""] # [inline] pub fn particles_set_pre_process_time (& self , particles : Rid , time : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_pre_process_time ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , time) ; } } # [doc = "Sets the material for processing the particles. Note: this is not the material used to draw the materials. Equivalent to [member Particles.process_material]."] # [doc = ""] # [inline] pub fn particles_set_process_material (& self , particles : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_process_material ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , particles , material) ; } } # [doc = "Sets the emission randomness ratio. This randomizes the emission of particles within their phase. Equivalent to [member Particles.randomness]."] # [doc = ""] # [inline] pub fn particles_set_randomness_ratio (& self , particles : Rid , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_randomness_ratio ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , ratio) ; } } # [doc = "Sets the speed scale of the particle system. Equivalent to [member Particles.speed_scale]."] # [doc = ""] # [inline] pub fn particles_set_speed_scale (& self , particles : Rid , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_speed_scale ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , scale) ; } } # [doc = "If `true`, particles use local coordinates. If `false` they use global coordinates. Equivalent to [member Particles.local_coords]."] # [doc = ""] # [inline] pub fn particles_set_use_local_coordinates (& self , particles : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_use_local_coordinates ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , enable) ; } } # [doc = "Creates a reflection probe and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `reflection_probe_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this reflection probe to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn reflection_probe_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "If `true`, reflections will ignore sky contribution. Equivalent to [member ReflectionProbe.interior_enable]."] # [doc = ""] # [inline] pub fn reflection_probe_set_as_interior (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_as_interior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the render cull mask for this reflection probe. Only instances with a matching cull mask will be rendered by this probe. Equivalent to [member ReflectionProbe.cull_mask]."] # [doc = ""] # [inline] pub fn reflection_probe_set_cull_mask (& self , probe : Rid , layers : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , probe , layers) ; } } # [doc = "If `true`, uses box projection. This can make reflections look more correct in certain situations. Equivalent to [member ReflectionProbe.box_projection]."] # [doc = ""] # [inline] pub fn reflection_probe_set_enable_box_projection (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_enable_box_projection ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "If `true`, computes shadows in the reflection probe. This makes the reflection much slower to compute. Equivalent to [member ReflectionProbe.enable_shadows]."] # [doc = ""] # [inline] pub fn reflection_probe_set_enable_shadows (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_enable_shadows ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the size of the area that the reflection probe will capture. Equivalent to [member ReflectionProbe.extents]."] # [doc = ""] # [inline] pub fn reflection_probe_set_extents (& self , probe : Rid , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_extents ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , probe , extents) ; } } # [doc = "Sets the intensity of the reflection probe. Intensity modulates the strength of the reflection. Equivalent to [member ReflectionProbe.intensity]."] # [doc = ""] # [inline] pub fn reflection_probe_set_intensity (& self , probe : Rid , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_intensity ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , intensity) ; } } # [doc = "Sets the ambient light color for this reflection probe when set to interior mode. Equivalent to [member ReflectionProbe.interior_ambient_color]."] # [doc = ""] # [inline] pub fn reflection_probe_set_interior_ambient (& self , probe : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_interior_ambient ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , probe , color) ; } } # [doc = "Sets the energy multiplier for this reflection probes ambient light contribution when set to interior mode. Equivalent to [member ReflectionProbe.interior_ambient_energy]."] # [doc = ""] # [inline] pub fn reflection_probe_set_interior_ambient_energy (& self , probe : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_interior_ambient_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , energy) ; } } # [doc = "Sets the contribution value for how much the reflection affects the ambient light for this reflection probe when set to interior mode. Useful so that ambient light matches the color of the room. Equivalent to [member ReflectionProbe.interior_ambient_contrib]."] # [doc = ""] # [inline] pub fn reflection_probe_set_interior_ambient_probe_contribution (& self , probe : Rid , contrib : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_interior_ambient_probe_contribution ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , contrib) ; } } # [doc = "Sets the max distance away from the probe an object can be before it is culled. Equivalent to [member ReflectionProbe.max_distance]."] # [doc = ""] # [inline] pub fn reflection_probe_set_max_distance (& self , probe : Rid , distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_max_distance ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , distance) ; } } # [doc = "Sets the origin offset to be used when this reflection probe is in box project mode. Equivalent to [member ReflectionProbe.origin_offset]."] # [doc = ""] # [inline] pub fn reflection_probe_set_origin_offset (& self , probe : Rid , offset : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_origin_offset ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , probe , offset) ; } } # [doc = "Sets how often the reflection probe updates. Can either be once or every frame. See [enum ReflectionProbeUpdateMode] for options."] # [doc = ""] # [inline] pub fn reflection_probe_set_update_mode (& self , probe : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_update_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , probe , mode) ; } } # [doc = "Schedules a callback to the corresponding named `method` on `where` after a frame has been drawn.\nThe callback method must use only 1 argument which will be called with `userdata`."] # [doc = ""] # [inline] pub fn request_frame_drawn_callback (& self , _where : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString > , userdata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . request_frame_drawn_callback ; let ret = crate :: icalls :: icallptr_void_obj_str_var (method_bind , self . this . sys () . as_ptr () , _where . as_arg_ptr () , method . into () , userdata . owned_to_variant ()) ; } } # [doc = "Creates a scenario and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `scenario_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nThe scenario is the 3D world that all the visual instances exist in."] # [doc = ""] # [inline] pub fn scenario_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets the [enum ScenarioDebugMode] for this scenario. See [enum ScenarioDebugMode] for options."] # [doc = ""] # [inline] pub fn scenario_set_debug (& self , scenario : Rid , debug_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_debug ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , scenario , debug_mode) ; } } # [doc = "Sets the environment that will be used with this scenario."] # [doc = ""] # [inline] pub fn scenario_set_environment (& self , scenario : Rid , environment : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_environment ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , scenario , environment) ; } } # [doc = "Sets the fallback environment to be used by this scenario. The fallback environment is used if no environment is set. Internally, this is used by the editor to provide a default environment."] # [doc = ""] # [inline] pub fn scenario_set_fallback_environment (& self , scenario : Rid , environment : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_fallback_environment ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , scenario , environment) ; } } # [doc = "Sets the size of the reflection atlas shared by all reflection probes in this scenario."] # [doc = ""] # [inline] pub fn scenario_set_reflection_atlas_size (& self , scenario : Rid , size : i64 , subdiv : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_reflection_atlas_size ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , scenario , size , subdiv) ; } } # [doc = "Sets a boot image. The color defines the background color. If `scale` is `true`, the image will be scaled to fit the screen size. If `use_filter` is `true`, the image will be scaled with linear interpolation. If `use_filter` is `false`, the image will be scaled with nearest-neighbor interpolation.\n# Default Arguments\n* `use_filter` - `true`"] # [doc = ""] # [inline] pub fn set_boot_image (& self , image : impl AsArg < crate :: generated :: image :: Image > , color : Color , scale : bool , use_filter : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_boot_image ; let ret = crate :: icalls :: icallptr_void_obj_color_bool_bool (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , color , scale , use_filter) ; } } # [doc = "If `true`, the engine will generate wireframes for use with the wireframe debug mode."] # [doc = ""] # [inline] pub fn set_debug_generate_wireframes (& self , generate : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_debug_generate_wireframes ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , generate) ; } } # [doc = "Sets the default clear color which is used when a specific clear color has not been selected."] # [doc = ""] # [inline] pub fn set_default_clear_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_default_clear_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "If `false`, disables rendering completely, but the engine logic is still being processed. You can call [method force_draw] to draw a frame even with rendering disabled."] # [doc = ""] # [inline] pub fn set_render_loop_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_render_loop_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Sets the scale to apply to the passage of time for the shaders' `TIME` builtin.\nThe default value is `1.0`, which means `TIME` will count the real time as it goes by, without narrowing or stretching it."] # [doc = ""] # [inline] pub fn set_shader_time_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_shader_time_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Creates an empty shader and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `shader_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn shader_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns a shader's code."] # [doc = ""] # [inline] pub fn shader_get_code (& self , shader : Rid) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_get_code ; let ret = crate :: icalls :: icallptr_str_rid (method_bind , self . this . sys () . as_ptr () , shader) ; GodotString :: from_sys (ret) } } # [doc = "Returns a default texture from a shader searched by name."] # [doc = ""] # [inline] pub fn shader_get_default_texture_param (& self , shader : Rid , name : impl Into < GodotString >) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_get_default_texture_param ; let ret = crate :: icalls :: icallptr_rid_rid_str (method_bind , self . this . sys () . as_ptr () , shader , name . into ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the parameters of a shader."] # [doc = ""] # [inline] pub fn shader_get_param_list (& self , shader : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_get_param_list ; let ret = crate :: icalls :: icallvar__rid (method_bind , self . this . sys () . as_ptr () , shader) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Sets a shader's code."] # [doc = ""] # [inline] pub fn shader_set_code (& self , shader : Rid , code : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_set_code ; let ret = crate :: icalls :: icallptr_void_rid_str (method_bind , self . this . sys () . as_ptr () , shader , code . into ()) ; } } # [doc = "Sets a shader's default texture. Overwrites the texture given by name."] # [doc = ""] # [inline] pub fn shader_set_default_texture_param (& self , shader : Rid , name : impl Into < GodotString > , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_set_default_texture_param ; let ret = crate :: icalls :: icallptr_void_rid_str_rid (method_bind , self . this . sys () . as_ptr () , shader , name . into () , texture) ; } } # [doc = "Allocates the GPU buffers for this skeleton.\n# Default Arguments\n* `is_2d_skeleton` - `false`"] # [doc = ""] # [inline] pub fn skeleton_allocate (& self , skeleton : Rid , bones : i64 , is_2d_skeleton : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_allocate ; let ret = crate :: icalls :: icallptr_void_rid_i64_bool (method_bind , self . this . sys () . as_ptr () , skeleton , bones , is_2d_skeleton) ; } } # [doc = "Returns the [Transform] set for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_get_transform (& self , skeleton : Rid , bone : i64) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_get_transform ; let ret = crate :: icalls :: icallptr_trans_rid_i64 (method_bind , self . this . sys () . as_ptr () , skeleton , bone) ; mem :: transmute (ret) } } # [doc = "Returns the [Transform2D] set for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_get_transform_2d (& self , skeleton : Rid , bone : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_get_transform_2d ; let ret = crate :: icalls :: icallptr_trans2D_rid_i64 (method_bind , self . this . sys () . as_ptr () , skeleton , bone) ; mem :: transmute (ret) } } # [doc = "Sets the [Transform] for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_set_transform (& self , skeleton : Rid , bone : i64 , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans (method_bind , self . this . sys () . as_ptr () , skeleton , bone , transform) ; } } # [doc = "Sets the [Transform2D] for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_set_transform_2d (& self , skeleton : Rid , bone : i64 , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_set_transform_2d ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans2D (method_bind , self . this . sys () . as_ptr () , skeleton , bone , transform) ; } } # [doc = "Creates a skeleton and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `skeleton_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn skeleton_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the number of bones allocated for this skeleton."] # [doc = ""] # [inline] pub fn skeleton_get_bone_count (& self , skeleton : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_get_bone_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , skeleton) ; ret as _ } } # [doc = "Creates an empty sky and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `sky_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn sky_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . sky_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets a sky's texture."] # [doc = ""] # [inline] pub fn sky_set_texture (& self , sky : Rid , cube_map : Rid , radiance_size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . sky_set_texture ; let ret = crate :: icalls :: icallptr_void_rid_rid_i64 (method_bind , self . this . sys () . as_ptr () , sky , cube_map , radiance_size) ; } } # [doc = "Creates a spot light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID can be used in most `light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this spot light to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn spot_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . spot_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn sync (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . sync ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Allocates the GPU memory for the texture.\n# Default Arguments\n* `flags` - `7`"] # [doc = ""] # [inline] pub fn texture_allocate (& self , texture : Rid , width : i64 , height : i64 , depth_3d : i64 , format : i64 , _type : i64 , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_allocate ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture , width , height , depth_3d , format , _type , flags) ; } } # [doc = "Binds the texture to a texture slot."] # [doc = ""] # [inline] pub fn texture_bind (& self , texture : Rid , number : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_bind ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , texture , number) ; } } # [doc = "Creates an empty texture and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `texture_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn texture_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a texture, allocates the space for an image, and fills in the image.\n# Default Arguments\n* `flags` - `7`"] # [doc = ""] # [inline] pub fn texture_create_from_image (& self , image : impl AsArg < crate :: generated :: image :: Image > , flags : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_create_from_image ; let ret = crate :: icalls :: icallptr_rid_obj_i64 (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , flags) ; Rid :: from_sys (ret) } } # [doc = "Returns a list of all the textures and their information."] # [doc = ""] # [inline] pub fn texture_debug_usage (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_debug_usage ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns a copy of a texture's image unless it's a CubeMap, in which case it returns the [RID] of the image at one of the cubes sides.\n# Default Arguments\n* `cube_side` - `0`"] # [doc = ""] # [inline] pub fn texture_get_data (& self , texture : Rid , cube_side : i64) -> Option < Ref < crate :: generated :: image :: Image , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_data ; let ret = crate :: icalls :: icallptr_obj_rid_i64 (method_bind , self . this . sys () . as_ptr () , texture , cube_side) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: image :: Image , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the depth of the texture."] # [doc = ""] # [inline] pub fn texture_get_depth (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_depth ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the flags of a texture."] # [doc = ""] # [inline] pub fn texture_get_flags (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_flags ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the format of the texture's image."] # [doc = ""] # [inline] pub fn texture_get_format (& self , texture : Rid) -> crate :: generated :: image :: Format { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_format ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; crate :: generated :: image :: Format (ret) } } # [doc = "Returns the texture's height."] # [doc = ""] # [inline] pub fn texture_get_height (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_height ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the texture's path."] # [doc = ""] # [inline] pub fn texture_get_path (& self , texture : Rid) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_path ; let ret = crate :: icalls :: icallptr_str_rid (method_bind , self . this . sys () . as_ptr () , texture) ; GodotString :: from_sys (ret) } } # [doc = "Returns the opengl id of the texture's image."] # [doc = ""] # [inline] pub fn texture_get_texid (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_texid ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the type of the texture, can be any of the [enum TextureType]."] # [doc = ""] # [inline] pub fn texture_get_type (& self , texture : Rid) -> crate :: generated :: visual_server :: TextureType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_type ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; crate :: generated :: visual_server :: TextureType (ret) } } # [doc = "Returns the texture's width."] # [doc = ""] # [inline] pub fn texture_get_width (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_width ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Sets the texture's image data. If it's a CubeMap, it sets the image data at a cube side.\n# Default Arguments\n* `layer` - `0`"] # [doc = ""] # [inline] pub fn texture_set_data (& self , texture : Rid , image : impl AsArg < crate :: generated :: image :: Image > , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_data ; let ret = crate :: icalls :: icallptr_void_rid_obj_i64 (method_bind , self . this . sys () . as_ptr () , texture , image . as_arg_ptr () , layer) ; } } # [doc = "Sets a part of the data for a texture. Warning: this function calls the underlying graphics API directly and may corrupt your texture if used improperly.\n# Default Arguments\n* `layer` - `0`"] # [doc = ""] # [inline] pub fn texture_set_data_partial (& self , texture : Rid , image : impl AsArg < crate :: generated :: image :: Image > , src_x : i64 , src_y : i64 , src_w : i64 , src_h : i64 , dst_x : i64 , dst_y : i64 , dst_mip : i64 , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_data_partial ; let ret = crate :: icalls :: icallptr_void_rid_obj_i64_i64_i64_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture , image . as_arg_ptr () , src_x , src_y , src_w , src_h , dst_x , dst_y , dst_mip , layer) ; } } # [doc = "Sets the texture's flags. See [enum TextureFlags] for options."] # [doc = ""] # [inline] pub fn texture_set_flags (& self , texture : Rid , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_flags ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , texture , flags) ; } } # [doc = "Sets the texture's path."] # [doc = ""] # [inline] pub fn texture_set_path (& self , texture : Rid , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_path ; let ret = crate :: icalls :: icallptr_void_rid_str (method_bind , self . this . sys () . as_ptr () , texture , path . into ()) ; } } # [doc = "If `true`, sets internal processes to shrink all image data to half the size."] # [doc = ""] # [inline] pub fn texture_set_shrink_all_x2_on_set_data (& self , shrink : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_shrink_all_x2_on_set_data ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , shrink) ; } } # [doc = "Resizes the texture to the specified dimensions."] # [doc = ""] # [inline] pub fn texture_set_size_override (& self , texture : Rid , width : i64 , height : i64 , depth : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_size_override ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture , width , height , depth) ; } } # [doc = "If `true`, the image will be stored in the texture's images array if overwritten."] # [doc = ""] # [inline] pub fn textures_keep_original (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . textures_keep_original ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets a viewport's camera."] # [doc = ""] # [inline] pub fn viewport_attach_camera (& self , viewport : Rid , camera : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_attach_camera ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , camera) ; } } # [doc = "Sets a viewport's canvas."] # [doc = ""] # [inline] pub fn viewport_attach_canvas (& self , viewport : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_attach_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , canvas) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nCopies viewport to a region of the screen specified by `rect`. If [member Viewport.render_direct_to_screen] is `true`, then viewport does not use a framebuffer and the contents of the viewport are rendered directly to screen. However, note that the root viewport is drawn last, therefore it will draw over the screen. Accordingly, you must set the root viewport to an area that does not cover the area that you have attached this viewport to.\nFor example, you can set the root viewport to not render at all with the following code:\n```gdscript\nfunc _ready():\n get_viewport().set_attach_to_screen_rect(Rect2())\n $Viewport.set_attach_to_screen_rect(Rect2(0, 0, 600, 600))\n```\nUsing this can result in significant optimization, especially on lower-end devices. However, it comes at the cost of having to manage your viewports manually. For a further optimization see, [method viewport_set_render_direct_to_screen].\n# Default Arguments\n* `rect` - `Rect2( 0, 0, 0, 0 )`\n* `screen` - `0`"] # [doc = ""] # [inline] pub fn viewport_attach_to_screen (& self , viewport : Rid , rect : Rect2 , screen : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_attach_to_screen ; let ret = crate :: icalls :: icallptr_void_rid_rect2_i64 (method_bind , self . this . sys () . as_ptr () , viewport , rect , screen) ; } } # [doc = "Creates an empty viewport and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `viewport_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn viewport_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Detaches the viewport from the screen."] # [doc = ""] # [inline] pub fn viewport_detach (& self , viewport : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_detach ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , viewport) ; } } # [doc = "Returns a viewport's render information. For options, see the [enum ViewportRenderInfo] constants."] # [doc = ""] # [inline] pub fn viewport_get_render_info (& self , viewport : Rid , info : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_get_render_info ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , info) ; ret as _ } } # [doc = "Returns the viewport's last rendered frame."] # [doc = ""] # [inline] pub fn viewport_get_texture (& self , viewport : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_get_texture ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport) ; Rid :: from_sys (ret) } } # [doc = "Detaches a viewport from a canvas and vice versa."] # [doc = ""] # [inline] pub fn viewport_remove_canvas (& self , viewport : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_remove_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , canvas) ; } } # [doc = "If `true`, sets the viewport active, else sets it inactive."] # [doc = ""] # [inline] pub fn viewport_set_active (& self , viewport : Rid , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_active ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , active) ; } } # [doc = "Sets the stacking order for a viewport's canvas.\n`layer` is the actual canvas layer, while `sublayer` specifies the stacking order of the canvas among those in the same layer."] # [doc = ""] # [inline] pub fn viewport_set_canvas_stacking (& self , viewport : Rid , canvas : Rid , layer : i64 , sublayer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_canvas_stacking ; let ret = crate :: icalls :: icallptr_void_rid_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , viewport , canvas , layer , sublayer) ; } } # [doc = "Sets the transformation of a viewport's canvas."] # [doc = ""] # [inline] pub fn viewport_set_canvas_transform (& self , viewport : Rid , canvas : Rid , offset : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_canvas_transform ; let ret = crate :: icalls :: icallptr_void_rid_rid_trans2D (method_bind , self . this . sys () . as_ptr () , viewport , canvas , offset) ; } } # [doc = "Sets the clear mode of a viewport. See [enum ViewportClearMode] for options."] # [doc = ""] # [inline] pub fn viewport_set_clear_mode (& self , viewport : Rid , clear_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_clear_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , clear_mode) ; } } # [doc = "Sets the debug draw mode of a viewport. See [enum ViewportDebugDraw] for options."] # [doc = ""] # [inline] pub fn viewport_set_debug_draw (& self , viewport : Rid , draw : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_debug_draw ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , draw) ; } } # [doc = "If `true`, a viewport's 3D rendering is disabled."] # [doc = ""] # [inline] pub fn viewport_set_disable_3d (& self , viewport : Rid , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_disable_3d ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , disabled) ; } } # [doc = "If `true`, rendering of a viewport's environment is disabled."] # [doc = ""] # [inline] pub fn viewport_set_disable_environment (& self , viewport : Rid , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_disable_environment ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , disabled) ; } } # [doc = "Sets the viewport's global transformation matrix."] # [doc = ""] # [inline] pub fn viewport_set_global_canvas_transform (& self , viewport : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_global_canvas_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , viewport , transform) ; } } # [doc = "If `true`, the viewport renders to hdr."] # [doc = ""] # [inline] pub fn viewport_set_hdr (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_hdr ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } # [doc = "If `true`, the viewport's canvas is not rendered."] # [doc = ""] # [inline] pub fn viewport_set_hide_canvas (& self , viewport : Rid , hidden : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_hide_canvas ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , hidden) ; } } # [doc = "Currently unimplemented in Godot 3.x."] # [doc = ""] # [inline] pub fn viewport_set_hide_scenario (& self , viewport : Rid , hidden : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_hide_scenario ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , hidden) ; } } # [doc = "Sets the anti-aliasing mode. See [enum ViewportMSAA] for options."] # [doc = ""] # [inline] pub fn viewport_set_msaa (& self , viewport : Rid , msaa : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_msaa ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , msaa) ; } } # [doc = "Sets the viewport's parent to another viewport."] # [doc = ""] # [inline] pub fn viewport_set_parent_viewport (& self , viewport : Rid , parent_viewport : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_parent_viewport ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , parent_viewport) ; } } # [doc = "If `true`, render the contents of the viewport directly to screen. This allows a low-level optimization where you can skip drawing a viewport to the root viewport. While this optimization can result in a significant increase in speed (especially on older devices), it comes at a cost of usability. When this is enabled, you cannot read from the viewport or from the `SCREEN_TEXTURE`. You also lose the benefit of certain window settings, such as the various stretch modes. Another consequence to be aware of is that in 2D the rendering happens in window coordinates, so if you have a viewport that is double the size of the window, and you set this, then only the portion that fits within the window will be drawn, no automatic scaling is possible, even if your game scene is significantly larger than the window size."] # [doc = ""] # [inline] pub fn viewport_set_render_direct_to_screen (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_render_direct_to_screen ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } # [doc = "Sets a viewport's scenario.\nThe scenario contains information about the [enum ScenarioDebugMode], environment information, reflection atlas etc."] # [doc = ""] # [inline] pub fn viewport_set_scenario (& self , viewport : Rid , scenario : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_scenario ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , scenario) ; } } # [doc = "Sets the shadow atlas quadrant's subdivision."] # [doc = ""] # [inline] pub fn viewport_set_shadow_atlas_quadrant_subdivision (& self , viewport : Rid , quadrant : i64 , subdivision : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_shadow_atlas_quadrant_subdivision ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , viewport , quadrant , subdivision) ; } } # [doc = "Sets the size of the shadow atlas's images (used for omni and spot lights). The value will be rounded up to the nearest power of 2."] # [doc = ""] # [inline] pub fn viewport_set_shadow_atlas_size (& self , viewport : Rid , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_shadow_atlas_size ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , size) ; } } # [doc = "Sets the viewport's width and height."] # [doc = ""] # [inline] pub fn viewport_set_size (& self , viewport : Rid , width : i64 , height : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_size ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , viewport , width , height) ; } } # [doc = "If `true`, the viewport renders its background as transparent."] # [doc = ""] # [inline] pub fn viewport_set_transparent_background (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_transparent_background ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } # [doc = "Sets when the viewport should be updated. See [enum ViewportUpdateMode] constants for options."] # [doc = ""] # [inline] pub fn viewport_set_update_mode (& self , viewport : Rid , update_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_update_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , update_mode) ; } } # [doc = "Sets the viewport's 2D/3D mode. See [enum ViewportUsage] constants for options."] # [doc = ""] # [inline] pub fn viewport_set_usage (& self , viewport : Rid , usage : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_usage ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , usage) ; } } # [doc = "If `true`, the viewport uses augmented or virtual reality technologies. See [ARVRInterface]."] # [doc = ""] # [inline] pub fn viewport_set_use_arvr (& self , viewport : Rid , use_arvr : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_use_arvr ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , use_arvr) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn viewport_set_use_debanding (& self , viewport : Rid , debanding : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_use_debanding ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , debanding) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn viewport_set_use_fxaa (& self , viewport : Rid , fxaa : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_use_fxaa ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , fxaa) ; } } # [doc = "If `true`, the viewport's rendering is flipped vertically."] # [doc = ""] # [inline] pub fn viewport_set_vflip (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_vflip ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualServer { } unsafe impl GodotObject for VisualServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "VisualServer" } } impl std :: ops :: Deref for VisualServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub black_bars_set_images : * mut sys :: godot_method_bind , pub black_bars_set_margins : * mut sys :: godot_method_bind , pub camera_create : * mut sys :: godot_method_bind , pub camera_set_cull_mask : * mut sys :: godot_method_bind , pub camera_set_environment : * mut sys :: godot_method_bind , pub camera_set_frustum : * mut sys :: godot_method_bind , pub camera_set_orthogonal : * mut sys :: godot_method_bind , pub camera_set_perspective : * mut sys :: godot_method_bind , pub camera_set_transform : * mut sys :: godot_method_bind , pub camera_set_use_vertical_aspect : * mut sys :: godot_method_bind , pub canvas_create : * mut sys :: godot_method_bind , pub canvas_item_add_circle : * mut sys :: godot_method_bind , pub canvas_item_add_clip_ignore : * mut sys :: godot_method_bind , pub canvas_item_add_line : * mut sys :: godot_method_bind , pub canvas_item_add_mesh : * mut sys :: godot_method_bind , pub canvas_item_add_multimesh : * mut sys :: godot_method_bind , pub canvas_item_add_nine_patch : * mut sys :: godot_method_bind , pub canvas_item_add_particles : * mut sys :: godot_method_bind , pub canvas_item_add_polygon : * mut sys :: godot_method_bind , pub canvas_item_add_polyline : * mut sys :: godot_method_bind , pub canvas_item_add_primitive : * mut sys :: godot_method_bind , pub canvas_item_add_rect : * mut sys :: godot_method_bind , pub canvas_item_add_set_transform : * mut sys :: godot_method_bind , pub canvas_item_add_texture_rect : * mut sys :: godot_method_bind , pub canvas_item_add_texture_rect_region : * mut sys :: godot_method_bind , pub canvas_item_add_triangle_array : * mut sys :: godot_method_bind , pub canvas_item_clear : * mut sys :: godot_method_bind , pub canvas_item_create : * mut sys :: godot_method_bind , pub canvas_item_set_clip : * mut sys :: godot_method_bind , pub canvas_item_set_copy_to_backbuffer : * mut sys :: godot_method_bind , pub canvas_item_set_custom_rect : * mut sys :: godot_method_bind , pub canvas_item_set_distance_field_mode : * mut sys :: godot_method_bind , pub canvas_item_set_draw_behind_parent : * mut sys :: godot_method_bind , pub canvas_item_set_draw_index : * mut sys :: godot_method_bind , pub canvas_item_set_light_mask : * mut sys :: godot_method_bind , pub canvas_item_set_material : * mut sys :: godot_method_bind , pub canvas_item_set_modulate : * mut sys :: godot_method_bind , pub canvas_item_set_parent : * mut sys :: godot_method_bind , pub canvas_item_set_self_modulate : * mut sys :: godot_method_bind , pub canvas_item_set_sort_children_by_y : * mut sys :: godot_method_bind , pub canvas_item_set_transform : * mut sys :: godot_method_bind , pub canvas_item_set_use_parent_material : * mut sys :: godot_method_bind , pub canvas_item_set_visible : * mut sys :: godot_method_bind , pub canvas_item_set_z_as_relative_to_parent : * mut sys :: godot_method_bind , pub canvas_item_set_z_index : * mut sys :: godot_method_bind , pub canvas_light_attach_to_canvas : * mut sys :: godot_method_bind , pub canvas_light_create : * mut sys :: godot_method_bind , pub canvas_light_occluder_attach_to_canvas : * mut sys :: godot_method_bind , pub canvas_light_occluder_create : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_enabled : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_light_mask : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_polygon : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_transform : * mut sys :: godot_method_bind , pub canvas_light_set_color : * mut sys :: godot_method_bind , pub canvas_light_set_enabled : * mut sys :: godot_method_bind , pub canvas_light_set_energy : * mut sys :: godot_method_bind , pub canvas_light_set_height : * mut sys :: godot_method_bind , pub canvas_light_set_item_cull_mask : * mut sys :: godot_method_bind , pub canvas_light_set_item_shadow_cull_mask : * mut sys :: godot_method_bind , pub canvas_light_set_layer_range : * mut sys :: godot_method_bind , pub canvas_light_set_mode : * mut sys :: godot_method_bind , pub canvas_light_set_scale : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_buffer_size : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_color : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_enabled : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_filter : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_gradient_length : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_smooth : * mut sys :: godot_method_bind , pub canvas_light_set_texture : * mut sys :: godot_method_bind , pub canvas_light_set_texture_offset : * mut sys :: godot_method_bind , pub canvas_light_set_transform : * mut sys :: godot_method_bind , pub canvas_light_set_z_range : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_create : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_set_cull_mode : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_set_shape : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_set_shape_as_lines : * mut sys :: godot_method_bind , pub canvas_set_item_mirroring : * mut sys :: godot_method_bind , pub canvas_set_modulate : * mut sys :: godot_method_bind , pub directional_light_create : * mut sys :: godot_method_bind , pub draw : * mut sys :: godot_method_bind , pub environment_create : * mut sys :: godot_method_bind , pub environment_set_adjustment : * mut sys :: godot_method_bind , pub environment_set_ambient_light : * mut sys :: godot_method_bind , pub environment_set_background : * mut sys :: godot_method_bind , pub environment_set_bg_color : * mut sys :: godot_method_bind , pub environment_set_bg_energy : * mut sys :: godot_method_bind , pub environment_set_canvas_max_layer : * mut sys :: godot_method_bind , pub environment_set_dof_blur_far : * mut sys :: godot_method_bind , pub environment_set_dof_blur_near : * mut sys :: godot_method_bind , pub environment_set_fog : * mut sys :: godot_method_bind , pub environment_set_fog_depth : * mut sys :: godot_method_bind , pub environment_set_fog_height : * mut sys :: godot_method_bind , pub environment_set_glow : * mut sys :: godot_method_bind , pub environment_set_sky : * mut sys :: godot_method_bind , pub environment_set_sky_custom_fov : * mut sys :: godot_method_bind , pub environment_set_sky_orientation : * mut sys :: godot_method_bind , pub environment_set_ssao : * mut sys :: godot_method_bind , pub environment_set_ssr : * mut sys :: godot_method_bind , pub environment_set_tonemap : * mut sys :: godot_method_bind , pub finish : * mut sys :: godot_method_bind , pub force_draw : * mut sys :: godot_method_bind , pub force_sync : * mut sys :: godot_method_bind , pub free_rid : * mut sys :: godot_method_bind , pub get_render_info : * mut sys :: godot_method_bind , pub get_test_cube : * mut sys :: godot_method_bind , pub get_test_texture : * mut sys :: godot_method_bind , pub get_video_adapter_name : * mut sys :: godot_method_bind , pub get_video_adapter_vendor : * mut sys :: godot_method_bind , pub get_white_texture : * mut sys :: godot_method_bind , pub gi_probe_create : * mut sys :: godot_method_bind , pub gi_probe_get_bias : * mut sys :: godot_method_bind , pub gi_probe_get_bounds : * mut sys :: godot_method_bind , pub gi_probe_get_cell_size : * mut sys :: godot_method_bind , pub gi_probe_get_dynamic_data : * mut sys :: godot_method_bind , pub gi_probe_get_dynamic_range : * mut sys :: godot_method_bind , pub gi_probe_get_energy : * mut sys :: godot_method_bind , pub gi_probe_get_normal_bias : * mut sys :: godot_method_bind , pub gi_probe_get_propagation : * mut sys :: godot_method_bind , pub gi_probe_get_to_cell_xform : * mut sys :: godot_method_bind , pub gi_probe_is_compressed : * mut sys :: godot_method_bind , pub gi_probe_is_interior : * mut sys :: godot_method_bind , pub gi_probe_set_bias : * mut sys :: godot_method_bind , pub gi_probe_set_bounds : * mut sys :: godot_method_bind , pub gi_probe_set_cell_size : * mut sys :: godot_method_bind , pub gi_probe_set_compress : * mut sys :: godot_method_bind , pub gi_probe_set_dynamic_data : * mut sys :: godot_method_bind , pub gi_probe_set_dynamic_range : * mut sys :: godot_method_bind , pub gi_probe_set_energy : * mut sys :: godot_method_bind , pub gi_probe_set_interior : * mut sys :: godot_method_bind , pub gi_probe_set_normal_bias : * mut sys :: godot_method_bind , pub gi_probe_set_propagation : * mut sys :: godot_method_bind , pub gi_probe_set_to_cell_xform : * mut sys :: godot_method_bind , pub has_changed : * mut sys :: godot_method_bind , pub has_feature : * mut sys :: godot_method_bind , pub has_os_feature : * mut sys :: godot_method_bind , pub immediate_begin : * mut sys :: godot_method_bind , pub immediate_clear : * mut sys :: godot_method_bind , pub immediate_color : * mut sys :: godot_method_bind , pub immediate_create : * mut sys :: godot_method_bind , pub immediate_end : * mut sys :: godot_method_bind , pub immediate_get_material : * mut sys :: godot_method_bind , pub immediate_normal : * mut sys :: godot_method_bind , pub immediate_set_material : * mut sys :: godot_method_bind , pub immediate_tangent : * mut sys :: godot_method_bind , pub immediate_uv : * mut sys :: godot_method_bind , pub immediate_uv2 : * mut sys :: godot_method_bind , pub immediate_vertex : * mut sys :: godot_method_bind , pub immediate_vertex_2d : * mut sys :: godot_method_bind , pub init : * mut sys :: godot_method_bind , pub instance_attach_object_instance_id : * mut sys :: godot_method_bind , pub instance_attach_skeleton : * mut sys :: godot_method_bind , pub instance_create : * mut sys :: godot_method_bind , pub instance_create2 : * mut sys :: godot_method_bind , pub instance_geometry_set_as_instance_lod : * mut sys :: godot_method_bind , pub instance_geometry_set_cast_shadows_setting : * mut sys :: godot_method_bind , pub instance_geometry_set_draw_range : * mut sys :: godot_method_bind , pub instance_geometry_set_flag : * mut sys :: godot_method_bind , pub instance_geometry_set_material_override : * mut sys :: godot_method_bind , pub instance_set_base : * mut sys :: godot_method_bind , pub instance_set_blend_shape_weight : * mut sys :: godot_method_bind , pub instance_set_custom_aabb : * mut sys :: godot_method_bind , pub instance_set_exterior : * mut sys :: godot_method_bind , pub instance_set_extra_visibility_margin : * mut sys :: godot_method_bind , pub instance_set_layer_mask : * mut sys :: godot_method_bind , pub instance_set_scenario : * mut sys :: godot_method_bind , pub instance_set_surface_material : * mut sys :: godot_method_bind , pub instance_set_transform : * mut sys :: godot_method_bind , pub instance_set_use_lightmap : * mut sys :: godot_method_bind , pub instance_set_visible : * mut sys :: godot_method_bind , pub instances_cull_aabb : * mut sys :: godot_method_bind , pub instances_cull_convex : * mut sys :: godot_method_bind , pub instances_cull_ray : * mut sys :: godot_method_bind , pub is_render_loop_enabled : * mut sys :: godot_method_bind , pub light_directional_set_blend_splits : * mut sys :: godot_method_bind , pub light_directional_set_shadow_depth_range_mode : * mut sys :: godot_method_bind , pub light_directional_set_shadow_mode : * mut sys :: godot_method_bind , pub light_omni_set_shadow_detail : * mut sys :: godot_method_bind , pub light_omni_set_shadow_mode : * mut sys :: godot_method_bind , pub light_set_bake_mode : * mut sys :: godot_method_bind , pub light_set_color : * mut sys :: godot_method_bind , pub light_set_cull_mask : * mut sys :: godot_method_bind , pub light_set_negative : * mut sys :: godot_method_bind , pub light_set_param : * mut sys :: godot_method_bind , pub light_set_projector : * mut sys :: godot_method_bind , pub light_set_reverse_cull_face_mode : * mut sys :: godot_method_bind , pub light_set_shadow : * mut sys :: godot_method_bind , pub light_set_shadow_color : * mut sys :: godot_method_bind , pub light_set_use_gi : * mut sys :: godot_method_bind , pub lightmap_capture_create : * mut sys :: godot_method_bind , pub lightmap_capture_get_bounds : * mut sys :: godot_method_bind , pub lightmap_capture_get_energy : * mut sys :: godot_method_bind , pub lightmap_capture_get_octree : * mut sys :: godot_method_bind , pub lightmap_capture_get_octree_cell_subdiv : * mut sys :: godot_method_bind , pub lightmap_capture_get_octree_cell_transform : * mut sys :: godot_method_bind , pub lightmap_capture_is_interior : * mut sys :: godot_method_bind , pub lightmap_capture_set_bounds : * mut sys :: godot_method_bind , pub lightmap_capture_set_energy : * mut sys :: godot_method_bind , pub lightmap_capture_set_interior : * mut sys :: godot_method_bind , pub lightmap_capture_set_octree : * mut sys :: godot_method_bind , pub lightmap_capture_set_octree_cell_subdiv : * mut sys :: godot_method_bind , pub lightmap_capture_set_octree_cell_transform : * mut sys :: godot_method_bind , pub make_sphere_mesh : * mut sys :: godot_method_bind , pub material_create : * mut sys :: godot_method_bind , pub material_get_param : * mut sys :: godot_method_bind , pub material_get_param_default : * mut sys :: godot_method_bind , pub material_get_shader : * mut sys :: godot_method_bind , pub material_set_line_width : * mut sys :: godot_method_bind , pub material_set_next_pass : * mut sys :: godot_method_bind , pub material_set_param : * mut sys :: godot_method_bind , pub material_set_render_priority : * mut sys :: godot_method_bind , pub material_set_shader : * mut sys :: godot_method_bind , pub mesh_add_surface_from_arrays : * mut sys :: godot_method_bind , pub mesh_clear : * mut sys :: godot_method_bind , pub mesh_create : * mut sys :: godot_method_bind , pub mesh_get_blend_shape_count : * mut sys :: godot_method_bind , pub mesh_get_blend_shape_mode : * mut sys :: godot_method_bind , pub mesh_get_custom_aabb : * mut sys :: godot_method_bind , pub mesh_get_surface_count : * mut sys :: godot_method_bind , pub mesh_remove_surface : * mut sys :: godot_method_bind , pub mesh_set_blend_shape_count : * mut sys :: godot_method_bind , pub mesh_set_blend_shape_mode : * mut sys :: godot_method_bind , pub mesh_set_custom_aabb : * mut sys :: godot_method_bind , pub mesh_surface_get_aabb : * mut sys :: godot_method_bind , pub mesh_surface_get_array : * mut sys :: godot_method_bind , pub mesh_surface_get_array_index_len : * mut sys :: godot_method_bind , pub mesh_surface_get_array_len : * mut sys :: godot_method_bind , pub mesh_surface_get_arrays : * mut sys :: godot_method_bind , pub mesh_surface_get_blend_shape_arrays : * mut sys :: godot_method_bind , pub mesh_surface_get_format : * mut sys :: godot_method_bind , pub mesh_surface_get_format_offset : * mut sys :: godot_method_bind , pub mesh_surface_get_format_stride : * mut sys :: godot_method_bind , pub mesh_surface_get_index_array : * mut sys :: godot_method_bind , pub mesh_surface_get_material : * mut sys :: godot_method_bind , pub mesh_surface_get_primitive_type : * mut sys :: godot_method_bind , pub mesh_surface_get_skeleton_aabb : * mut sys :: godot_method_bind , pub mesh_surface_set_material : * mut sys :: godot_method_bind , pub mesh_surface_update_region : * mut sys :: godot_method_bind , pub multimesh_allocate : * mut sys :: godot_method_bind , pub multimesh_create : * mut sys :: godot_method_bind , pub multimesh_get_aabb : * mut sys :: godot_method_bind , pub multimesh_get_instance_count : * mut sys :: godot_method_bind , pub multimesh_get_mesh : * mut sys :: godot_method_bind , pub multimesh_get_visible_instances : * mut sys :: godot_method_bind , pub multimesh_instance_get_color : * mut sys :: godot_method_bind , pub multimesh_instance_get_custom_data : * mut sys :: godot_method_bind , pub multimesh_instance_get_transform : * mut sys :: godot_method_bind , pub multimesh_instance_get_transform_2d : * mut sys :: godot_method_bind , pub multimesh_instance_set_color : * mut sys :: godot_method_bind , pub multimesh_instance_set_custom_data : * mut sys :: godot_method_bind , pub multimesh_instance_set_transform : * mut sys :: godot_method_bind , pub multimesh_instance_set_transform_2d : * mut sys :: godot_method_bind , pub multimesh_set_as_bulk_array : * mut sys :: godot_method_bind , pub multimesh_set_mesh : * mut sys :: godot_method_bind , pub multimesh_set_visible_instances : * mut sys :: godot_method_bind , pub omni_light_create : * mut sys :: godot_method_bind , pub particles_create : * mut sys :: godot_method_bind , pub particles_get_current_aabb : * mut sys :: godot_method_bind , pub particles_get_emitting : * mut sys :: godot_method_bind , pub particles_is_inactive : * mut sys :: godot_method_bind , pub particles_request_process : * mut sys :: godot_method_bind , pub particles_restart : * mut sys :: godot_method_bind , pub particles_set_amount : * mut sys :: godot_method_bind , pub particles_set_custom_aabb : * mut sys :: godot_method_bind , pub particles_set_draw_order : * mut sys :: godot_method_bind , pub particles_set_draw_pass_mesh : * mut sys :: godot_method_bind , pub particles_set_draw_passes : * mut sys :: godot_method_bind , pub particles_set_emission_transform : * mut sys :: godot_method_bind , pub particles_set_emitting : * mut sys :: godot_method_bind , pub particles_set_explosiveness_ratio : * mut sys :: godot_method_bind , pub particles_set_fixed_fps : * mut sys :: godot_method_bind , pub particles_set_fractional_delta : * mut sys :: godot_method_bind , pub particles_set_lifetime : * mut sys :: godot_method_bind , pub particles_set_one_shot : * mut sys :: godot_method_bind , pub particles_set_pre_process_time : * mut sys :: godot_method_bind , pub particles_set_process_material : * mut sys :: godot_method_bind , pub particles_set_randomness_ratio : * mut sys :: godot_method_bind , pub particles_set_speed_scale : * mut sys :: godot_method_bind , pub particles_set_use_local_coordinates : * mut sys :: godot_method_bind , pub reflection_probe_create : * mut sys :: godot_method_bind , pub reflection_probe_set_as_interior : * mut sys :: godot_method_bind , pub reflection_probe_set_cull_mask : * mut sys :: godot_method_bind , pub reflection_probe_set_enable_box_projection : * mut sys :: godot_method_bind , pub reflection_probe_set_enable_shadows : * mut sys :: godot_method_bind , pub reflection_probe_set_extents : * mut sys :: godot_method_bind , pub reflection_probe_set_intensity : * mut sys :: godot_method_bind , pub reflection_probe_set_interior_ambient : * mut sys :: godot_method_bind , pub reflection_probe_set_interior_ambient_energy : * mut sys :: godot_method_bind , pub reflection_probe_set_interior_ambient_probe_contribution : * mut sys :: godot_method_bind , pub reflection_probe_set_max_distance : * mut sys :: godot_method_bind , pub reflection_probe_set_origin_offset : * mut sys :: godot_method_bind , pub reflection_probe_set_update_mode : * mut sys :: godot_method_bind , pub request_frame_drawn_callback : * mut sys :: godot_method_bind , pub scenario_create : * mut sys :: godot_method_bind , pub scenario_set_debug : * mut sys :: godot_method_bind , pub scenario_set_environment : * mut sys :: godot_method_bind , pub scenario_set_fallback_environment : * mut sys :: godot_method_bind , pub scenario_set_reflection_atlas_size : * mut sys :: godot_method_bind , pub set_boot_image : * mut sys :: godot_method_bind , pub set_debug_generate_wireframes : * mut sys :: godot_method_bind , pub set_default_clear_color : * mut sys :: godot_method_bind , pub set_render_loop_enabled : * mut sys :: godot_method_bind , pub set_shader_time_scale : * mut sys :: godot_method_bind , pub shader_create : * mut sys :: godot_method_bind , pub shader_get_code : * mut sys :: godot_method_bind , pub shader_get_default_texture_param : * mut sys :: godot_method_bind , pub shader_get_param_list : * mut sys :: godot_method_bind , pub shader_set_code : * mut sys :: godot_method_bind , pub shader_set_default_texture_param : * mut sys :: godot_method_bind , pub skeleton_allocate : * mut sys :: godot_method_bind , pub skeleton_bone_get_transform : * mut sys :: godot_method_bind , pub skeleton_bone_get_transform_2d : * mut sys :: godot_method_bind , pub skeleton_bone_set_transform : * mut sys :: godot_method_bind , pub skeleton_bone_set_transform_2d : * mut sys :: godot_method_bind , pub skeleton_create : * mut sys :: godot_method_bind , pub skeleton_get_bone_count : * mut sys :: godot_method_bind , pub sky_create : * mut sys :: godot_method_bind , pub sky_set_texture : * mut sys :: godot_method_bind , pub spot_light_create : * mut sys :: godot_method_bind , pub sync : * mut sys :: godot_method_bind , pub texture_allocate : * mut sys :: godot_method_bind , pub texture_bind : * mut sys :: godot_method_bind , pub texture_create : * mut sys :: godot_method_bind , pub texture_create_from_image : * mut sys :: godot_method_bind , pub texture_debug_usage : * mut sys :: godot_method_bind , pub texture_get_data : * mut sys :: godot_method_bind , pub texture_get_depth : * mut sys :: godot_method_bind , pub texture_get_flags : * mut sys :: godot_method_bind , pub texture_get_format : * mut sys :: godot_method_bind , pub texture_get_height : * mut sys :: godot_method_bind , pub texture_get_path : * mut sys :: godot_method_bind , pub texture_get_texid : * mut sys :: godot_method_bind , pub texture_get_type : * mut sys :: godot_method_bind , pub texture_get_width : * mut sys :: godot_method_bind , pub texture_set_data : * mut sys :: godot_method_bind , pub texture_set_data_partial : * mut sys :: godot_method_bind , pub texture_set_flags : * mut sys :: godot_method_bind , pub texture_set_path : * mut sys :: godot_method_bind , pub texture_set_shrink_all_x2_on_set_data : * mut sys :: godot_method_bind , pub texture_set_size_override : * mut sys :: godot_method_bind , pub textures_keep_original : * mut sys :: godot_method_bind , pub viewport_attach_camera : * mut sys :: godot_method_bind , pub viewport_attach_canvas : * mut sys :: godot_method_bind , pub viewport_attach_to_screen : * mut sys :: godot_method_bind , pub viewport_create : * mut sys :: godot_method_bind , pub viewport_detach : * mut sys :: godot_method_bind , pub viewport_get_render_info : * mut sys :: godot_method_bind , pub viewport_get_texture : * mut sys :: godot_method_bind , pub viewport_remove_canvas : * mut sys :: godot_method_bind , pub viewport_set_active : * mut sys :: godot_method_bind , pub viewport_set_canvas_stacking : * mut sys :: godot_method_bind , pub viewport_set_canvas_transform : * mut sys :: godot_method_bind , pub viewport_set_clear_mode : * mut sys :: godot_method_bind , pub viewport_set_debug_draw : * mut sys :: godot_method_bind , pub viewport_set_disable_3d : * mut sys :: godot_method_bind , pub viewport_set_disable_environment : * mut sys :: godot_method_bind , pub viewport_set_global_canvas_transform : * mut sys :: godot_method_bind , pub viewport_set_hdr : * mut sys :: godot_method_bind , pub viewport_set_hide_canvas : * mut sys :: godot_method_bind , pub viewport_set_hide_scenario : * mut sys :: godot_method_bind , pub viewport_set_msaa : * mut sys :: godot_method_bind , pub viewport_set_parent_viewport : * mut sys :: godot_method_bind , pub viewport_set_render_direct_to_screen : * mut sys :: godot_method_bind , pub viewport_set_scenario : * mut sys :: godot_method_bind , pub viewport_set_shadow_atlas_quadrant_subdivision : * mut sys :: godot_method_bind , pub viewport_set_shadow_atlas_size : * mut sys :: godot_method_bind , pub viewport_set_size : * mut sys :: godot_method_bind , pub viewport_set_transparent_background : * mut sys :: godot_method_bind , pub viewport_set_update_mode : * mut sys :: godot_method_bind , pub viewport_set_usage : * mut sys :: godot_method_bind , pub viewport_set_use_arvr : * mut sys :: godot_method_bind , pub viewport_set_use_debanding : * mut sys :: godot_method_bind , pub viewport_set_use_fxaa : * mut sys :: godot_method_bind , pub viewport_set_vflip : * mut sys :: godot_method_bind } impl VisualServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualServerMethodTable = VisualServerMethodTable { class_constructor : None , black_bars_set_images : 0 as * mut sys :: godot_method_bind , black_bars_set_margins : 0 as * mut sys :: godot_method_bind , camera_create : 0 as * mut sys :: godot_method_bind , camera_set_cull_mask : 0 as * mut sys :: godot_method_bind , camera_set_environment : 0 as * mut sys :: godot_method_bind , camera_set_frustum : 0 as * mut sys :: godot_method_bind , camera_set_orthogonal : 0 as * mut sys :: godot_method_bind , camera_set_perspective : 0 as * mut sys :: godot_method_bind , camera_set_transform : 0 as * mut sys :: godot_method_bind , camera_set_use_vertical_aspect : 0 as * mut sys :: godot_method_bind , canvas_create : 0 as * mut sys :: godot_method_bind , canvas_item_add_circle : 0 as * mut sys :: godot_method_bind , canvas_item_add_clip_ignore : 0 as * mut sys :: godot_method_bind , canvas_item_add_line : 0 as * mut sys :: godot_method_bind , canvas_item_add_mesh : 0 as * mut sys :: godot_method_bind , canvas_item_add_multimesh : 0 as * mut sys :: godot_method_bind , canvas_item_add_nine_patch : 0 as * mut sys :: godot_method_bind , canvas_item_add_particles : 0 as * mut sys :: godot_method_bind , canvas_item_add_polygon : 0 as * mut sys :: godot_method_bind , canvas_item_add_polyline : 0 as * mut sys :: godot_method_bind , canvas_item_add_primitive : 0 as * mut sys :: godot_method_bind , canvas_item_add_rect : 0 as * mut sys :: godot_method_bind , canvas_item_add_set_transform : 0 as * mut sys :: godot_method_bind , canvas_item_add_texture_rect : 0 as * mut sys :: godot_method_bind , canvas_item_add_texture_rect_region : 0 as * mut sys :: godot_method_bind , canvas_item_add_triangle_array : 0 as * mut sys :: godot_method_bind , canvas_item_clear : 0 as * mut sys :: godot_method_bind , canvas_item_create : 0 as * mut sys :: godot_method_bind , canvas_item_set_clip : 0 as * mut sys :: godot_method_bind , canvas_item_set_copy_to_backbuffer : 0 as * mut sys :: godot_method_bind , canvas_item_set_custom_rect : 0 as * mut sys :: godot_method_bind , canvas_item_set_distance_field_mode : 0 as * mut sys :: godot_method_bind , canvas_item_set_draw_behind_parent : 0 as * mut sys :: godot_method_bind , canvas_item_set_draw_index : 0 as * mut sys :: godot_method_bind , canvas_item_set_light_mask : 0 as * mut sys :: godot_method_bind , canvas_item_set_material : 0 as * mut sys :: godot_method_bind , canvas_item_set_modulate : 0 as * mut sys :: godot_method_bind , canvas_item_set_parent : 0 as * mut sys :: godot_method_bind , canvas_item_set_self_modulate : 0 as * mut sys :: godot_method_bind , canvas_item_set_sort_children_by_y : 0 as * mut sys :: godot_method_bind , canvas_item_set_transform : 0 as * mut sys :: godot_method_bind , canvas_item_set_use_parent_material : 0 as * mut sys :: godot_method_bind , canvas_item_set_visible : 0 as * mut sys :: godot_method_bind , canvas_item_set_z_as_relative_to_parent : 0 as * mut sys :: godot_method_bind , canvas_item_set_z_index : 0 as * mut sys :: godot_method_bind , canvas_light_attach_to_canvas : 0 as * mut sys :: godot_method_bind , canvas_light_create : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_attach_to_canvas : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_create : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_enabled : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_light_mask : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_polygon : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_transform : 0 as * mut sys :: godot_method_bind , canvas_light_set_color : 0 as * mut sys :: godot_method_bind , canvas_light_set_enabled : 0 as * mut sys :: godot_method_bind , canvas_light_set_energy : 0 as * mut sys :: godot_method_bind , canvas_light_set_height : 0 as * mut sys :: godot_method_bind , canvas_light_set_item_cull_mask : 0 as * mut sys :: godot_method_bind , canvas_light_set_item_shadow_cull_mask : 0 as * mut sys :: godot_method_bind , canvas_light_set_layer_range : 0 as * mut sys :: godot_method_bind , canvas_light_set_mode : 0 as * mut sys :: godot_method_bind , canvas_light_set_scale : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_buffer_size : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_color : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_enabled : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_filter : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_gradient_length : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_smooth : 0 as * mut sys :: godot_method_bind , canvas_light_set_texture : 0 as * mut sys :: godot_method_bind , canvas_light_set_texture_offset : 0 as * mut sys :: godot_method_bind , canvas_light_set_transform : 0 as * mut sys :: godot_method_bind , canvas_light_set_z_range : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_create : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_set_cull_mode : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_set_shape : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_set_shape_as_lines : 0 as * mut sys :: godot_method_bind , canvas_set_item_mirroring : 0 as * mut sys :: godot_method_bind , canvas_set_modulate : 0 as * mut sys :: godot_method_bind , directional_light_create : 0 as * mut sys :: godot_method_bind , draw : 0 as * mut sys :: godot_method_bind , environment_create : 0 as * mut sys :: godot_method_bind , environment_set_adjustment : 0 as * mut sys :: godot_method_bind , environment_set_ambient_light : 0 as * mut sys :: godot_method_bind , environment_set_background : 0 as * mut sys :: godot_method_bind , environment_set_bg_color : 0 as * mut sys :: godot_method_bind , environment_set_bg_energy : 0 as * mut sys :: godot_method_bind , environment_set_canvas_max_layer : 0 as * mut sys :: godot_method_bind , environment_set_dof_blur_far : 0 as * mut sys :: godot_method_bind , environment_set_dof_blur_near : 0 as * mut sys :: godot_method_bind , environment_set_fog : 0 as * mut sys :: godot_method_bind , environment_set_fog_depth : 0 as * mut sys :: godot_method_bind , environment_set_fog_height : 0 as * mut sys :: godot_method_bind , environment_set_glow : 0 as * mut sys :: godot_method_bind , environment_set_sky : 0 as * mut sys :: godot_method_bind , environment_set_sky_custom_fov : 0 as * mut sys :: godot_method_bind , environment_set_sky_orientation : 0 as * mut sys :: godot_method_bind , environment_set_ssao : 0 as * mut sys :: godot_method_bind , environment_set_ssr : 0 as * mut sys :: godot_method_bind , environment_set_tonemap : 0 as * mut sys :: godot_method_bind , finish : 0 as * mut sys :: godot_method_bind , force_draw : 0 as * mut sys :: godot_method_bind , force_sync : 0 as * mut sys :: godot_method_bind , free_rid : 0 as * mut sys :: godot_method_bind , get_render_info : 0 as * mut sys :: godot_method_bind , get_test_cube : 0 as * mut sys :: godot_method_bind , get_test_texture : 0 as * mut sys :: godot_method_bind , get_video_adapter_name : 0 as * mut sys :: godot_method_bind , get_video_adapter_vendor : 0 as * mut sys :: godot_method_bind , get_white_texture : 0 as * mut sys :: godot_method_bind , gi_probe_create : 0 as * mut sys :: godot_method_bind , gi_probe_get_bias : 0 as * mut sys :: godot_method_bind , gi_probe_get_bounds : 0 as * mut sys :: godot_method_bind , gi_probe_get_cell_size : 0 as * mut sys :: godot_method_bind , gi_probe_get_dynamic_data : 0 as * mut sys :: godot_method_bind , gi_probe_get_dynamic_range : 0 as * mut sys :: godot_method_bind , gi_probe_get_energy : 0 as * mut sys :: godot_method_bind , gi_probe_get_normal_bias : 0 as * mut sys :: godot_method_bind , gi_probe_get_propagation : 0 as * mut sys :: godot_method_bind , gi_probe_get_to_cell_xform : 0 as * mut sys :: godot_method_bind , gi_probe_is_compressed : 0 as * mut sys :: godot_method_bind , gi_probe_is_interior : 0 as * mut sys :: godot_method_bind , gi_probe_set_bias : 0 as * mut sys :: godot_method_bind , gi_probe_set_bounds : 0 as * mut sys :: godot_method_bind , gi_probe_set_cell_size : 0 as * mut sys :: godot_method_bind , gi_probe_set_compress : 0 as * mut sys :: godot_method_bind , gi_probe_set_dynamic_data : 0 as * mut sys :: godot_method_bind , gi_probe_set_dynamic_range : 0 as * mut sys :: godot_method_bind , gi_probe_set_energy : 0 as * mut sys :: godot_method_bind , gi_probe_set_interior : 0 as * mut sys :: godot_method_bind , gi_probe_set_normal_bias : 0 as * mut sys :: godot_method_bind , gi_probe_set_propagation : 0 as * mut sys :: godot_method_bind , gi_probe_set_to_cell_xform : 0 as * mut sys :: godot_method_bind , has_changed : 0 as * mut sys :: godot_method_bind , has_feature : 0 as * mut sys :: godot_method_bind , has_os_feature : 0 as * mut sys :: godot_method_bind , immediate_begin : 0 as * mut sys :: godot_method_bind , immediate_clear : 0 as * mut sys :: godot_method_bind , immediate_color : 0 as * mut sys :: godot_method_bind , immediate_create : 0 as * mut sys :: godot_method_bind , immediate_end : 0 as * mut sys :: godot_method_bind , immediate_get_material : 0 as * mut sys :: godot_method_bind , immediate_normal : 0 as * mut sys :: godot_method_bind , immediate_set_material : 0 as * mut sys :: godot_method_bind , immediate_tangent : 0 as * mut sys :: godot_method_bind , immediate_uv : 0 as * mut sys :: godot_method_bind , immediate_uv2 : 0 as * mut sys :: godot_method_bind , immediate_vertex : 0 as * mut sys :: godot_method_bind , immediate_vertex_2d : 0 as * mut sys :: godot_method_bind , init : 0 as * mut sys :: godot_method_bind , instance_attach_object_instance_id : 0 as * mut sys :: godot_method_bind , instance_attach_skeleton : 0 as * mut sys :: godot_method_bind , instance_create : 0 as * mut sys :: godot_method_bind , instance_create2 : 0 as * mut sys :: godot_method_bind , instance_geometry_set_as_instance_lod : 0 as * mut sys :: godot_method_bind , instance_geometry_set_cast_shadows_setting : 0 as * mut sys :: godot_method_bind , instance_geometry_set_draw_range : 0 as * mut sys :: godot_method_bind , instance_geometry_set_flag : 0 as * mut sys :: godot_method_bind , instance_geometry_set_material_override : 0 as * mut sys :: godot_method_bind , instance_set_base : 0 as * mut sys :: godot_method_bind , instance_set_blend_shape_weight : 0 as * mut sys :: godot_method_bind , instance_set_custom_aabb : 0 as * mut sys :: godot_method_bind , instance_set_exterior : 0 as * mut sys :: godot_method_bind , instance_set_extra_visibility_margin : 0 as * mut sys :: godot_method_bind , instance_set_layer_mask : 0 as * mut sys :: godot_method_bind , instance_set_scenario : 0 as * mut sys :: godot_method_bind , instance_set_surface_material : 0 as * mut sys :: godot_method_bind , instance_set_transform : 0 as * mut sys :: godot_method_bind , instance_set_use_lightmap : 0 as * mut sys :: godot_method_bind , instance_set_visible : 0 as * mut sys :: godot_method_bind , instances_cull_aabb : 0 as * mut sys :: godot_method_bind , instances_cull_convex : 0 as * mut sys :: godot_method_bind , instances_cull_ray : 0 as * mut sys :: godot_method_bind , is_render_loop_enabled : 0 as * mut sys :: godot_method_bind , light_directional_set_blend_splits : 0 as * mut sys :: godot_method_bind , light_directional_set_shadow_depth_range_mode : 0 as * mut sys :: godot_method_bind , light_directional_set_shadow_mode : 0 as * mut sys :: godot_method_bind , light_omni_set_shadow_detail : 0 as * mut sys :: godot_method_bind , light_omni_set_shadow_mode : 0 as * mut sys :: godot_method_bind , light_set_bake_mode : 0 as * mut sys :: godot_method_bind , light_set_color : 0 as * mut sys :: godot_method_bind , light_set_cull_mask : 0 as * mut sys :: godot_method_bind , light_set_negative : 0 as * mut sys :: godot_method_bind , light_set_param : 0 as * mut sys :: godot_method_bind , light_set_projector : 0 as * mut sys :: godot_method_bind , light_set_reverse_cull_face_mode : 0 as * mut sys :: godot_method_bind , light_set_shadow : 0 as * mut sys :: godot_method_bind , light_set_shadow_color : 0 as * mut sys :: godot_method_bind , light_set_use_gi : 0 as * mut sys :: godot_method_bind , lightmap_capture_create : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_bounds : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_energy : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_octree : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_octree_cell_subdiv : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_octree_cell_transform : 0 as * mut sys :: godot_method_bind , lightmap_capture_is_interior : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_bounds : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_energy : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_interior : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_octree : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_octree_cell_subdiv : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_octree_cell_transform : 0 as * mut sys :: godot_method_bind , make_sphere_mesh : 0 as * mut sys :: godot_method_bind , material_create : 0 as * mut sys :: godot_method_bind , material_get_param : 0 as * mut sys :: godot_method_bind , material_get_param_default : 0 as * mut sys :: godot_method_bind , material_get_shader : 0 as * mut sys :: godot_method_bind , material_set_line_width : 0 as * mut sys :: godot_method_bind , material_set_next_pass : 0 as * mut sys :: godot_method_bind , material_set_param : 0 as * mut sys :: godot_method_bind , material_set_render_priority : 0 as * mut sys :: godot_method_bind , material_set_shader : 0 as * mut sys :: godot_method_bind , mesh_add_surface_from_arrays : 0 as * mut sys :: godot_method_bind , mesh_clear : 0 as * mut sys :: godot_method_bind , mesh_create : 0 as * mut sys :: godot_method_bind , mesh_get_blend_shape_count : 0 as * mut sys :: godot_method_bind , mesh_get_blend_shape_mode : 0 as * mut sys :: godot_method_bind , mesh_get_custom_aabb : 0 as * mut sys :: godot_method_bind , mesh_get_surface_count : 0 as * mut sys :: godot_method_bind , mesh_remove_surface : 0 as * mut sys :: godot_method_bind , mesh_set_blend_shape_count : 0 as * mut sys :: godot_method_bind , mesh_set_blend_shape_mode : 0 as * mut sys :: godot_method_bind , mesh_set_custom_aabb : 0 as * mut sys :: godot_method_bind , mesh_surface_get_aabb : 0 as * mut sys :: godot_method_bind , mesh_surface_get_array : 0 as * mut sys :: godot_method_bind , mesh_surface_get_array_index_len : 0 as * mut sys :: godot_method_bind , mesh_surface_get_array_len : 0 as * mut sys :: godot_method_bind , mesh_surface_get_arrays : 0 as * mut sys :: godot_method_bind , mesh_surface_get_blend_shape_arrays : 0 as * mut sys :: godot_method_bind , mesh_surface_get_format : 0 as * mut sys :: godot_method_bind , mesh_surface_get_format_offset : 0 as * mut sys :: godot_method_bind , mesh_surface_get_format_stride : 0 as * mut sys :: godot_method_bind , mesh_surface_get_index_array : 0 as * mut sys :: godot_method_bind , mesh_surface_get_material : 0 as * mut sys :: godot_method_bind , mesh_surface_get_primitive_type : 0 as * mut sys :: godot_method_bind , mesh_surface_get_skeleton_aabb : 0 as * mut sys :: godot_method_bind , mesh_surface_set_material : 0 as * mut sys :: godot_method_bind , mesh_surface_update_region : 0 as * mut sys :: godot_method_bind , multimesh_allocate : 0 as * mut sys :: godot_method_bind , multimesh_create : 0 as * mut sys :: godot_method_bind , multimesh_get_aabb : 0 as * mut sys :: godot_method_bind , multimesh_get_instance_count : 0 as * mut sys :: godot_method_bind , multimesh_get_mesh : 0 as * mut sys :: godot_method_bind , multimesh_get_visible_instances : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_color : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_custom_data : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_transform : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_transform_2d : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_color : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_custom_data : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_transform : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_transform_2d : 0 as * mut sys :: godot_method_bind , multimesh_set_as_bulk_array : 0 as * mut sys :: godot_method_bind , multimesh_set_mesh : 0 as * mut sys :: godot_method_bind , multimesh_set_visible_instances : 0 as * mut sys :: godot_method_bind , omni_light_create : 0 as * mut sys :: godot_method_bind , particles_create : 0 as * mut sys :: godot_method_bind , particles_get_current_aabb : 0 as * mut sys :: godot_method_bind , particles_get_emitting : 0 as * mut sys :: godot_method_bind , particles_is_inactive : 0 as * mut sys :: godot_method_bind , particles_request_process : 0 as * mut sys :: godot_method_bind , particles_restart : 0 as * mut sys :: godot_method_bind , particles_set_amount : 0 as * mut sys :: godot_method_bind , particles_set_custom_aabb : 0 as * mut sys :: godot_method_bind , particles_set_draw_order : 0 as * mut sys :: godot_method_bind , particles_set_draw_pass_mesh : 0 as * mut sys :: godot_method_bind , particles_set_draw_passes : 0 as * mut sys :: godot_method_bind , particles_set_emission_transform : 0 as * mut sys :: godot_method_bind , particles_set_emitting : 0 as * mut sys :: godot_method_bind , particles_set_explosiveness_ratio : 0 as * mut sys :: godot_method_bind , particles_set_fixed_fps : 0 as * mut sys :: godot_method_bind , particles_set_fractional_delta : 0 as * mut sys :: godot_method_bind , particles_set_lifetime : 0 as * mut sys :: godot_method_bind , particles_set_one_shot : 0 as * mut sys :: godot_method_bind , particles_set_pre_process_time : 0 as * mut sys :: godot_method_bind , particles_set_process_material : 0 as * mut sys :: godot_method_bind , particles_set_randomness_ratio : 0 as * mut sys :: godot_method_bind , particles_set_speed_scale : 0 as * mut sys :: godot_method_bind , particles_set_use_local_coordinates : 0 as * mut sys :: godot_method_bind , reflection_probe_create : 0 as * mut sys :: godot_method_bind , reflection_probe_set_as_interior : 0 as * mut sys :: godot_method_bind , reflection_probe_set_cull_mask : 0 as * mut sys :: godot_method_bind , reflection_probe_set_enable_box_projection : 0 as * mut sys :: godot_method_bind , reflection_probe_set_enable_shadows : 0 as * mut sys :: godot_method_bind , reflection_probe_set_extents : 0 as * mut sys :: godot_method_bind , reflection_probe_set_intensity : 0 as * mut sys :: godot_method_bind , reflection_probe_set_interior_ambient : 0 as * mut sys :: godot_method_bind , reflection_probe_set_interior_ambient_energy : 0 as * mut sys :: godot_method_bind , reflection_probe_set_interior_ambient_probe_contribution : 0 as * mut sys :: godot_method_bind , reflection_probe_set_max_distance : 0 as * mut sys :: godot_method_bind , reflection_probe_set_origin_offset : 0 as * mut sys :: godot_method_bind , reflection_probe_set_update_mode : 0 as * mut sys :: godot_method_bind , request_frame_drawn_callback : 0 as * mut sys :: godot_method_bind , scenario_create : 0 as * mut sys :: godot_method_bind , scenario_set_debug : 0 as * mut sys :: godot_method_bind , scenario_set_environment : 0 as * mut sys :: godot_method_bind , scenario_set_fallback_environment : 0 as * mut sys :: godot_method_bind , scenario_set_reflection_atlas_size : 0 as * mut sys :: godot_method_bind , set_boot_image : 0 as * mut sys :: godot_method_bind , set_debug_generate_wireframes : 0 as * mut sys :: godot_method_bind , set_default_clear_color : 0 as * mut sys :: godot_method_bind , set_render_loop_enabled : 0 as * mut sys :: godot_method_bind , set_shader_time_scale : 0 as * mut sys :: godot_method_bind , shader_create : 0 as * mut sys :: godot_method_bind , shader_get_code : 0 as * mut sys :: godot_method_bind , shader_get_default_texture_param : 0 as * mut sys :: godot_method_bind , shader_get_param_list : 0 as * mut sys :: godot_method_bind , shader_set_code : 0 as * mut sys :: godot_method_bind , shader_set_default_texture_param : 0 as * mut sys :: godot_method_bind , skeleton_allocate : 0 as * mut sys :: godot_method_bind , skeleton_bone_get_transform : 0 as * mut sys :: godot_method_bind , skeleton_bone_get_transform_2d : 0 as * mut sys :: godot_method_bind , skeleton_bone_set_transform : 0 as * mut sys :: godot_method_bind , skeleton_bone_set_transform_2d : 0 as * mut sys :: godot_method_bind , skeleton_create : 0 as * mut sys :: godot_method_bind , skeleton_get_bone_count : 0 as * mut sys :: godot_method_bind , sky_create : 0 as * mut sys :: godot_method_bind , sky_set_texture : 0 as * mut sys :: godot_method_bind , spot_light_create : 0 as * mut sys :: godot_method_bind , sync : 0 as * mut sys :: godot_method_bind , texture_allocate : 0 as * mut sys :: godot_method_bind , texture_bind : 0 as * mut sys :: godot_method_bind , texture_create : 0 as * mut sys :: godot_method_bind , texture_create_from_image : 0 as * mut sys :: godot_method_bind , texture_debug_usage : 0 as * mut sys :: godot_method_bind , texture_get_data : 0 as * mut sys :: godot_method_bind , texture_get_depth : 0 as * mut sys :: godot_method_bind , texture_get_flags : 0 as * mut sys :: godot_method_bind , texture_get_format : 0 as * mut sys :: godot_method_bind , texture_get_height : 0 as * mut sys :: godot_method_bind , texture_get_path : 0 as * mut sys :: godot_method_bind , texture_get_texid : 0 as * mut sys :: godot_method_bind , texture_get_type : 0 as * mut sys :: godot_method_bind , texture_get_width : 0 as * mut sys :: godot_method_bind , texture_set_data : 0 as * mut sys :: godot_method_bind , texture_set_data_partial : 0 as * mut sys :: godot_method_bind , texture_set_flags : 0 as * mut sys :: godot_method_bind , texture_set_path : 0 as * mut sys :: godot_method_bind , texture_set_shrink_all_x2_on_set_data : 0 as * mut sys :: godot_method_bind , texture_set_size_override : 0 as * mut sys :: godot_method_bind , textures_keep_original : 0 as * mut sys :: godot_method_bind , viewport_attach_camera : 0 as * mut sys :: godot_method_bind , viewport_attach_canvas : 0 as * mut sys :: godot_method_bind , viewport_attach_to_screen : 0 as * mut sys :: godot_method_bind , viewport_create : 0 as * mut sys :: godot_method_bind , viewport_detach : 0 as * mut sys :: godot_method_bind , viewport_get_render_info : 0 as * mut sys :: godot_method_bind , viewport_get_texture : 0 as * mut sys :: godot_method_bind , viewport_remove_canvas : 0 as * mut sys :: godot_method_bind , viewport_set_active : 0 as * mut sys :: godot_method_bind , viewport_set_canvas_stacking : 0 as * mut sys :: godot_method_bind , viewport_set_canvas_transform : 0 as * mut sys :: godot_method_bind , viewport_set_clear_mode : 0 as * mut sys :: godot_method_bind , viewport_set_debug_draw : 0 as * mut sys :: godot_method_bind , viewport_set_disable_3d : 0 as * mut sys :: godot_method_bind , viewport_set_disable_environment : 0 as * mut sys :: godot_method_bind , viewport_set_global_canvas_transform : 0 as * mut sys :: godot_method_bind , viewport_set_hdr : 0 as * mut sys :: godot_method_bind , viewport_set_hide_canvas : 0 as * mut sys :: godot_method_bind , viewport_set_hide_scenario : 0 as * mut sys :: godot_method_bind , viewport_set_msaa : 0 as * mut sys :: godot_method_bind , viewport_set_parent_viewport : 0 as * mut sys :: godot_method_bind , viewport_set_render_direct_to_screen : 0 as * mut sys :: godot_method_bind , viewport_set_scenario : 0 as * mut sys :: godot_method_bind , viewport_set_shadow_atlas_quadrant_subdivision : 0 as * mut sys :: godot_method_bind , viewport_set_shadow_atlas_size : 0 as * mut sys :: godot_method_bind , viewport_set_size : 0 as * mut sys :: godot_method_bind , viewport_set_transparent_background : 0 as * mut sys :: godot_method_bind , viewport_set_update_mode : 0 as * mut sys :: godot_method_bind , viewport_set_usage : 0 as * mut sys :: godot_method_bind , viewport_set_use_arvr : 0 as * mut sys :: godot_method_bind , viewport_set_use_debanding : 0 as * mut sys :: godot_method_bind , viewport_set_use_fxaa : 0 as * mut sys :: godot_method_bind , viewport_set_vflip : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . black_bars_set_images = (gd_api . godot_method_bind_get_method) (class_name , "black_bars_set_images\0" . as_ptr () as * const c_char) ; table . black_bars_set_margins = (gd_api . godot_method_bind_get_method) (class_name , "black_bars_set_margins\0" . as_ptr () as * const c_char) ; table . camera_create = (gd_api . godot_method_bind_get_method) (class_name , "camera_create\0" . as_ptr () as * const c_char) ; table . camera_set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_cull_mask\0" . as_ptr () as * const c_char) ; table . camera_set_environment = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_environment\0" . as_ptr () as * const c_char) ; table . camera_set_frustum = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_frustum\0" . as_ptr () as * const c_char) ; table . camera_set_orthogonal = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_orthogonal\0" . as_ptr () as * const c_char) ; table . camera_set_perspective = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_perspective\0" . as_ptr () as * const c_char) ; table . camera_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_transform\0" . as_ptr () as * const c_char) ; table . camera_set_use_vertical_aspect = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_use_vertical_aspect\0" . as_ptr () as * const c_char) ; table . canvas_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_create\0" . as_ptr () as * const c_char) ; table . canvas_item_add_circle = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_circle\0" . as_ptr () as * const c_char) ; table . canvas_item_add_clip_ignore = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_clip_ignore\0" . as_ptr () as * const c_char) ; table . canvas_item_add_line = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_line\0" . as_ptr () as * const c_char) ; table . canvas_item_add_mesh = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_mesh\0" . as_ptr () as * const c_char) ; table . canvas_item_add_multimesh = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_multimesh\0" . as_ptr () as * const c_char) ; table . canvas_item_add_nine_patch = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_nine_patch\0" . as_ptr () as * const c_char) ; table . canvas_item_add_particles = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_particles\0" . as_ptr () as * const c_char) ; table . canvas_item_add_polygon = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_polygon\0" . as_ptr () as * const c_char) ; table . canvas_item_add_polyline = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_polyline\0" . as_ptr () as * const c_char) ; table . canvas_item_add_primitive = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_primitive\0" . as_ptr () as * const c_char) ; table . canvas_item_add_rect = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_rect\0" . as_ptr () as * const c_char) ; table . canvas_item_add_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_item_add_texture_rect = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_texture_rect\0" . as_ptr () as * const c_char) ; table . canvas_item_add_texture_rect_region = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_texture_rect_region\0" . as_ptr () as * const c_char) ; table . canvas_item_add_triangle_array = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_triangle_array\0" . as_ptr () as * const c_char) ; table . canvas_item_clear = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_clear\0" . as_ptr () as * const c_char) ; table . canvas_item_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_create\0" . as_ptr () as * const c_char) ; table . canvas_item_set_clip = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_clip\0" . as_ptr () as * const c_char) ; table . canvas_item_set_copy_to_backbuffer = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_copy_to_backbuffer\0" . as_ptr () as * const c_char) ; table . canvas_item_set_custom_rect = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_custom_rect\0" . as_ptr () as * const c_char) ; table . canvas_item_set_distance_field_mode = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_distance_field_mode\0" . as_ptr () as * const c_char) ; table . canvas_item_set_draw_behind_parent = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_draw_behind_parent\0" . as_ptr () as * const c_char) ; table . canvas_item_set_draw_index = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_draw_index\0" . as_ptr () as * const c_char) ; table . canvas_item_set_light_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_light_mask\0" . as_ptr () as * const c_char) ; table . canvas_item_set_material = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_material\0" . as_ptr () as * const c_char) ; table . canvas_item_set_modulate = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_modulate\0" . as_ptr () as * const c_char) ; table . canvas_item_set_parent = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_parent\0" . as_ptr () as * const c_char) ; table . canvas_item_set_self_modulate = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_self_modulate\0" . as_ptr () as * const c_char) ; table . canvas_item_set_sort_children_by_y = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_sort_children_by_y\0" . as_ptr () as * const c_char) ; table . canvas_item_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_item_set_use_parent_material = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_use_parent_material\0" . as_ptr () as * const c_char) ; table . canvas_item_set_visible = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_visible\0" . as_ptr () as * const c_char) ; table . canvas_item_set_z_as_relative_to_parent = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_z_as_relative_to_parent\0" . as_ptr () as * const c_char) ; table . canvas_item_set_z_index = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_z_index\0" . as_ptr () as * const c_char) ; table . canvas_light_attach_to_canvas = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_attach_to_canvas\0" . as_ptr () as * const c_char) ; table . canvas_light_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_create\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_attach_to_canvas = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_attach_to_canvas\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_create\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_enabled\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_light_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_light_mask\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_polygon = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_polygon\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_light_set_color = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_color\0" . as_ptr () as * const c_char) ; table . canvas_light_set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_enabled\0" . as_ptr () as * const c_char) ; table . canvas_light_set_energy = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_energy\0" . as_ptr () as * const c_char) ; table . canvas_light_set_height = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_height\0" . as_ptr () as * const c_char) ; table . canvas_light_set_item_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_item_cull_mask\0" . as_ptr () as * const c_char) ; table . canvas_light_set_item_shadow_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_item_shadow_cull_mask\0" . as_ptr () as * const c_char) ; table . canvas_light_set_layer_range = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_layer_range\0" . as_ptr () as * const c_char) ; table . canvas_light_set_mode = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_mode\0" . as_ptr () as * const c_char) ; table . canvas_light_set_scale = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_scale\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_buffer_size = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_buffer_size\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_color = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_color\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_enabled = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_enabled\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_filter = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_filter\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_gradient_length = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_gradient_length\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_smooth = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_smooth\0" . as_ptr () as * const c_char) ; table . canvas_light_set_texture = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_texture\0" . as_ptr () as * const c_char) ; table . canvas_light_set_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_texture_offset\0" . as_ptr () as * const c_char) ; table . canvas_light_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_light_set_z_range = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_z_range\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_create\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_set_cull_mode = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_set_cull_mode\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_set_shape = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_set_shape\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_set_shape_as_lines = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_set_shape_as_lines\0" . as_ptr () as * const c_char) ; table . canvas_set_item_mirroring = (gd_api . godot_method_bind_get_method) (class_name , "canvas_set_item_mirroring\0" . as_ptr () as * const c_char) ; table . canvas_set_modulate = (gd_api . godot_method_bind_get_method) (class_name , "canvas_set_modulate\0" . as_ptr () as * const c_char) ; table . directional_light_create = (gd_api . godot_method_bind_get_method) (class_name , "directional_light_create\0" . as_ptr () as * const c_char) ; table . draw = (gd_api . godot_method_bind_get_method) (class_name , "draw\0" . as_ptr () as * const c_char) ; table . environment_create = (gd_api . godot_method_bind_get_method) (class_name , "environment_create\0" . as_ptr () as * const c_char) ; table . environment_set_adjustment = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_adjustment\0" . as_ptr () as * const c_char) ; table . environment_set_ambient_light = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_ambient_light\0" . as_ptr () as * const c_char) ; table . environment_set_background = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_background\0" . as_ptr () as * const c_char) ; table . environment_set_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_bg_color\0" . as_ptr () as * const c_char) ; table . environment_set_bg_energy = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_bg_energy\0" . as_ptr () as * const c_char) ; table . environment_set_canvas_max_layer = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_canvas_max_layer\0" . as_ptr () as * const c_char) ; table . environment_set_dof_blur_far = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_dof_blur_far\0" . as_ptr () as * const c_char) ; table . environment_set_dof_blur_near = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_dof_blur_near\0" . as_ptr () as * const c_char) ; table . environment_set_fog = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_fog\0" . as_ptr () as * const c_char) ; table . environment_set_fog_depth = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_fog_depth\0" . as_ptr () as * const c_char) ; table . environment_set_fog_height = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_fog_height\0" . as_ptr () as * const c_char) ; table . environment_set_glow = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_glow\0" . as_ptr () as * const c_char) ; table . environment_set_sky = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_sky\0" . as_ptr () as * const c_char) ; table . environment_set_sky_custom_fov = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_sky_custom_fov\0" . as_ptr () as * const c_char) ; table . environment_set_sky_orientation = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_sky_orientation\0" . as_ptr () as * const c_char) ; table . environment_set_ssao = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_ssao\0" . as_ptr () as * const c_char) ; table . environment_set_ssr = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_ssr\0" . as_ptr () as * const c_char) ; table . environment_set_tonemap = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_tonemap\0" . as_ptr () as * const c_char) ; table . finish = (gd_api . godot_method_bind_get_method) (class_name , "finish\0" . as_ptr () as * const c_char) ; table . force_draw = (gd_api . godot_method_bind_get_method) (class_name , "force_draw\0" . as_ptr () as * const c_char) ; table . force_sync = (gd_api . godot_method_bind_get_method) (class_name , "force_sync\0" . as_ptr () as * const c_char) ; table . free_rid = (gd_api . godot_method_bind_get_method) (class_name , "free_rid\0" . as_ptr () as * const c_char) ; table . get_render_info = (gd_api . godot_method_bind_get_method) (class_name , "get_render_info\0" . as_ptr () as * const c_char) ; table . get_test_cube = (gd_api . godot_method_bind_get_method) (class_name , "get_test_cube\0" . as_ptr () as * const c_char) ; table . get_test_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_test_texture\0" . as_ptr () as * const c_char) ; table . get_video_adapter_name = (gd_api . godot_method_bind_get_method) (class_name , "get_video_adapter_name\0" . as_ptr () as * const c_char) ; table . get_video_adapter_vendor = (gd_api . godot_method_bind_get_method) (class_name , "get_video_adapter_vendor\0" . as_ptr () as * const c_char) ; table . get_white_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_white_texture\0" . as_ptr () as * const c_char) ; table . gi_probe_create = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_create\0" . as_ptr () as * const c_char) ; table . gi_probe_get_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_get_bounds = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_bounds\0" . as_ptr () as * const c_char) ; table . gi_probe_get_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_cell_size\0" . as_ptr () as * const c_char) ; table . gi_probe_get_dynamic_data = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_dynamic_data\0" . as_ptr () as * const c_char) ; table . gi_probe_get_dynamic_range = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_dynamic_range\0" . as_ptr () as * const c_char) ; table . gi_probe_get_energy = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_energy\0" . as_ptr () as * const c_char) ; table . gi_probe_get_normal_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_normal_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_get_propagation = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_propagation\0" . as_ptr () as * const c_char) ; table . gi_probe_get_to_cell_xform = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_to_cell_xform\0" . as_ptr () as * const c_char) ; table . gi_probe_is_compressed = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_is_compressed\0" . as_ptr () as * const c_char) ; table . gi_probe_is_interior = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_is_interior\0" . as_ptr () as * const c_char) ; table . gi_probe_set_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_set_bounds = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_bounds\0" . as_ptr () as * const c_char) ; table . gi_probe_set_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_cell_size\0" . as_ptr () as * const c_char) ; table . gi_probe_set_compress = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_compress\0" . as_ptr () as * const c_char) ; table . gi_probe_set_dynamic_data = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_dynamic_data\0" . as_ptr () as * const c_char) ; table . gi_probe_set_dynamic_range = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_dynamic_range\0" . as_ptr () as * const c_char) ; table . gi_probe_set_energy = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_energy\0" . as_ptr () as * const c_char) ; table . gi_probe_set_interior = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_interior\0" . as_ptr () as * const c_char) ; table . gi_probe_set_normal_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_normal_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_set_propagation = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_propagation\0" . as_ptr () as * const c_char) ; table . gi_probe_set_to_cell_xform = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_to_cell_xform\0" . as_ptr () as * const c_char) ; table . has_changed = (gd_api . godot_method_bind_get_method) (class_name , "has_changed\0" . as_ptr () as * const c_char) ; table . has_feature = (gd_api . godot_method_bind_get_method) (class_name , "has_feature\0" . as_ptr () as * const c_char) ; table . has_os_feature = (gd_api . godot_method_bind_get_method) (class_name , "has_os_feature\0" . as_ptr () as * const c_char) ; table . immediate_begin = (gd_api . godot_method_bind_get_method) (class_name , "immediate_begin\0" . as_ptr () as * const c_char) ; table . immediate_clear = (gd_api . godot_method_bind_get_method) (class_name , "immediate_clear\0" . as_ptr () as * const c_char) ; table . immediate_color = (gd_api . godot_method_bind_get_method) (class_name , "immediate_color\0" . as_ptr () as * const c_char) ; table . immediate_create = (gd_api . godot_method_bind_get_method) (class_name , "immediate_create\0" . as_ptr () as * const c_char) ; table . immediate_end = (gd_api . godot_method_bind_get_method) (class_name , "immediate_end\0" . as_ptr () as * const c_char) ; table . immediate_get_material = (gd_api . godot_method_bind_get_method) (class_name , "immediate_get_material\0" . as_ptr () as * const c_char) ; table . immediate_normal = (gd_api . godot_method_bind_get_method) (class_name , "immediate_normal\0" . as_ptr () as * const c_char) ; table . immediate_set_material = (gd_api . godot_method_bind_get_method) (class_name , "immediate_set_material\0" . as_ptr () as * const c_char) ; table . immediate_tangent = (gd_api . godot_method_bind_get_method) (class_name , "immediate_tangent\0" . as_ptr () as * const c_char) ; table . immediate_uv = (gd_api . godot_method_bind_get_method) (class_name , "immediate_uv\0" . as_ptr () as * const c_char) ; table . immediate_uv2 = (gd_api . godot_method_bind_get_method) (class_name , "immediate_uv2\0" . as_ptr () as * const c_char) ; table . immediate_vertex = (gd_api . godot_method_bind_get_method) (class_name , "immediate_vertex\0" . as_ptr () as * const c_char) ; table . immediate_vertex_2d = (gd_api . godot_method_bind_get_method) (class_name , "immediate_vertex_2d\0" . as_ptr () as * const c_char) ; table . init = (gd_api . godot_method_bind_get_method) (class_name , "init\0" . as_ptr () as * const c_char) ; table . instance_attach_object_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "instance_attach_object_instance_id\0" . as_ptr () as * const c_char) ; table . instance_attach_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "instance_attach_skeleton\0" . as_ptr () as * const c_char) ; table . instance_create = (gd_api . godot_method_bind_get_method) (class_name , "instance_create\0" . as_ptr () as * const c_char) ; table . instance_create2 = (gd_api . godot_method_bind_get_method) (class_name , "instance_create2\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_as_instance_lod = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_as_instance_lod\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_cast_shadows_setting = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_cast_shadows_setting\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_draw_range = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_draw_range\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_flag = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_flag\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_material_override = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_material_override\0" . as_ptr () as * const c_char) ; table . instance_set_base = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_base\0" . as_ptr () as * const c_char) ; table . instance_set_blend_shape_weight = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_blend_shape_weight\0" . as_ptr () as * const c_char) ; table . instance_set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_custom_aabb\0" . as_ptr () as * const c_char) ; table . instance_set_exterior = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_exterior\0" . as_ptr () as * const c_char) ; table . instance_set_extra_visibility_margin = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_extra_visibility_margin\0" . as_ptr () as * const c_char) ; table . instance_set_layer_mask = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_layer_mask\0" . as_ptr () as * const c_char) ; table . instance_set_scenario = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_scenario\0" . as_ptr () as * const c_char) ; table . instance_set_surface_material = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_surface_material\0" . as_ptr () as * const c_char) ; table . instance_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_transform\0" . as_ptr () as * const c_char) ; table . instance_set_use_lightmap = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_use_lightmap\0" . as_ptr () as * const c_char) ; table . instance_set_visible = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_visible\0" . as_ptr () as * const c_char) ; table . instances_cull_aabb = (gd_api . godot_method_bind_get_method) (class_name , "instances_cull_aabb\0" . as_ptr () as * const c_char) ; table . instances_cull_convex = (gd_api . godot_method_bind_get_method) (class_name , "instances_cull_convex\0" . as_ptr () as * const c_char) ; table . instances_cull_ray = (gd_api . godot_method_bind_get_method) (class_name , "instances_cull_ray\0" . as_ptr () as * const c_char) ; table . is_render_loop_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_render_loop_enabled\0" . as_ptr () as * const c_char) ; table . light_directional_set_blend_splits = (gd_api . godot_method_bind_get_method) (class_name , "light_directional_set_blend_splits\0" . as_ptr () as * const c_char) ; table . light_directional_set_shadow_depth_range_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_directional_set_shadow_depth_range_mode\0" . as_ptr () as * const c_char) ; table . light_directional_set_shadow_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_directional_set_shadow_mode\0" . as_ptr () as * const c_char) ; table . light_omni_set_shadow_detail = (gd_api . godot_method_bind_get_method) (class_name , "light_omni_set_shadow_detail\0" . as_ptr () as * const c_char) ; table . light_omni_set_shadow_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_omni_set_shadow_mode\0" . as_ptr () as * const c_char) ; table . light_set_bake_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_set_bake_mode\0" . as_ptr () as * const c_char) ; table . light_set_color = (gd_api . godot_method_bind_get_method) (class_name , "light_set_color\0" . as_ptr () as * const c_char) ; table . light_set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "light_set_cull_mask\0" . as_ptr () as * const c_char) ; table . light_set_negative = (gd_api . godot_method_bind_get_method) (class_name , "light_set_negative\0" . as_ptr () as * const c_char) ; table . light_set_param = (gd_api . godot_method_bind_get_method) (class_name , "light_set_param\0" . as_ptr () as * const c_char) ; table . light_set_projector = (gd_api . godot_method_bind_get_method) (class_name , "light_set_projector\0" . as_ptr () as * const c_char) ; table . light_set_reverse_cull_face_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_set_reverse_cull_face_mode\0" . as_ptr () as * const c_char) ; table . light_set_shadow = (gd_api . godot_method_bind_get_method) (class_name , "light_set_shadow\0" . as_ptr () as * const c_char) ; table . light_set_shadow_color = (gd_api . godot_method_bind_get_method) (class_name , "light_set_shadow_color\0" . as_ptr () as * const c_char) ; table . light_set_use_gi = (gd_api . godot_method_bind_get_method) (class_name , "light_set_use_gi\0" . as_ptr () as * const c_char) ; table . lightmap_capture_create = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_create\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_bounds = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_bounds\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_energy = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_energy\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_octree = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_octree\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_octree_cell_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_octree_cell_subdiv\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_octree_cell_transform = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_octree_cell_transform\0" . as_ptr () as * const c_char) ; table . lightmap_capture_is_interior = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_is_interior\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_bounds = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_bounds\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_energy = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_energy\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_interior = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_interior\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_octree = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_octree\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_octree_cell_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_octree_cell_subdiv\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_octree_cell_transform = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_octree_cell_transform\0" . as_ptr () as * const c_char) ; table . make_sphere_mesh = (gd_api . godot_method_bind_get_method) (class_name , "make_sphere_mesh\0" . as_ptr () as * const c_char) ; table . material_create = (gd_api . godot_method_bind_get_method) (class_name , "material_create\0" . as_ptr () as * const c_char) ; table . material_get_param = (gd_api . godot_method_bind_get_method) (class_name , "material_get_param\0" . as_ptr () as * const c_char) ; table . material_get_param_default = (gd_api . godot_method_bind_get_method) (class_name , "material_get_param_default\0" . as_ptr () as * const c_char) ; table . material_get_shader = (gd_api . godot_method_bind_get_method) (class_name , "material_get_shader\0" . as_ptr () as * const c_char) ; table . material_set_line_width = (gd_api . godot_method_bind_get_method) (class_name , "material_set_line_width\0" . as_ptr () as * const c_char) ; table . material_set_next_pass = (gd_api . godot_method_bind_get_method) (class_name , "material_set_next_pass\0" . as_ptr () as * const c_char) ; table . material_set_param = (gd_api . godot_method_bind_get_method) (class_name , "material_set_param\0" . as_ptr () as * const c_char) ; table . material_set_render_priority = (gd_api . godot_method_bind_get_method) (class_name , "material_set_render_priority\0" . as_ptr () as * const c_char) ; table . material_set_shader = (gd_api . godot_method_bind_get_method) (class_name , "material_set_shader\0" . as_ptr () as * const c_char) ; table . mesh_add_surface_from_arrays = (gd_api . godot_method_bind_get_method) (class_name , "mesh_add_surface_from_arrays\0" . as_ptr () as * const c_char) ; table . mesh_clear = (gd_api . godot_method_bind_get_method) (class_name , "mesh_clear\0" . as_ptr () as * const c_char) ; table . mesh_create = (gd_api . godot_method_bind_get_method) (class_name , "mesh_create\0" . as_ptr () as * const c_char) ; table . mesh_get_blend_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_blend_shape_count\0" . as_ptr () as * const c_char) ; table . mesh_get_blend_shape_mode = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_blend_shape_mode\0" . as_ptr () as * const c_char) ; table . mesh_get_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_custom_aabb\0" . as_ptr () as * const c_char) ; table . mesh_get_surface_count = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_surface_count\0" . as_ptr () as * const c_char) ; table . mesh_remove_surface = (gd_api . godot_method_bind_get_method) (class_name , "mesh_remove_surface\0" . as_ptr () as * const c_char) ; table . mesh_set_blend_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "mesh_set_blend_shape_count\0" . as_ptr () as * const c_char) ; table . mesh_set_blend_shape_mode = (gd_api . godot_method_bind_get_method) (class_name , "mesh_set_blend_shape_mode\0" . as_ptr () as * const c_char) ; table . mesh_set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_set_custom_aabb\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_aabb\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_array = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_array\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_array_index_len = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_array_index_len\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_array_len = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_array_len\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_arrays = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_arrays\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_blend_shape_arrays = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_blend_shape_arrays\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_format = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_format\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_format_offset = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_format_offset\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_format_stride = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_format_stride\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_index_array = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_index_array\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_material = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_material\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_primitive_type = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_primitive_type\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_skeleton_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_skeleton_aabb\0" . as_ptr () as * const c_char) ; table . mesh_surface_set_material = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_set_material\0" . as_ptr () as * const c_char) ; table . mesh_surface_update_region = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_update_region\0" . as_ptr () as * const c_char) ; table . multimesh_allocate = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_allocate\0" . as_ptr () as * const c_char) ; table . multimesh_create = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_create\0" . as_ptr () as * const c_char) ; table . multimesh_get_aabb = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_aabb\0" . as_ptr () as * const c_char) ; table . multimesh_get_instance_count = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_instance_count\0" . as_ptr () as * const c_char) ; table . multimesh_get_mesh = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_mesh\0" . as_ptr () as * const c_char) ; table . multimesh_get_visible_instances = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_visible_instances\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_color = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_color\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_custom_data = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_custom_data\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_transform = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_transform\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_transform_2d\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_color = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_color\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_custom_data = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_custom_data\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_transform\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_transform_2d\0" . as_ptr () as * const c_char) ; table . multimesh_set_as_bulk_array = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_set_as_bulk_array\0" . as_ptr () as * const c_char) ; table . multimesh_set_mesh = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_set_mesh\0" . as_ptr () as * const c_char) ; table . multimesh_set_visible_instances = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_set_visible_instances\0" . as_ptr () as * const c_char) ; table . omni_light_create = (gd_api . godot_method_bind_get_method) (class_name , "omni_light_create\0" . as_ptr () as * const c_char) ; table . particles_create = (gd_api . godot_method_bind_get_method) (class_name , "particles_create\0" . as_ptr () as * const c_char) ; table . particles_get_current_aabb = (gd_api . godot_method_bind_get_method) (class_name , "particles_get_current_aabb\0" . as_ptr () as * const c_char) ; table . particles_get_emitting = (gd_api . godot_method_bind_get_method) (class_name , "particles_get_emitting\0" . as_ptr () as * const c_char) ; table . particles_is_inactive = (gd_api . godot_method_bind_get_method) (class_name , "particles_is_inactive\0" . as_ptr () as * const c_char) ; table . particles_request_process = (gd_api . godot_method_bind_get_method) (class_name , "particles_request_process\0" . as_ptr () as * const c_char) ; table . particles_restart = (gd_api . godot_method_bind_get_method) (class_name , "particles_restart\0" . as_ptr () as * const c_char) ; table . particles_set_amount = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_amount\0" . as_ptr () as * const c_char) ; table . particles_set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_custom_aabb\0" . as_ptr () as * const c_char) ; table . particles_set_draw_order = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_draw_order\0" . as_ptr () as * const c_char) ; table . particles_set_draw_pass_mesh = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_draw_pass_mesh\0" . as_ptr () as * const c_char) ; table . particles_set_draw_passes = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_draw_passes\0" . as_ptr () as * const c_char) ; table . particles_set_emission_transform = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_emission_transform\0" . as_ptr () as * const c_char) ; table . particles_set_emitting = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_emitting\0" . as_ptr () as * const c_char) ; table . particles_set_explosiveness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_explosiveness_ratio\0" . as_ptr () as * const c_char) ; table . particles_set_fixed_fps = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_fixed_fps\0" . as_ptr () as * const c_char) ; table . particles_set_fractional_delta = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_fractional_delta\0" . as_ptr () as * const c_char) ; table . particles_set_lifetime = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_lifetime\0" . as_ptr () as * const c_char) ; table . particles_set_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_one_shot\0" . as_ptr () as * const c_char) ; table . particles_set_pre_process_time = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_pre_process_time\0" . as_ptr () as * const c_char) ; table . particles_set_process_material = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_process_material\0" . as_ptr () as * const c_char) ; table . particles_set_randomness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_randomness_ratio\0" . as_ptr () as * const c_char) ; table . particles_set_speed_scale = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_speed_scale\0" . as_ptr () as * const c_char) ; table . particles_set_use_local_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_use_local_coordinates\0" . as_ptr () as * const c_char) ; table . reflection_probe_create = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_create\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_as_interior = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_as_interior\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_cull_mask\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_enable_box_projection = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_enable_box_projection\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_enable_shadows = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_enable_shadows\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_extents = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_extents\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_intensity = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_intensity\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_interior_ambient = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_interior_ambient\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_interior_ambient_energy = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_interior_ambient_energy\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_interior_ambient_probe_contribution = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_interior_ambient_probe_contribution\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_max_distance = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_max_distance\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_origin_offset = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_origin_offset\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_update_mode\0" . as_ptr () as * const c_char) ; table . request_frame_drawn_callback = (gd_api . godot_method_bind_get_method) (class_name , "request_frame_drawn_callback\0" . as_ptr () as * const c_char) ; table . scenario_create = (gd_api . godot_method_bind_get_method) (class_name , "scenario_create\0" . as_ptr () as * const c_char) ; table . scenario_set_debug = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_debug\0" . as_ptr () as * const c_char) ; table . scenario_set_environment = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_environment\0" . as_ptr () as * const c_char) ; table . scenario_set_fallback_environment = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_fallback_environment\0" . as_ptr () as * const c_char) ; table . scenario_set_reflection_atlas_size = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_reflection_atlas_size\0" . as_ptr () as * const c_char) ; table . set_boot_image = (gd_api . godot_method_bind_get_method) (class_name , "set_boot_image\0" . as_ptr () as * const c_char) ; table . set_debug_generate_wireframes = (gd_api . godot_method_bind_get_method) (class_name , "set_debug_generate_wireframes\0" . as_ptr () as * const c_char) ; table . set_default_clear_color = (gd_api . godot_method_bind_get_method) (class_name , "set_default_clear_color\0" . as_ptr () as * const c_char) ; table . set_render_loop_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_render_loop_enabled\0" . as_ptr () as * const c_char) ; table . set_shader_time_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_shader_time_scale\0" . as_ptr () as * const c_char) ; table . shader_create = (gd_api . godot_method_bind_get_method) (class_name , "shader_create\0" . as_ptr () as * const c_char) ; table . shader_get_code = (gd_api . godot_method_bind_get_method) (class_name , "shader_get_code\0" . as_ptr () as * const c_char) ; table . shader_get_default_texture_param = (gd_api . godot_method_bind_get_method) (class_name , "shader_get_default_texture_param\0" . as_ptr () as * const c_char) ; table . shader_get_param_list = (gd_api . godot_method_bind_get_method) (class_name , "shader_get_param_list\0" . as_ptr () as * const c_char) ; table . shader_set_code = (gd_api . godot_method_bind_get_method) (class_name , "shader_set_code\0" . as_ptr () as * const c_char) ; table . shader_set_default_texture_param = (gd_api . godot_method_bind_get_method) (class_name , "shader_set_default_texture_param\0" . as_ptr () as * const c_char) ; table . skeleton_allocate = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_allocate\0" . as_ptr () as * const c_char) ; table . skeleton_bone_get_transform = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_get_transform\0" . as_ptr () as * const c_char) ; table . skeleton_bone_get_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_get_transform_2d\0" . as_ptr () as * const c_char) ; table . skeleton_bone_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_set_transform\0" . as_ptr () as * const c_char) ; table . skeleton_bone_set_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_set_transform_2d\0" . as_ptr () as * const c_char) ; table . skeleton_create = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_create\0" . as_ptr () as * const c_char) ; table . skeleton_get_bone_count = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_get_bone_count\0" . as_ptr () as * const c_char) ; table . sky_create = (gd_api . godot_method_bind_get_method) (class_name , "sky_create\0" . as_ptr () as * const c_char) ; table . sky_set_texture = (gd_api . godot_method_bind_get_method) (class_name , "sky_set_texture\0" . as_ptr () as * const c_char) ; table . spot_light_create = (gd_api . godot_method_bind_get_method) (class_name , "spot_light_create\0" . as_ptr () as * const c_char) ; table . sync = (gd_api . godot_method_bind_get_method) (class_name , "sync\0" . as_ptr () as * const c_char) ; table . texture_allocate = (gd_api . godot_method_bind_get_method) (class_name , "texture_allocate\0" . as_ptr () as * const c_char) ; table . texture_bind = (gd_api . godot_method_bind_get_method) (class_name , "texture_bind\0" . as_ptr () as * const c_char) ; table . texture_create = (gd_api . godot_method_bind_get_method) (class_name , "texture_create\0" . as_ptr () as * const c_char) ; table . texture_create_from_image = (gd_api . godot_method_bind_get_method) (class_name , "texture_create_from_image\0" . as_ptr () as * const c_char) ; table . texture_debug_usage = (gd_api . godot_method_bind_get_method) (class_name , "texture_debug_usage\0" . as_ptr () as * const c_char) ; table . texture_get_data = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_data\0" . as_ptr () as * const c_char) ; table . texture_get_depth = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_depth\0" . as_ptr () as * const c_char) ; table . texture_get_flags = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_flags\0" . as_ptr () as * const c_char) ; table . texture_get_format = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_format\0" . as_ptr () as * const c_char) ; table . texture_get_height = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_height\0" . as_ptr () as * const c_char) ; table . texture_get_path = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_path\0" . as_ptr () as * const c_char) ; table . texture_get_texid = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_texid\0" . as_ptr () as * const c_char) ; table . texture_get_type = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_type\0" . as_ptr () as * const c_char) ; table . texture_get_width = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_width\0" . as_ptr () as * const c_char) ; table . texture_set_data = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_data\0" . as_ptr () as * const c_char) ; table . texture_set_data_partial = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_data_partial\0" . as_ptr () as * const c_char) ; table . texture_set_flags = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_flags\0" . as_ptr () as * const c_char) ; table . texture_set_path = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_path\0" . as_ptr () as * const c_char) ; table . texture_set_shrink_all_x2_on_set_data = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_shrink_all_x2_on_set_data\0" . as_ptr () as * const c_char) ; table . texture_set_size_override = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_size_override\0" . as_ptr () as * const c_char) ; table . textures_keep_original = (gd_api . godot_method_bind_get_method) (class_name , "textures_keep_original\0" . as_ptr () as * const c_char) ; table . viewport_attach_camera = (gd_api . godot_method_bind_get_method) (class_name , "viewport_attach_camera\0" . as_ptr () as * const c_char) ; table . viewport_attach_canvas = (gd_api . godot_method_bind_get_method) (class_name , "viewport_attach_canvas\0" . as_ptr () as * const c_char) ; table . viewport_attach_to_screen = (gd_api . godot_method_bind_get_method) (class_name , "viewport_attach_to_screen\0" . as_ptr () as * const c_char) ; table . viewport_create = (gd_api . godot_method_bind_get_method) (class_name , "viewport_create\0" . as_ptr () as * const c_char) ; table . viewport_detach = (gd_api . godot_method_bind_get_method) (class_name , "viewport_detach\0" . as_ptr () as * const c_char) ; table . viewport_get_render_info = (gd_api . godot_method_bind_get_method) (class_name , "viewport_get_render_info\0" . as_ptr () as * const c_char) ; table . viewport_get_texture = (gd_api . godot_method_bind_get_method) (class_name , "viewport_get_texture\0" . as_ptr () as * const c_char) ; table . viewport_remove_canvas = (gd_api . godot_method_bind_get_method) (class_name , "viewport_remove_canvas\0" . as_ptr () as * const c_char) ; table . viewport_set_active = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_active\0" . as_ptr () as * const c_char) ; table . viewport_set_canvas_stacking = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_canvas_stacking\0" . as_ptr () as * const c_char) ; table . viewport_set_canvas_transform = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_canvas_transform\0" . as_ptr () as * const c_char) ; table . viewport_set_clear_mode = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_clear_mode\0" . as_ptr () as * const c_char) ; table . viewport_set_debug_draw = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_debug_draw\0" . as_ptr () as * const c_char) ; table . viewport_set_disable_3d = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_disable_3d\0" . as_ptr () as * const c_char) ; table . viewport_set_disable_environment = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_disable_environment\0" . as_ptr () as * const c_char) ; table . viewport_set_global_canvas_transform = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_global_canvas_transform\0" . as_ptr () as * const c_char) ; table . viewport_set_hdr = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_hdr\0" . as_ptr () as * const c_char) ; table . viewport_set_hide_canvas = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_hide_canvas\0" . as_ptr () as * const c_char) ; table . viewport_set_hide_scenario = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_hide_scenario\0" . as_ptr () as * const c_char) ; table . viewport_set_msaa = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_msaa\0" . as_ptr () as * const c_char) ; table . viewport_set_parent_viewport = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_parent_viewport\0" . as_ptr () as * const c_char) ; table . viewport_set_render_direct_to_screen = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_render_direct_to_screen\0" . as_ptr () as * const c_char) ; table . viewport_set_scenario = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_scenario\0" . as_ptr () as * const c_char) ; table . viewport_set_shadow_atlas_quadrant_subdivision = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_shadow_atlas_quadrant_subdivision\0" . as_ptr () as * const c_char) ; table . viewport_set_shadow_atlas_size = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_shadow_atlas_size\0" . as_ptr () as * const c_char) ; table . viewport_set_size = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_size\0" . as_ptr () as * const c_char) ; table . viewport_set_transparent_background = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_transparent_background\0" . as_ptr () as * const c_char) ; table . viewport_set_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_update_mode\0" . as_ptr () as * const c_char) ; table . viewport_set_usage = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_usage\0" . as_ptr () as * const c_char) ; table . viewport_set_use_arvr = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_use_arvr\0" . as_ptr () as * const c_char) ; table . viewport_set_use_debanding = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_use_debanding\0" . as_ptr () as * const c_char) ; table . viewport_set_use_fxaa = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_use_fxaa\0" . as_ptr () as * const c_char) ; table . viewport_set_vflip = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_vflip\0" . as_ptr () as * const c_char) ; } } } [WARN] too much data in the log, truncating it