[INFO] fetching crate gdnative-bindings-lily 0.9.3... [INFO] testing gdnative-bindings-lily-0.9.3 against master#733b47ea4b1b86216f14ef56e49440c33933f230+rustflags=-Copt-level=3 for pr-138759 [INFO] extracting crate gdnative-bindings-lily 0.9.3 into /workspace/builds/worker-7-tc2/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-7-tc2/source/Cargo.toml [INFO] validating manifest of crates.io crate gdnative-bindings-lily 0.9.3 on toolchain 733b47ea4b1b86216f14ef56e49440c33933f230 [INFO] running `Command { std: CARGO_HOME="/workspace/cargo-home" RUSTUP_HOME="/workspace/rustup-home" "/workspace/cargo-home/bin/cargo" "+733b47ea4b1b86216f14ef56e49440c33933f230" "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" "+733b47ea4b1b86216f14ef56e49440c33933f230" "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" "+733b47ea4b1b86216f14ef56e49440c33933f230" "fetch" "--manifest-path" "Cargo.toml", kill_on_drop: false }` [INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc2/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc2/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" "+733b47ea4b1b86216f14ef56e49440c33933f230" "metadata" "--no-deps" "--format-version=1", kill_on_drop: false }` [INFO] [stdout] 9f0963e4414f18b0706a821715804d09a22f1295b9367e02674c12f15c2d86a7 [INFO] running `Command { std: "docker" "start" "-a" "9f0963e4414f18b0706a821715804d09a22f1295b9367e02674c12f15c2d86a7", kill_on_drop: false }` [INFO] running `Command { std: "docker" "inspect" "9f0963e4414f18b0706a821715804d09a22f1295b9367e02674c12f15c2d86a7", kill_on_drop: false }` [INFO] running `Command { std: "docker" "rm" "-f" "9f0963e4414f18b0706a821715804d09a22f1295b9367e02674c12f15c2d86a7", kill_on_drop: false }` [INFO] [stdout] 9f0963e4414f18b0706a821715804d09a22f1295b9367e02674c12f15c2d86a7 [INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc2/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc2/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 -Copt-level=3" "-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" "+733b47ea4b1b86216f14ef56e49440c33933f230" "build" "--frozen" "--message-format=json", kill_on_drop: false }` [INFO] [stdout] 2651797c19d96bf1ad37858c96d9ff18788ec672e1b07c42609b1c8b66e5b5ad [INFO] running `Command { std: "docker" "start" "-a" "2651797c19d96bf1ad37858c96d9ff18788ec672e1b07c42609b1c8b66e5b5ad", kill_on_drop: false }` [INFO] [stderr] Compiling proc-macro2 v1.0.101 [INFO] [stderr] Compiling unicode-ident v1.0.19 [INFO] [stderr] Compiling quote v1.0.41 [INFO] [stderr] Compiling version_check v0.9.5 [INFO] [stderr] Compiling libc v0.2.177 [INFO] [stderr] Compiling syn v1.0.109 [INFO] [stderr] Compiling cfg-if v1.0.3 [INFO] [stderr] Compiling glob v0.3.3 [INFO] [stderr] Compiling autocfg v1.5.0 [INFO] [stderr] Compiling itoa v0.4.8 [INFO] [stderr] Compiling ryu v1.0.20 [INFO] [stderr] Compiling regex-syntax v0.8.8 [INFO] [stderr] Compiling memchr v2.7.6 [INFO] [stderr] Compiling bindgen v0.56.0 [INFO] [stderr] Compiling peeking_take_while v0.1.2 [INFO] [stderr] Compiling bitflags v1.3.2 [INFO] [stderr] Compiling libloading v0.8.9 [INFO] [stderr] Compiling lazy_static v1.5.0 [INFO] [stderr] Compiling shlex v0.1.1 [INFO] [stderr] Compiling rustc-hash v1.1.0 [INFO] [stderr] Compiling lazycell v1.3.0 [INFO] [stderr] Compiling unicode-segmentation v1.12.0 [INFO] [stderr] Compiling xmlparser v0.13.6 [INFO] [stderr] Compiling parking_lot_core v0.8.6 [INFO] [stderr] Compiling instant v0.1.13 [INFO] [stderr] Compiling unindent v0.1.11 [INFO] [stderr] Compiling scopeguard v1.2.0 [INFO] [stderr] Compiling smallvec v1.15.1 [INFO] [stderr] Compiling once_cell v1.21.3 [INFO] [stderr] Compiling lock_api v0.4.14 [INFO] [stderr] Compiling hashbrown v0.12.3 [INFO] [stderr] Compiling roxmltree v0.14.1 [INFO] [stderr] Compiling heck v0.3.3 [INFO] [stderr] Compiling clang-sys v1.8.1 [INFO] [stderr] Compiling num-traits v0.2.19 [INFO] [stderr] Compiling indexmap v1.9.3 [INFO] [stderr] Compiling nom v5.1.3 [INFO] [stderr] Compiling ahash v0.7.8 [INFO] [stderr] Compiling approx v0.4.0 [INFO] [stderr] Compiling euclid v0.22.11 [INFO] [stderr] Compiling getrandom v0.2.16 [INFO] [stderr] Compiling parking_lot v0.11.2 [INFO] [stderr] Compiling regex-automata v0.4.13 [INFO] [stderr] Compiling cexpr v0.4.0 [INFO] [stderr] Compiling regex v1.12.2 [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-sys v0.9.3 [INFO] [stderr] Compiling gdnative-bindings-lily v0.9.3 (/opt/rustwide/workdir) [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-60c8dbcfaf0f3dfc/out/generated.rs:4:1522 [INFO] [stdout] | [INFO] [stdout] 4 | ..._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] = 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-60c8dbcfaf0f3dfc/out/generated.rs:58:1458 [INFO] [stdout] | [INFO] [stdout] 58 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:106:1412 [INFO] [stdout] | [INFO] [stdout] 106 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:112:1490 [INFO] [stdout] | [INFO] [stdout] 112 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:136:1437 [INFO] [stdout] | [INFO] [stdout] 136 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:142:1846 [INFO] [stdout] | [INFO] [stdout] 142 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:154:1450 [INFO] [stdout] | [INFO] [stdout] 154 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:172:1458 [INFO] [stdout] | [INFO] [stdout] 172 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:190:1494 [INFO] [stdout] | [INFO] [stdout] 190 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:208:1478 [INFO] [stdout] | [INFO] [stdout] 208 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:232:1454 [INFO] [stdout] | [INFO] [stdout] 232 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:250:1707 [INFO] [stdout] | [INFO] [stdout] 250 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:262:1482 [INFO] [stdout] | [INFO] [stdout] 262 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:370:1400 [INFO] [stdout] | [INFO] [stdout] 370 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:430:1560 [INFO] [stdout] | [INFO] [stdout] 430 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:508:1464 [INFO] [stdout] | [INFO] [stdout] 508 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:538:1387 [INFO] [stdout] | [INFO] [stdout] 538 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:544:1498 [INFO] [stdout] | [INFO] [stdout] 544 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:550:1520 [INFO] [stdout] | [INFO] [stdout] 550 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:568:1341 [INFO] [stdout] | [INFO] [stdout] 568 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:574:1504 [INFO] [stdout] | [INFO] [stdout] 574 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:592:1792 [INFO] [stdout] | [INFO] [stdout] 592 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:640:1353 [INFO] [stdout] | [INFO] [stdout] 640 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:646:1478 [INFO] [stdout] | [INFO] [stdout] 646 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:700:1572 [INFO] [stdout] | [INFO] [stdout] 700 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:748:1760 [INFO] [stdout] | [INFO] [stdout] 748 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:766:1458 [INFO] [stdout] | [INFO] [stdout] 766 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:778:1458 [INFO] [stdout] | [INFO] [stdout] 778 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:790:1457 [INFO] [stdout] | [INFO] [stdout] 790 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:850:1830 [INFO] [stdout] | [INFO] [stdout] 850 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:856:1522 [INFO] [stdout] | [INFO] [stdout] 856 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:940:1353 [INFO] [stdout] | [INFO] [stdout] 940 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:970:1434 [INFO] [stdout] | [INFO] [stdout] 970 | ...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: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-60c8dbcfaf0f3dfc/out/generated.rs:1012:1553 [INFO] [stdout] | [INFO] [stdout] 1012 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1018:1832 [INFO] [stdout] | [INFO] [stdout] 1018 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1024:1906 [INFO] [stdout] | [INFO] [stdout] 1024 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1036:1293 [INFO] [stdout] | [INFO] [stdout] 1036 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1066:1244 [INFO] [stdout] | [INFO] [stdout] 1066 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1090:1438 [INFO] [stdout] | [INFO] [stdout] 1090 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1168:1874 [INFO] [stdout] | [INFO] [stdout] 1168 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1210:1365 [INFO] [stdout] | [INFO] [stdout] 1210 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1240:1873 [INFO] [stdout] | [INFO] [stdout] 1240 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1246:1486 [INFO] [stdout] | [INFO] [stdout] 1246 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1294:1337 [INFO] [stdout] | [INFO] [stdout] 1294 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1336:1194 [INFO] [stdout] | [INFO] [stdout] 1336 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:1348:1458 [INFO] [stdout] | [INFO] [stdout] 1348 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1354:1478 [INFO] [stdout] | [INFO] [stdout] 1354 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1360:1398 [INFO] [stdout] | [INFO] [stdout] 1360 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:1366:1470 [INFO] [stdout] | [INFO] [stdout] 1366 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:1372:1494 [INFO] [stdout] | [INFO] [stdout] 1372 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1378:1434 [INFO] [stdout] | [INFO] [stdout] 1378 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:1408:1454 [INFO] [stdout] | [INFO] [stdout] 1408 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1456:1798 [INFO] [stdout] | [INFO] [stdout] 1456 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1480:1442 [INFO] [stdout] | [INFO] [stdout] 1480 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1558:1387 [INFO] [stdout] | [INFO] [stdout] 1558 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1588:1498 [INFO] [stdout] | [INFO] [stdout] 1588 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1624:1186 [INFO] [stdout] | [INFO] [stdout] 1624 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1630:1512 [INFO] [stdout] | [INFO] [stdout] 1630 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:1660:1321 [INFO] [stdout] | [INFO] [stdout] 1660 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:1678:1846 [INFO] [stdout] | [INFO] [stdout] 1678 | ...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] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-60c8dbcfaf0f3dfc/out/generated.rs:1720:1516 [INFO] [stdout] | [INFO] [stdout] 1720 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:1786:1307 [INFO] [stdout] | [INFO] [stdout] 1786 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1810:1873 [INFO] [stdout] | [INFO] [stdout] 1810 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1840:1445 [INFO] [stdout] | [INFO] [stdout] 1840 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1876:1482 [INFO] [stdout] | [INFO] [stdout] 1876 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1894:1439 [INFO] [stdout] | [INFO] [stdout] 1894 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:1924:1520 [INFO] [stdout] | [INFO] [stdout] 1924 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2062:1490 [INFO] [stdout] | [INFO] [stdout] 2062 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2134:1908 [INFO] [stdout] | [INFO] [stdout] 2134 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:2170:1458 [INFO] [stdout] | [INFO] [stdout] 2170 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2200:1862 [INFO] [stdout] | [INFO] [stdout] 2200 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2224:1470 [INFO] [stdout] | [INFO] [stdout] 2224 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2236:1842 [INFO] [stdout] | [INFO] [stdout] 2236 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2314:1477 [INFO] [stdout] | [INFO] [stdout] 2314 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:2422:1446 [INFO] [stdout] | [INFO] [stdout] 2422 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2494:1246 [INFO] [stdout] | [INFO] [stdout] 2494 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2530:1450 [INFO] [stdout] | [INFO] [stdout] 2530 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2542:1506 [INFO] [stdout] | [INFO] [stdout] 2542 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:2554:1349 [INFO] [stdout] | [INFO] [stdout] 2554 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2560:1872 [INFO] [stdout] | [INFO] [stdout] 2560 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2608:1449 [INFO] [stdout] | [INFO] [stdout] 2608 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2680:1564 [INFO] [stdout] | [INFO] [stdout] 2680 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2722:1482 [INFO] [stdout] | [INFO] [stdout] 2722 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2728:1478 [INFO] [stdout] | [INFO] [stdout] 2728 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2734:1349 [INFO] [stdout] | [INFO] [stdout] 2734 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2740:1486 [INFO] [stdout] | [INFO] [stdout] 2740 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2782:1498 [INFO] [stdout] | [INFO] [stdout] 2782 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2788:1454 [INFO] [stdout] | [INFO] [stdout] 2788 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2794:1880 [INFO] [stdout] | [INFO] [stdout] 2794 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2800:1450 [INFO] [stdout] | [INFO] [stdout] 2800 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2806:1908 [INFO] [stdout] | [INFO] [stdout] 2806 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:2836:1771 [INFO] [stdout] | [INFO] [stdout] 2836 | ...(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-60c8dbcfaf0f3dfc/out/generated.rs:2878:1498 [INFO] [stdout] | [INFO] [stdout] 2878 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2950:1652 [INFO] [stdout] | [INFO] [stdout] 2950 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2974:1866 [INFO] [stdout] | [INFO] [stdout] 2974 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2986:1836 [INFO] [stdout] | [INFO] [stdout] 2986 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:2992:1458 [INFO] [stdout] | [INFO] [stdout] 2992 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3004:1462 [INFO] [stdout] | [INFO] [stdout] 3004 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3034:1460 [INFO] [stdout] | [INFO] [stdout] 3034 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3040:1464 [INFO] [stdout] | [INFO] [stdout] 3040 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3046:1556 [INFO] [stdout] | [INFO] [stdout] 3046 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3166:1842 [INFO] [stdout] | [INFO] [stdout] 3166 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3202:1450 [INFO] [stdout] | [INFO] [stdout] 3202 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3208:1442 [INFO] [stdout] | [INFO] [stdout] 3208 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3280:1516 [INFO] [stdout] | [INFO] [stdout] 3280 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:3292:1258 [INFO] [stdout] | [INFO] [stdout] 3292 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3382:1652 [INFO] [stdout] | [INFO] [stdout] 3382 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3400:1426 [INFO] [stdout] | [INFO] [stdout] 3400 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3442:1353 [INFO] [stdout] | [INFO] [stdout] 3442 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3454:1365 [INFO] [stdout] | [INFO] [stdout] 3454 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3460:1309 [INFO] [stdout] | [INFO] [stdout] 3460 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3484:1321 [INFO] [stdout] | [INFO] [stdout] 3484 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:3496:1495 [INFO] [stdout] | [INFO] [stdout] 3496 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3520:1408 [INFO] [stdout] | [INFO] [stdout] 3520 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3526:1309 [INFO] [stdout] | [INFO] [stdout] 3526 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3532:1926 [INFO] [stdout] | [INFO] [stdout] 3532 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3550:1165 [INFO] [stdout] | [INFO] [stdout] 3550 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3592:1552 [INFO] [stdout] | [INFO] [stdout] 3592 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3610:1516 [INFO] [stdout] | [INFO] [stdout] 3610 | ..._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-60c8dbcfaf0f3dfc/out/generated.rs:3652:1429 [INFO] [stdout] | [INFO] [stdout] 3652 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3688:1926 [INFO] [stdout] | [INFO] [stdout] 3688 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3700:1349 [INFO] [stdout] | [INFO] [stdout] 3700 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3754:1474 [INFO] [stdout] | [INFO] [stdout] 3754 | ...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-60c8dbcfaf0f3dfc/out/generated.rs:3766:1688 [INFO] [stdout] | [INFO] [stdout] 3766 | ...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: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-60c8dbcfaf0f3dfc/out/generated.rs:4:3904 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:10:46528 [INFO] [stdout] | [INFO] [stdout] 10 | ... : 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] 10 | # [doc = "`core class PopupMenu` inherits `Popup` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_popupmenu.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`PopupMenu` 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\nPopupMenu 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 PopupMenu { this : RawObject < Self > , } impl PopupMenu { # [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 = PopupMenuMethodTable :: 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 new checkable item with text `label`.\nAn `id` can optionally be provided, as well as an accelerator (`accel`). If no `id` is provided, one will be created from the index. If no `accel` is provided then the default `0` will be assigned to it. See [method get_item_accelerator] for more info on accelerators.\n**Note:** Checkable items just display a checkmark, but don't have any built-in checking behavior and must be checked/unchecked manually. See [method set_item_checked] for more info on how to control it.\n# Default Arguments\n* `id` - `-1`\n* `accel` - `0`"] # [doc = ""] # [inline] pub fn add_check_item (& self , label : impl Into < GodotString > , id : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_check_item ; let ret = crate :: icalls :: icallptr_void_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , id , accel) ; } } # [doc = "Adds a new checkable item and assigns the specified [ShortCut] to it. Sets the label of the checkbox to the [ShortCut]'s name.\nAn `id` can optionally be provided. If no `id` is provided, one will be created from the index.\n**Note:** Checkable items just display a checkmark, but don't have any built-in checking behavior and must be checked/unchecked manually. See [method set_item_checked] for more info on how to control it.\n# Default Arguments\n* `id` - `-1`\n* `global` - `false`"] # [doc = ""] # [inline] pub fn add_check_shortcut (& self , shortcut : impl AsArg < crate :: generated :: short_cut :: ShortCut > , id : i64 , global : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_check_shortcut ; let ret = crate :: icalls :: icallptr_void_obj_i64_bool (method_bind , self . this . sys () . as_ptr () , shortcut . as_arg_ptr () , id , global) ; } } # [doc = "Adds a new checkable item with text `label` and icon `texture`.\nAn `id` can optionally be provided, as well as an accelerator (`accel`). If no `id` is provided, one will be created from the index. If no `accel` is provided then the default `0` will be assigned to it. See [method get_item_accelerator] for more info on accelerators.\n**Note:** Checkable items just display a checkmark, but don't have any built-in checking behavior and must be checked/unchecked manually. See [method set_item_checked] for more info on how to control it.\n# Default Arguments\n* `id` - `-1`\n* `accel` - `0`"] # [doc = ""] # [inline] pub fn add_icon_check_item (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , label : impl Into < GodotString > , id : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_icon_check_item ; let ret = crate :: icalls :: icallptr_void_obj_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , label . into () , id , accel) ; } } # [doc = "Adds a new checkable item and assigns the specified [ShortCut] and icon `texture` to it. Sets the label of the checkbox to the [ShortCut]'s name.\nAn `id` can optionally be provided. If no `id` is provided, one will be created from the index.\n**Note:** Checkable items just display a checkmark, but don't have any built-in checking behavior and must be checked/unchecked manually. See [method set_item_checked] for more info on how to control it.\n# Default Arguments\n* `id` - `-1`\n* `global` - `false`"] # [doc = ""] # [inline] pub fn add_icon_check_shortcut (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , shortcut : impl AsArg < crate :: generated :: short_cut :: ShortCut > , id : i64 , global : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_icon_check_shortcut ; let ret = crate :: icalls :: icallptr_void_obj_obj_i64_bool (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , shortcut . as_arg_ptr () , id , global) ; } } # [doc = "Adds a new item with text `label` and icon `texture`.\nAn `id` can optionally be provided, as well as an accelerator (`accel`). If no `id` is provided, one will be created from the index. If no `accel` is provided then the default `0` will be assigned to it. See [method get_item_accelerator] for more info on accelerators.\n# Default Arguments\n* `id` - `-1`\n* `accel` - `0`"] # [doc = ""] # [inline] pub fn add_icon_item (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , label : impl Into < GodotString > , id : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_icon_item ; let ret = crate :: icalls :: icallptr_void_obj_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , label . into () , id , accel) ; } } # [doc = "Same as [method add_icon_check_item], but uses a radio check button.\n# Default Arguments\n* `id` - `-1`\n* `accel` - `0`"] # [doc = ""] # [inline] pub fn add_icon_radio_check_item (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , label : impl Into < GodotString > , id : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_icon_radio_check_item ; let ret = crate :: icalls :: icallptr_void_obj_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , label . into () , id , accel) ; } } # [doc = "Same as [method add_icon_check_shortcut], but uses a radio check button.\n# Default Arguments\n* `id` - `-1`\n* `global` - `false`"] # [doc = ""] # [inline] pub fn add_icon_radio_check_shortcut (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , shortcut : impl AsArg < crate :: generated :: short_cut :: ShortCut > , id : i64 , global : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_icon_radio_check_shortcut ; let ret = crate :: icalls :: icallptr_void_obj_obj_i64_bool (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , shortcut . as_arg_ptr () , id , global) ; } } # [doc = "Adds a new item and assigns the specified [ShortCut] and icon `texture` to it. Sets the label of the checkbox to the [ShortCut]'s name.\nAn `id` can optionally be provided. If no `id` is provided, one will be created from the index.\n# Default Arguments\n* `id` - `-1`\n* `global` - `false`"] # [doc = ""] # [inline] pub fn add_icon_shortcut (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , shortcut : impl AsArg < crate :: generated :: short_cut :: ShortCut > , id : i64 , global : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_icon_shortcut ; let ret = crate :: icalls :: icallptr_void_obj_obj_i64_bool (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , shortcut . as_arg_ptr () , id , global) ; } } # [doc = "Adds a new item with text `label`.\nAn `id` can optionally be provided, as well as an accelerator (`accel`). If no `id` is provided, one will be created from the index. If no `accel` is provided then the default `0` will be assigned to it. See [method get_item_accelerator] for more info on accelerators.\n# Default Arguments\n* `id` - `-1`\n* `accel` - `0`"] # [doc = ""] # [inline] pub fn add_item (& self , label : impl Into < GodotString > , id : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_item ; let ret = crate :: icalls :: icallptr_void_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , id , accel) ; } } # [doc = "Adds a new multistate item with text `label`.\nContrarily to normal binary items, multistate items can have more than two states, as defined by `max_states`. Each press or activate of the item will increase the state by one. The default value is defined by `default_state`.\nAn `id` can optionally be provided, as well as an accelerator (`accel`). If no `id` is provided, one will be created from the index. If no `accel` is provided then the default `0` will be assigned to it. See [method get_item_accelerator] for more info on accelerators.\n# Default Arguments\n* `default_state` - `0`\n* `id` - `-1`\n* `accel` - `0`"] # [doc = ""] # [inline] pub fn add_multistate_item (& self , label : impl Into < GodotString > , max_states : i64 , default_state : i64 , id : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_multistate_item ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , max_states , default_state , id , accel) ; } } # [doc = "Adds a new radio check button with text `label`.\nAn `id` can optionally be provided, as well as an accelerator (`accel`). If no `id` is provided, one will be created from the index. If no `accel` is provided then the default `0` will be assigned to it. See [method get_item_accelerator] for more info on accelerators.\n**Note:** Checkable items just display a checkmark, but don't have any built-in checking behavior and must be checked/unchecked manually. See [method set_item_checked] for more info on how to control it.\n# Default Arguments\n* `id` - `-1`\n* `accel` - `0`"] # [doc = ""] # [inline] pub fn add_radio_check_item (& self , label : impl Into < GodotString > , id : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_radio_check_item ; let ret = crate :: icalls :: icallptr_void_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , id , accel) ; } } # [doc = "Adds a new radio check button and assigns a [ShortCut] to it. Sets the label of the checkbox to the [ShortCut]'s name.\nAn `id` can optionally be provided. If no `id` is provided, one will be created from the index.\n**Note:** Checkable items just display a checkmark, but don't have any built-in checking behavior and must be checked/unchecked manually. See [method set_item_checked] for more info on how to control it.\n# Default Arguments\n* `id` - `-1`\n* `global` - `false`"] # [doc = ""] # [inline] pub fn add_radio_check_shortcut (& self , shortcut : impl AsArg < crate :: generated :: short_cut :: ShortCut > , id : i64 , global : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_radio_check_shortcut ; let ret = crate :: icalls :: icallptr_void_obj_i64_bool (method_bind , self . this . sys () . as_ptr () , shortcut . as_arg_ptr () , id , global) ; } } # [doc = "Adds a separator between items. Separators also occupy an index.\n# Default Arguments\n* `label` - `\"\"`"] # [doc = ""] # [inline] pub fn add_separator (& self , label : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_separator ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , id) ; } } # [doc = "Adds a [ShortCut].\nAn `id` can optionally be provided. If no `id` is provided, one will be created from the index.\n# Default Arguments\n* `id` - `-1`\n* `global` - `false`"] # [doc = ""] # [inline] pub fn add_shortcut (& self , shortcut : impl AsArg < crate :: generated :: short_cut :: ShortCut > , id : i64 , global : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_shortcut ; let ret = crate :: icalls :: icallptr_void_obj_i64_bool (method_bind , self . this . sys () . as_ptr () , shortcut . as_arg_ptr () , id , global) ; } } # [doc = "Adds an item that will act as a submenu of the parent [PopupMenu] node when clicked. The `submenu` argument is the name of the child [PopupMenu] node that will be shown when the item is clicked.\nAn `id` can optionally be provided. If no `id` is provided, one will be created from the index.\n# Default Arguments\n* `id` - `-1`"] # [doc = ""] # [inline] pub fn add_submenu_item (& self , label : impl Into < GodotString > , submenu : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . add_submenu_item ; let ret = crate :: icalls :: icallptr_void_str_str_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , submenu . into () , id) ; } } # [doc = "Removes all items from the [PopupMenu]."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, allows to navigate [PopupMenu] with letter keys."] # [doc = ""] # [inline] pub fn allow_search (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_allow_search ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_current_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_current_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the accelerator of the item at index `idx`. Accelerators are special combinations of keys that activate the item, no matter which control is focused."] # [doc = ""] # [inline] pub fn get_item_accelerator (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_item_accelerator ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the number of items in the [PopupMenu]."] # [doc = ""] # [inline] pub fn get_item_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: 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 = PopupMenuMethodTable :: 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`. `id` can be manually assigned, while index can not."] # [doc = ""] # [inline] pub fn get_item_id (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: 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 containing the specified `id`. Index is automatically assigned to each item by the engine. Index can not be set manually."] # [doc = ""] # [inline] pub fn get_item_index (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_item_index ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns the metadata of the specified item, which might be of any type. You can set it with [method set_item_metadata], which provides a simple way of assigning context data to items."] # [doc = ""] # [inline] pub fn get_item_metadata (& self , idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: 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 [ShortCut] associated with the specified `idx` item."] # [doc = ""] # [inline] pub fn get_item_shortcut (& self , idx : i64) -> Option < Ref < crate :: generated :: short_cut :: ShortCut , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_item_shortcut ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: short_cut :: ShortCut , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the submenu name of the item at index `idx`. See [method add_submenu_item] for more info on how to add a submenu."] # [doc = ""] # [inline] pub fn get_item_submenu (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_item_submenu ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: 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 = PopupMenuMethodTable :: 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 tooltip associated with the specified index index `idx`."] # [doc = ""] # [inline] pub fn get_item_tooltip (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_item_tooltip ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Sets the delay time in seconds for the submenu item to popup on mouse hovering. If the popup menu is added as a child of another (acting as a submenu), it will inherit the delay time of the parent menu item."] # [doc = ""] # [inline] pub fn submenu_popup_delay (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . get_submenu_popup_delay ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, hides the [PopupMenu] when a checkbox or radio button is selected."] # [doc = ""] # [inline] pub fn is_hide_on_checkable_item_selection (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_hide_on_checkable_item_selection ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, hides the [PopupMenu] when an item is selected."] # [doc = ""] # [inline] pub fn is_hide_on_item_selection (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_hide_on_item_selection ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, hides the [PopupMenu] when a state item is selected."] # [doc = ""] # [inline] pub fn is_hide_on_state_item_selection (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_hide_on_state_item_selection ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the popup will be hidden when the window loses focus or not."] # [doc = ""] # [inline] pub fn is_hide_on_window_lose_focus (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_hide_on_window_lose_focus ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the item at index `idx` is checkable in some way, i.e. if it has a checkbox or radio button.\n**Note:** Checkable items just display a checkmark or radio button, but don't have any built-in checking behavior and must be checked/unchecked manually."] # [doc = ""] # [inline] pub fn is_item_checkable (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_item_checkable ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if the item at index `idx` is checked."] # [doc = ""] # [inline] pub fn is_item_checked (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_item_checked ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if the item at index `idx` is disabled. When it is disabled it can't be selected, or its action invoked.\nSee [method set_item_disabled] for more info on how to disable an item."] # [doc = ""] # [inline] pub fn is_item_disabled (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_item_disabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if the item at index `idx` has radio button-style checkability.\n**Note:** This is purely cosmetic; you must add the logic for checking/unchecking items in radio groups."] # [doc = ""] # [inline] pub fn is_item_radio_checkable (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_item_radio_checkable ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if the item is a separator. If it is, it will be displayed as a line. See [method add_separator] for more info on how to add a separator."] # [doc = ""] # [inline] pub fn is_item_separator (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_item_separator ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if the specified item's shortcut is disabled."] # [doc = ""] # [inline] pub fn is_item_shortcut_disabled (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . is_item_shortcut_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` from the menu.\n**Note:** The indices of items after the removed item will be shifted by one."] # [doc = ""] # [inline] pub fn remove_item (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . remove_item ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "If `true`, allows to navigate [PopupMenu] with letter keys."] # [doc = ""] # [inline] pub fn set_allow_search (& self , allow : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_allow_search ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , allow) ; } } # [doc = "If `true`, hides the [PopupMenu] when a checkbox or radio button is selected."] # [doc = ""] # [inline] pub fn set_hide_on_checkable_item_selection (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_hide_on_checkable_item_selection ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, hides the [PopupMenu] when an item is selected."] # [doc = ""] # [inline] pub fn set_hide_on_item_selection (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_hide_on_item_selection ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, hides the [PopupMenu] when a state item is selected."] # [doc = ""] # [inline] pub fn set_hide_on_state_item_selection (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_hide_on_state_item_selection ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Hides the [PopupMenu] when the window loses focus."] # [doc = ""] # [inline] pub fn set_hide_on_window_lose_focus (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_hide_on_window_lose_focus ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets the accelerator of the item at index `idx`. Accelerators are special combinations of keys that activate the item, no matter which control is focused."] # [doc = ""] # [inline] pub fn set_item_accelerator (& self , idx : i64 , accel : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_accelerator ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , accel) ; } } # [doc = "Sets whether the item at index `idx` has a checkbox. If `false`, sets the type of the item to plain text.\n**Note:** Checkable items just display a checkmark, but don't have any built-in checking behavior and must be checked/unchecked manually."] # [doc = ""] # [inline] pub fn set_item_as_checkable (& self , idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_as_checkable ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , enable) ; } } # [doc = "Sets the type of the item at the specified index `idx` to radio button. If `false`, sets the type of the item to plain text."] # [doc = ""] # [inline] pub fn set_item_as_radio_checkable (& self , idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_as_radio_checkable ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , enable) ; } } # [doc = "Mark the item at index `idx` as a separator, which means that it would be displayed as a line. If `false`, sets the type of the item to plain text."] # [doc = ""] # [inline] pub fn set_item_as_separator (& self , idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_as_separator ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , enable) ; } } # [doc = "Sets the checkstate status of the item at index `idx`."] # [doc = ""] # [inline] pub fn set_item_checked (& self , idx : i64 , checked : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_checked ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , checked) ; } } # [doc = "Enables/disables the item at index `idx`. When it is disabled, it can't be selected and its action can't be invoked."] # [doc = ""] # [inline] pub fn set_item_disabled (& self , idx : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_disabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , disabled) ; } } # [doc = "Replaces the [Texture] icon of the specified `idx`."] # [doc = ""] # [inline] pub fn set_item_icon (& self , idx : i64 , icon : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_icon ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , idx , icon . 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 = PopupMenuMethodTable :: 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, which may be of any type. You can later get it with [method get_item_metadata], which provides a simple way of assigning context data to items."] # [doc = ""] # [inline] pub fn set_item_metadata (& self , idx : i64 , metadata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: 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 state of an multistate item. See [method add_multistate_item] for details."] # [doc = ""] # [inline] pub fn set_item_multistate (& self , idx : i64 , state : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_multistate ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , state) ; } } # [doc = "Sets a [ShortCut] for the specified item `idx`.\n# Default Arguments\n* `global` - `false`"] # [doc = ""] # [inline] pub fn set_item_shortcut (& self , idx : i64 , shortcut : impl AsArg < crate :: generated :: short_cut :: ShortCut > , global : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_shortcut ; let ret = crate :: icalls :: icallptr_void_i64_obj_bool (method_bind , self . this . sys () . as_ptr () , idx , shortcut . as_arg_ptr () , global) ; } } # [doc = "Disables the [ShortCut] of the specified index `idx`."] # [doc = ""] # [inline] pub fn set_item_shortcut_disabled (& self , idx : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_shortcut_disabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , disabled) ; } } # [doc = "Sets the submenu of the item at index `idx`. The submenu is the name of a child [PopupMenu] node that would be shown when the item is clicked."] # [doc = ""] # [inline] pub fn set_item_submenu (& self , idx : i64 , submenu : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_submenu ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , idx , submenu . into ()) ; } } # [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 = PopupMenuMethodTable :: get (get_api ()) . set_item_text ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , idx , text . into ()) ; } } # [doc = "Sets the [String] tooltip of the item at the specified index `idx`."] # [doc = ""] # [inline] pub fn set_item_tooltip (& self , idx : i64 , tooltip : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_item_tooltip ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , idx , tooltip . into ()) ; } } # [doc = "Sets the delay time in seconds for the submenu item to popup on mouse hovering. If the popup menu is added as a child of another (acting as a submenu), it will inherit the delay time of the parent menu item."] # [doc = ""] # [inline] pub fn set_submenu_popup_delay (& self , seconds : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . set_submenu_popup_delay ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , seconds) ; } } # [doc = "Toggles the check state of the item of the specified index `idx`."] # [doc = ""] # [inline] pub fn toggle_item_checked (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . toggle_item_checked ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Cycle to the next state of an multistate item. See [method add_multistate_item] for details."] # [doc = ""] # [inline] pub fn toggle_item_multistate (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PopupMenuMethodTable :: get (get_api ()) . toggle_item_multistate ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PopupMenu { } unsafe impl GodotObject for PopupMenu { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "PopupMenu" } } impl QueueFree for PopupMenu { # [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 PopupMenu { type Target = crate :: generated :: popup :: Popup ; # [inline] fn deref (& self) -> & crate :: generated :: popup :: Popup { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PopupMenu { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: popup :: Popup { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: popup :: Popup > for PopupMenu { } unsafe impl SubClass < crate :: generated :: control :: Control > for PopupMenu { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for PopupMenu { } unsafe impl SubClass < crate :: generated :: node :: Node > for PopupMenu { } unsafe impl SubClass < crate :: generated :: object :: Object > for PopupMenu { } impl Instanciable for PopupMenu { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PopupMenu :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PopupMenuMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_check_item : * mut sys :: godot_method_bind , pub add_check_shortcut : * mut sys :: godot_method_bind , pub add_icon_check_item : * mut sys :: godot_method_bind , pub add_icon_check_shortcut : * mut sys :: godot_method_bind , pub add_icon_item : * mut sys :: godot_method_bind , pub add_icon_radio_check_item : * mut sys :: godot_method_bind , pub add_icon_radio_check_shortcut : * mut sys :: godot_method_bind , pub add_icon_shortcut : * mut sys :: godot_method_bind , pub add_item : * mut sys :: godot_method_bind , pub add_multistate_item : * mut sys :: godot_method_bind , pub add_radio_check_item : * mut sys :: godot_method_bind , pub add_radio_check_shortcut : * mut sys :: godot_method_bind , pub add_separator : * mut sys :: godot_method_bind , pub add_shortcut : * mut sys :: godot_method_bind , pub add_submenu_item : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_allow_search : * mut sys :: godot_method_bind , pub get_current_index : * mut sys :: godot_method_bind , pub get_item_accelerator : * 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_shortcut : * mut sys :: godot_method_bind , pub get_item_submenu : * mut sys :: godot_method_bind , pub get_item_text : * mut sys :: godot_method_bind , pub get_item_tooltip : * mut sys :: godot_method_bind , pub get_submenu_popup_delay : * mut sys :: godot_method_bind , pub is_hide_on_checkable_item_selection : * mut sys :: godot_method_bind , pub is_hide_on_item_selection : * mut sys :: godot_method_bind , pub is_hide_on_state_item_selection : * mut sys :: godot_method_bind , pub is_hide_on_window_lose_focus : * mut sys :: godot_method_bind , pub is_item_checkable : * mut sys :: godot_method_bind , pub is_item_checked : * mut sys :: godot_method_bind , pub is_item_disabled : * mut sys :: godot_method_bind , pub is_item_radio_checkable : * mut sys :: godot_method_bind , pub is_item_separator : * mut sys :: godot_method_bind , pub is_item_shortcut_disabled : * mut sys :: godot_method_bind , pub remove_item : * mut sys :: godot_method_bind , pub set_allow_search : * mut sys :: godot_method_bind , pub set_hide_on_checkable_item_selection : * mut sys :: godot_method_bind , pub set_hide_on_item_selection : * mut sys :: godot_method_bind , pub set_hide_on_state_item_selection : * mut sys :: godot_method_bind , pub set_hide_on_window_lose_focus : * mut sys :: godot_method_bind , pub set_item_accelerator : * mut sys :: godot_method_bind , pub set_item_as_checkable : * mut sys :: godot_method_bind , pub set_item_as_radio_checkable : * mut sys :: godot_method_bind , pub set_item_as_separator : * mut sys :: godot_method_bind , pub set_item_checked : * 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_multistate : * mut sys :: godot_method_bind , pub set_item_shortcut : * mut sys :: godot_method_bind , pub set_item_shortcut_disabled : * mut sys :: godot_method_bind , pub set_item_submenu : * mut sys :: godot_method_bind , pub set_item_text : * mut sys :: godot_method_bind , pub set_item_tooltip : * mut sys :: godot_method_bind , pub set_submenu_popup_delay : * mut sys :: godot_method_bind , pub toggle_item_checked : * mut sys :: godot_method_bind , pub toggle_item_multistate : * mut sys :: godot_method_bind } impl PopupMenuMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PopupMenuMethodTable = PopupMenuMethodTable { class_constructor : None , add_check_item : 0 as * mut sys :: godot_method_bind , add_check_shortcut : 0 as * mut sys :: godot_method_bind , add_icon_check_item : 0 as * mut sys :: godot_method_bind , add_icon_check_shortcut : 0 as * mut sys :: godot_method_bind , add_icon_item : 0 as * mut sys :: godot_method_bind , add_icon_radio_check_item : 0 as * mut sys :: godot_method_bind , add_icon_radio_check_shortcut : 0 as * mut sys :: godot_method_bind , add_icon_shortcut : 0 as * mut sys :: godot_method_bind , add_item : 0 as * mut sys :: godot_method_bind , add_multistate_item : 0 as * mut sys :: godot_method_bind , add_radio_check_item : 0 as * mut sys :: godot_method_bind , add_radio_check_shortcut : 0 as * mut sys :: godot_method_bind , add_separator : 0 as * mut sys :: godot_method_bind , add_shortcut : 0 as * mut sys :: godot_method_bind , add_submenu_item : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_allow_search : 0 as * mut sys :: godot_method_bind , get_current_index : 0 as * mut sys :: godot_method_bind , get_item_accelerator : 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_shortcut : 0 as * mut sys :: godot_method_bind , get_item_submenu : 0 as * mut sys :: godot_method_bind , get_item_text : 0 as * mut sys :: godot_method_bind , get_item_tooltip : 0 as * mut sys :: godot_method_bind , get_submenu_popup_delay : 0 as * mut sys :: godot_method_bind , is_hide_on_checkable_item_selection : 0 as * mut sys :: godot_method_bind , is_hide_on_item_selection : 0 as * mut sys :: godot_method_bind , is_hide_on_state_item_selection : 0 as * mut sys :: godot_method_bind , is_hide_on_window_lose_focus : 0 as * mut sys :: godot_method_bind , is_item_checkable : 0 as * mut sys :: godot_method_bind , is_item_checked : 0 as * mut sys :: godot_method_bind , is_item_disabled : 0 as * mut sys :: godot_method_bind , is_item_radio_checkable : 0 as * mut sys :: godot_method_bind , is_item_separator : 0 as * mut sys :: godot_method_bind , is_item_shortcut_disabled : 0 as * mut sys :: godot_method_bind , remove_item : 0 as * mut sys :: godot_method_bind , set_allow_search : 0 as * mut sys :: godot_method_bind , set_hide_on_checkable_item_selection : 0 as * mut sys :: godot_method_bind , set_hide_on_item_selection : 0 as * mut sys :: godot_method_bind , set_hide_on_state_item_selection : 0 as * mut sys :: godot_method_bind , set_hide_on_window_lose_focus : 0 as * mut sys :: godot_method_bind , set_item_accelerator : 0 as * mut sys :: godot_method_bind , set_item_as_checkable : 0 as * mut sys :: godot_method_bind , set_item_as_radio_checkable : 0 as * mut sys :: godot_method_bind , set_item_as_separator : 0 as * mut sys :: godot_method_bind , set_item_checked : 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_multistate : 0 as * mut sys :: godot_method_bind , set_item_shortcut : 0 as * mut sys :: godot_method_bind , set_item_shortcut_disabled : 0 as * mut sys :: godot_method_bind , set_item_submenu : 0 as * mut sys :: godot_method_bind , set_item_text : 0 as * mut sys :: godot_method_bind , set_item_tooltip : 0 as * mut sys :: godot_method_bind , set_submenu_popup_delay : 0 as * mut sys :: godot_method_bind , toggle_item_checked : 0 as * mut sys :: godot_method_bind , toggle_item_multistate : 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 (|| { PopupMenuMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PopupMenu\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_check_item = (gd_api . godot_method_bind_get_method) (class_name , "add_check_item\0" . as_ptr () as * const c_char) ; table . add_check_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "add_check_shortcut\0" . as_ptr () as * const c_char) ; table . add_icon_check_item = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_check_item\0" . as_ptr () as * const c_char) ; table . add_icon_check_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_check_shortcut\0" . as_ptr () as * const c_char) ; 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_icon_radio_check_item = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_radio_check_item\0" . as_ptr () as * const c_char) ; table . add_icon_radio_check_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_radio_check_shortcut\0" . as_ptr () as * const c_char) ; table . add_icon_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_shortcut\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_multistate_item = (gd_api . godot_method_bind_get_method) (class_name , "add_multistate_item\0" . as_ptr () as * const c_char) ; table . add_radio_check_item = (gd_api . godot_method_bind_get_method) (class_name , "add_radio_check_item\0" . as_ptr () as * const c_char) ; table . add_radio_check_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "add_radio_check_shortcut\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 . add_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "add_shortcut\0" . as_ptr () as * const c_char) ; table . add_submenu_item = (gd_api . godot_method_bind_get_method) (class_name , "add_submenu_item\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_allow_search = (gd_api . godot_method_bind_get_method) (class_name , "get_allow_search\0" . as_ptr () as * const c_char) ; table . get_current_index = (gd_api . godot_method_bind_get_method) (class_name , "get_current_index\0" . as_ptr () as * const c_char) ; table . get_item_accelerator = (gd_api . godot_method_bind_get_method) (class_name , "get_item_accelerator\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_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "get_item_shortcut\0" . as_ptr () as * const c_char) ; table . get_item_submenu = (gd_api . godot_method_bind_get_method) (class_name , "get_item_submenu\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_item_tooltip = (gd_api . godot_method_bind_get_method) (class_name , "get_item_tooltip\0" . as_ptr () as * const c_char) ; table . get_submenu_popup_delay = (gd_api . godot_method_bind_get_method) (class_name , "get_submenu_popup_delay\0" . as_ptr () as * const c_char) ; table . is_hide_on_checkable_item_selection = (gd_api . godot_method_bind_get_method) (class_name , "is_hide_on_checkable_item_selection\0" . as_ptr () as * const c_char) ; table . is_hide_on_item_selection = (gd_api . godot_method_bind_get_method) (class_name , "is_hide_on_item_selection\0" . as_ptr () as * const c_char) ; table . is_hide_on_state_item_selection = (gd_api . godot_method_bind_get_method) (class_name , "is_hide_on_state_item_selection\0" . as_ptr () as * const c_char) ; table . is_hide_on_window_lose_focus = (gd_api . godot_method_bind_get_method) (class_name , "is_hide_on_window_lose_focus\0" . as_ptr () as * const c_char) ; table . is_item_checkable = (gd_api . godot_method_bind_get_method) (class_name , "is_item_checkable\0" . as_ptr () as * const c_char) ; table . is_item_checked = (gd_api . godot_method_bind_get_method) (class_name , "is_item_checked\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 . is_item_radio_checkable = (gd_api . godot_method_bind_get_method) (class_name , "is_item_radio_checkable\0" . as_ptr () as * const c_char) ; table . is_item_separator = (gd_api . godot_method_bind_get_method) (class_name , "is_item_separator\0" . as_ptr () as * const c_char) ; table . is_item_shortcut_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_item_shortcut_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 . set_allow_search = (gd_api . godot_method_bind_get_method) (class_name , "set_allow_search\0" . as_ptr () as * const c_char) ; table . set_hide_on_checkable_item_selection = (gd_api . godot_method_bind_get_method) (class_name , "set_hide_on_checkable_item_selection\0" . as_ptr () as * const c_char) ; table . set_hide_on_item_selection = (gd_api . godot_method_bind_get_method) (class_name , "set_hide_on_item_selection\0" . as_ptr () as * const c_char) ; table . set_hide_on_state_item_selection = (gd_api . godot_method_bind_get_method) (class_name , "set_hide_on_state_item_selection\0" . as_ptr () as * const c_char) ; table . set_hide_on_window_lose_focus = (gd_api . godot_method_bind_get_method) (class_name , "set_hide_on_window_lose_focus\0" . as_ptr () as * const c_char) ; table . set_item_accelerator = (gd_api . godot_method_bind_get_method) (class_name , "set_item_accelerator\0" . as_ptr () as * const c_char) ; table . set_item_as_checkable = (gd_api . godot_method_bind_get_method) (class_name , "set_item_as_checkable\0" . as_ptr () as * const c_char) ; table . set_item_as_radio_checkable = (gd_api . godot_method_bind_get_method) (class_name , "set_item_as_radio_checkable\0" . as_ptr () as * const c_char) ; table . set_item_as_separator = (gd_api . godot_method_bind_get_method) (class_name , "set_item_as_separator\0" . as_ptr () as * const c_char) ; table . set_item_checked = (gd_api . godot_method_bind_get_method) (class_name , "set_item_checked\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_multistate = (gd_api . godot_method_bind_get_method) (class_name , "set_item_multistate\0" . as_ptr () as * const c_char) ; table . set_item_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "set_item_shortcut\0" . as_ptr () as * const c_char) ; table . set_item_shortcut_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_item_shortcut_disabled\0" . as_ptr () as * const c_char) ; table . set_item_submenu = (gd_api . godot_method_bind_get_method) (class_name , "set_item_submenu\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) ; table . set_item_tooltip = (gd_api . godot_method_bind_get_method) (class_name , "set_item_tooltip\0" . as_ptr () as * const c_char) ; table . set_submenu_popup_delay = (gd_api . godot_method_bind_get_method) (class_name , "set_submenu_popup_delay\0" . as_ptr () as * const c_char) ; table . toggle_item_checked = (gd_api . godot_method_bind_get_method) (class_name , "toggle_item_checked\0" . as_ptr () as * const c_char) ; table . toggle_item_multistate = (gd_api . godot_method_bind_get_method) (class_name , "toggle_item_multistate\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-60c8dbcfaf0f3dfc/out/generated.rs:16:4643 [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 = "`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-60c8dbcfaf0f3dfc/out/generated.rs:22:4483 [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 RectangleShape2D` inherits `Shape2D` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_rectangleshape2d.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\nRectangleShape2D inherits methods from:\n - [Shape2D](struct.Shape2D.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 RectangleShape2D { this : RawObject < Self > , } impl RectangleShape2D { # [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 = RectangleShape2DMethodTable :: 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 rectangle's half extents. The width and height of this shape is twice the half extents."] # [doc = ""] # [inline] pub fn extents (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RectangleShape2DMethodTable :: get (get_api ()) . get_extents ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The rectangle's half extents. The width and height of this shape is twice the half extents."] # [doc = ""] # [inline] pub fn set_extents (& self , extents : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RectangleShape2DMethodTable :: get (get_api ()) . set_extents ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , extents) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RectangleShape2D { } unsafe impl GodotObject for RectangleShape2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "RectangleShape2D" } } impl std :: ops :: Deref for RectangleShape2D { type Target = crate :: generated :: shape_2d :: Shape2D ; # [inline] fn deref (& self) -> & crate :: generated :: shape_2d :: Shape2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RectangleShape2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape_2d :: Shape2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape_2d :: Shape2D > for RectangleShape2D { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for RectangleShape2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for RectangleShape2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for RectangleShape2D { } impl Instanciable for RectangleShape2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RectangleShape2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RectangleShape2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_extents : * mut sys :: godot_method_bind , pub set_extents : * mut sys :: godot_method_bind } impl RectangleShape2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RectangleShape2DMethodTable = RectangleShape2DMethodTable { class_constructor : None , get_extents : 0 as * mut sys :: godot_method_bind , set_extents : 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 (|| { RectangleShape2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RectangleShape2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_extents = (gd_api . godot_method_bind_get_method) (class_name , "get_extents\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) ; } } } [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-60c8dbcfaf0f3dfc/out/generated.rs:28:8095 [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 WebSocketClient` inherits `WebSocketMultiplayerPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_websocketclient.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\nWebSocketClient inherits methods from:\n - [WebSocketMultiplayerPeer](struct.WebSocketMultiplayerPeer.html)\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 WebSocketClient { this : RawObject < Self > , } impl WebSocketClient { # [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 = WebSocketClientMethodTable :: 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_url (& self , url : impl Into < GodotString > , protocols : StringArray , gd_mp_api : bool , custom_headers : StringArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketClientMethodTable :: get (get_api ()) . connect_to_url ; let ret = crate :: icalls :: icallptr_i64_str_strarr_bool_strarr (method_bind , self . this . sys () . as_ptr () , url . into () , protocols , gd_mp_api , custom_headers) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn disconnect_from_host (& self , code : i64 , reason : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketClientMethodTable :: get (get_api ()) . disconnect_from_host ; 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 = WebSocketClientMethodTable :: 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 = WebSocketClientMethodTable :: 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 trusted_ssl_certificate (& self) -> Option < Ref < crate :: generated :: x509_certificate :: X509Certificate , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketClientMethodTable :: get (get_api ()) . get_trusted_ssl_certificate ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: x509_certificate :: X509Certificate , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_verify_ssl_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketClientMethodTable :: get (get_api ()) . is_verify_ssl_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_trusted_ssl_certificate (& self , arg0 : impl AsArg < crate :: generated :: x509_certificate :: X509Certificate >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketClientMethodTable :: get (get_api ()) . set_trusted_ssl_certificate ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , arg0 . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_verify_ssl_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebSocketClientMethodTable :: get (get_api ()) . set_verify_ssl_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for WebSocketClient { } unsafe impl GodotObject for WebSocketClient { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "WebSocketClient" } } impl std :: ops :: Deref for WebSocketClient { type Target = crate :: generated :: web_socket_multiplayer_peer :: WebSocketMultiplayerPeer ; # [inline] fn deref (& self) -> & crate :: generated :: web_socket_multiplayer_peer :: WebSocketMultiplayerPeer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WebSocketClient { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: web_socket_multiplayer_peer :: WebSocketMultiplayerPeer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: web_socket_multiplayer_peer :: WebSocketMultiplayerPeer > for WebSocketClient { } unsafe impl SubClass < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer > for WebSocketClient { } unsafe impl SubClass < crate :: generated :: packet_peer :: PacketPeer > for WebSocketClient { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for WebSocketClient { } unsafe impl SubClass < crate :: generated :: object :: Object > for WebSocketClient { } impl Instanciable for WebSocketClient { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { WebSocketClient :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WebSocketClientMethodTable { pub class_constructor : sys :: godot_class_constructor , pub connect_to_url : * 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_trusted_ssl_certificate : * mut sys :: godot_method_bind , pub is_verify_ssl_enabled : * mut sys :: godot_method_bind , pub set_trusted_ssl_certificate : * mut sys :: godot_method_bind , pub set_verify_ssl_enabled : * mut sys :: godot_method_bind } impl WebSocketClientMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WebSocketClientMethodTable = WebSocketClientMethodTable { class_constructor : None , connect_to_url : 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_trusted_ssl_certificate : 0 as * mut sys :: godot_method_bind , is_verify_ssl_enabled : 0 as * mut sys :: godot_method_bind , set_trusted_ssl_certificate : 0 as * mut sys :: godot_method_bind , set_verify_ssl_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 (|| { WebSocketClientMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WebSocketClient\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . connect_to_url = (gd_api . godot_method_bind_get_method) (class_name , "connect_to_url\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_trusted_ssl_certificate = (gd_api . godot_method_bind_get_method) (class_name , "get_trusted_ssl_certificate\0" . as_ptr () as * const c_char) ; table . is_verify_ssl_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_verify_ssl_enabled\0" . as_ptr () as * const c_char) ; table . set_trusted_ssl_certificate = (gd_api . godot_method_bind_get_method) (class_name , "set_trusted_ssl_certificate\0" . as_ptr () as * const c_char) ; table . set_verify_ssl_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_verify_ssl_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-60c8dbcfaf0f3dfc/out/generated.rs:34:6340 [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 Thread` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_thread.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\nThread 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 Thread { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Priority (pub i64) ; impl Priority { pub const LOW : Priority = Priority (0i64) ; pub const NORMAL : Priority = Priority (1i64) ; pub const HIGH : Priority = Priority (2i64) ; } impl From < i64 > for Priority { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Priority > for i64 { # [inline] fn from (v : Priority) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Thread { pub const PRIORITY_HIGH : i64 = 2i64 ; pub const PRIORITY_LOW : i64 = 0i64 ; pub const PRIORITY_NORMAL : i64 = 1i64 ; } impl Thread { # [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 = ThreadMethodTable :: 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 current [Thread]'s ID, uniquely identifying it among all threads. If the [Thread] is not running this returns an empty string."] # [doc = ""] # [inline] pub fn get_id (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ThreadMethodTable :: get (get_api ()) . get_id ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if this [Thread] is currently active. An active [Thread] cannot start work on a new method but can be joined with [method wait_to_finish]."] # [doc = ""] # [inline] pub fn is_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ThreadMethodTable :: get (get_api ()) . is_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Starts a new [Thread] that runs `method` on object `instance` with `userdata` passed as an argument. Even if no userdata is passed, `method` must accept one argument and it will be null. The `priority` of the [Thread] can be changed by passing a value from the [enum Priority] enum.\nReturns [constant OK] on success, or [constant ERR_CANT_CREATE] on failure.\n# Default Arguments\n* `userdata` - `null`\n* `priority` - `1`"] # [doc = ""] # [inline] pub fn start (& self , instance : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString > , userdata : impl OwnedToVariant , priority : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ThreadMethodTable :: get (get_api ()) . start ; let ret = crate :: icalls :: icallptr_i64_obj_str_var_i64 (method_bind , self . this . sys () . as_ptr () , instance . as_arg_ptr () , method . into () , userdata . owned_to_variant () , priority) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Joins the [Thread] and waits for it to finish. Returns what the method called returned."] # [doc = ""] # [inline] pub fn wait_to_finish (& self) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ThreadMethodTable :: get (get_api ()) . wait_to_finish ; let ret = crate :: icalls :: icallptr_var (method_bind , self . this . sys () . as_ptr ()) ; Variant :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for Thread { } unsafe impl GodotObject for Thread { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Thread" } } impl std :: ops :: Deref for Thread { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Thread { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Thread { } unsafe impl SubClass < crate :: generated :: object :: Object > for Thread { } impl Instanciable for Thread { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Thread :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ThreadMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_id : * mut sys :: godot_method_bind , pub is_active : * mut sys :: godot_method_bind , pub start : * mut sys :: godot_method_bind , pub wait_to_finish : * mut sys :: godot_method_bind } impl ThreadMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ThreadMethodTable = ThreadMethodTable { class_constructor : None , get_id : 0 as * mut sys :: godot_method_bind , is_active : 0 as * mut sys :: godot_method_bind , start : 0 as * mut sys :: godot_method_bind , wait_to_finish : 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 (|| { ThreadMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "_Thread\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_id = (gd_api . godot_method_bind_get_method) (class_name , "get_id\0" . as_ptr () as * const c_char) ; table . is_active = (gd_api . godot_method_bind_get_method) (class_name , "is_active\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 . wait_to_finish = (gd_api . godot_method_bind_get_method) (class_name , "wait_to_finish\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-60c8dbcfaf0f3dfc/out/generated.rs:40:15548 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:46:7750 [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 AnimationNodeTransition` inherits `AnimationNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodetransition.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\nAnimationNodeTransition 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 AnimationNodeTransition { this : RawObject < Self > , } impl AnimationNodeTransition { # [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 = AnimationNodeTransitionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Cross-fading time (in seconds) between each animation connected to the inputs."] # [doc = ""] # [inline] pub fn cross_fade_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . get_cross_fade_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The number of available input ports for this node."] # [doc = ""] # [inline] pub fn enabled_inputs (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . get_enabled_inputs ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn input_caption (& self , input : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . get_input_caption ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , input) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_input_set_as_auto_advance (& self , input : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . is_input_set_as_auto_advance ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , input) ; ret as _ } } # [doc = "Cross-fading time (in seconds) between each animation connected to the inputs."] # [doc = ""] # [inline] pub fn set_cross_fade_time (& self , time : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . set_cross_fade_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time) ; } } # [doc = "The number of available input ports for this node."] # [doc = ""] # [inline] pub fn set_enabled_inputs (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . set_enabled_inputs ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_input_as_auto_advance (& self , input : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . set_input_as_auto_advance ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , input , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_input_caption (& self , input : i64 , caption : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeTransitionMethodTable :: get (get_api ()) . set_input_caption ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , input , caption . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeTransition { } unsafe impl GodotObject for AnimationNodeTransition { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeTransition" } } impl std :: ops :: Deref for AnimationNodeTransition { 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 AnimationNodeTransition { # [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 AnimationNodeTransition { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeTransition { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeTransition { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeTransition { } impl Instanciable for AnimationNodeTransition { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeTransition :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeTransitionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_cross_fade_time : * mut sys :: godot_method_bind , pub get_enabled_inputs : * mut sys :: godot_method_bind , pub get_input_caption : * mut sys :: godot_method_bind , pub is_input_set_as_auto_advance : * mut sys :: godot_method_bind , pub set_cross_fade_time : * mut sys :: godot_method_bind , pub set_enabled_inputs : * mut sys :: godot_method_bind , pub set_input_as_auto_advance : * mut sys :: godot_method_bind , pub set_input_caption : * mut sys :: godot_method_bind } impl AnimationNodeTransitionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeTransitionMethodTable = AnimationNodeTransitionMethodTable { class_constructor : None , get_cross_fade_time : 0 as * mut sys :: godot_method_bind , get_enabled_inputs : 0 as * mut sys :: godot_method_bind , get_input_caption : 0 as * mut sys :: godot_method_bind , is_input_set_as_auto_advance : 0 as * mut sys :: godot_method_bind , set_cross_fade_time : 0 as * mut sys :: godot_method_bind , set_enabled_inputs : 0 as * mut sys :: godot_method_bind , set_input_as_auto_advance : 0 as * mut sys :: godot_method_bind , set_input_caption : 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 (|| { AnimationNodeTransitionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeTransition\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_cross_fade_time = (gd_api . godot_method_bind_get_method) (class_name , "get_cross_fade_time\0" . as_ptr () as * const c_char) ; table . get_enabled_inputs = (gd_api . godot_method_bind_get_method) (class_name , "get_enabled_inputs\0" . as_ptr () as * const c_char) ; table . get_input_caption = (gd_api . godot_method_bind_get_method) (class_name , "get_input_caption\0" . as_ptr () as * const c_char) ; table . is_input_set_as_auto_advance = (gd_api . godot_method_bind_get_method) (class_name , "is_input_set_as_auto_advance\0" . as_ptr () as * const c_char) ; table . set_cross_fade_time = (gd_api . godot_method_bind_get_method) (class_name , "set_cross_fade_time\0" . as_ptr () as * const c_char) ; table . set_enabled_inputs = (gd_api . godot_method_bind_get_method) (class_name , "set_enabled_inputs\0" . as_ptr () as * const c_char) ; table . set_input_as_auto_advance = (gd_api . godot_method_bind_get_method) (class_name , "set_input_as_auto_advance\0" . as_ptr () as * const c_char) ; table . set_input_caption = (gd_api . godot_method_bind_get_method) (class_name , "set_input_caption\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-60c8dbcfaf0f3dfc/out/generated.rs:52:8763 [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 ARVRAnchor` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_arvranchor.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`ARVRAnchor` 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\nARVRAnchor 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 ARVRAnchor { this : RawObject < Self > , } impl ARVRAnchor { # [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 = ARVRAnchorMethodTable :: 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 anchor's ID. You can set this before the anchor itself exists. The first anchor gets an ID of `1`, the second an ID of `2`, etc. When anchors get removed, the engine can then assign the corresponding ID to new anchors. The most common situation where anchors \"disappear\" is when the AR server identifies that two anchors represent different parts of the same plane and merges them."] # [doc = ""] # [inline] pub fn anchor_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRAnchorMethodTable :: get (get_api ()) . get_anchor_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the name given to this anchor."] # [doc = ""] # [inline] pub fn get_anchor_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRAnchorMethodTable :: get (get_api ()) . get_anchor_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if the anchor is being tracked and `false` if no anchor with this ID is currently known."] # [doc = ""] # [inline] pub fn get_is_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRAnchorMethodTable :: get (get_api ()) . get_is_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If provided by the [ARVRInterface], this returns a mesh object for the anchor. For an anchor, this can be a shape related to the object being tracked or it can be a mesh that provides topology related to the anchor and can be used to create shadows/reflections on surfaces or for generating collision shapes."] # [doc = ""] # [inline] pub fn get_mesh (& self) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRAnchorMethodTable :: 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 = "Returns a plane aligned with our anchor; handy for intersection testing."] # [doc = ""] # [inline] pub fn get_plane (& self) -> Plane { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRAnchorMethodTable :: get (get_api ()) . get_plane ; let ret = crate :: icalls :: icallptr_plane (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the estimated size of the plane that was detected. Say when the anchor relates to a table in the real world, this is the estimated size of the surface of that table."] # [doc = ""] # [inline] pub fn get_size (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRAnchorMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The anchor's ID. You can set this before the anchor itself exists. The first anchor gets an ID of `1`, the second an ID of `2`, etc. When anchors get removed, the engine can then assign the corresponding ID to new anchors. The most common situation where anchors \"disappear\" is when the AR server identifies that two anchors represent different parts of the same plane and merges them."] # [doc = ""] # [inline] pub fn set_anchor_id (& self , anchor_id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRAnchorMethodTable :: get (get_api ()) . set_anchor_id ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , anchor_id) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ARVRAnchor { } unsafe impl GodotObject for ARVRAnchor { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ARVRAnchor" } } impl QueueFree for ARVRAnchor { # [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 ARVRAnchor { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ARVRAnchor { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ARVRAnchor { } unsafe impl SubClass < crate :: generated :: node :: Node > for ARVRAnchor { } unsafe impl SubClass < crate :: generated :: object :: Object > for ARVRAnchor { } impl Instanciable for ARVRAnchor { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ARVRAnchor :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ARVRAnchorMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_anchor_id : * mut sys :: godot_method_bind , pub get_anchor_name : * mut sys :: godot_method_bind , pub get_is_active : * mut sys :: godot_method_bind , pub get_mesh : * mut sys :: godot_method_bind , pub get_plane : * mut sys :: godot_method_bind , pub get_size : * mut sys :: godot_method_bind , pub set_anchor_id : * mut sys :: godot_method_bind } impl ARVRAnchorMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ARVRAnchorMethodTable = ARVRAnchorMethodTable { class_constructor : None , get_anchor_id : 0 as * mut sys :: godot_method_bind , get_anchor_name : 0 as * mut sys :: godot_method_bind , get_is_active : 0 as * mut sys :: godot_method_bind , get_mesh : 0 as * mut sys :: godot_method_bind , get_plane : 0 as * mut sys :: godot_method_bind , get_size : 0 as * mut sys :: godot_method_bind , set_anchor_id : 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 (|| { ARVRAnchorMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ARVRAnchor\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_anchor_id = (gd_api . godot_method_bind_get_method) (class_name , "get_anchor_id\0" . as_ptr () as * const c_char) ; table . get_anchor_name = (gd_api . godot_method_bind_get_method) (class_name , "get_anchor_name\0" . as_ptr () as * const c_char) ; table . get_is_active = (gd_api . godot_method_bind_get_method) (class_name , "get_is_active\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 . get_plane = (gd_api . godot_method_bind_get_method) (class_name , "get_plane\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 . set_anchor_id = (gd_api . godot_method_bind_get_method) (class_name , "set_anchor_id\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-60c8dbcfaf0f3dfc/out/generated.rs:58:4658 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:64:4444 [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 AudioEffectSpectrumAnalyzerInstance` inherits `AudioEffectInstance` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectspectrumanalyzerinstance.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\nAudioEffectSpectrumAnalyzerInstance inherits methods from:\n - [AudioEffectInstance](struct.AudioEffectInstance.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 AudioEffectSpectrumAnalyzerInstance { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MagnitudeMode (pub i64) ; impl MagnitudeMode { pub const AVERAGE : MagnitudeMode = MagnitudeMode (0i64) ; pub const MAX : MagnitudeMode = MagnitudeMode (1i64) ; } impl From < i64 > for MagnitudeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MagnitudeMode > for i64 { # [inline] fn from (v : MagnitudeMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AudioEffectSpectrumAnalyzerInstance { pub const MAGNITUDE_AVERAGE : i64 = 0i64 ; pub const MAGNITUDE_MAX : i64 = 1i64 ; } impl AudioEffectSpectrumAnalyzerInstance { # [doc = "\n# Default Arguments\n* `mode` - `1`"] # [doc = ""] # [inline] pub fn get_magnitude_for_frequency_range (& self , from_hz : f64 , to_hz : f64 , mode : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectSpectrumAnalyzerInstanceMethodTable :: get (get_api ()) . get_magnitude_for_frequency_range ; let ret = crate :: icalls :: icallptr_vec2_f64_f64_i64 (method_bind , self . this . sys () . as_ptr () , from_hz , to_hz , mode) ; mem :: transmute (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectSpectrumAnalyzerInstance { } unsafe impl GodotObject for AudioEffectSpectrumAnalyzerInstance { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectSpectrumAnalyzerInstance" } } impl std :: ops :: Deref for AudioEffectSpectrumAnalyzerInstance { type Target = crate :: generated :: audio_effect_instance :: AudioEffectInstance ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect_instance :: AudioEffectInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectSpectrumAnalyzerInstance { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect_instance :: AudioEffectInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect_instance :: AudioEffectInstance > for AudioEffectSpectrumAnalyzerInstance { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectSpectrumAnalyzerInstance { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectSpectrumAnalyzerInstance { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectSpectrumAnalyzerInstanceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_magnitude_for_frequency_range : * mut sys :: godot_method_bind } impl AudioEffectSpectrumAnalyzerInstanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectSpectrumAnalyzerInstanceMethodTable = AudioEffectSpectrumAnalyzerInstanceMethodTable { class_constructor : None , get_magnitude_for_frequency_range : 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 (|| { AudioEffectSpectrumAnalyzerInstanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectSpectrumAnalyzerInstance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_magnitude_for_frequency_range = (gd_api . godot_method_bind_get_method) (class_name , "get_magnitude_for_frequency_range\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-60c8dbcfaf0f3dfc/out/generated.rs:70:3498 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:76:4807 [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 = "`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-60c8dbcfaf0f3dfc/out/generated.rs:82:7366 [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 PrimitiveMesh` inherits `Mesh` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_primitivemesh.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\nPrimitiveMesh inherits methods from:\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 PrimitiveMesh { this : RawObject < Self > , } impl PrimitiveMesh { # [doc = "Overrides the [AABB] with one defined by user for use with frustum culling. Especially useful to avoid unnexpected culling when using a shader to offset vertices."] # [doc = ""] # [inline] pub fn custom_aabb (& self) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = PrimitiveMeshMethodTable :: get (get_api ()) . get_custom_aabb ; let ret = crate :: icalls :: icallptr_aabb (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If set, the order of the vertices in each triangle are reversed resulting in the backside of the mesh being drawn.\nThis gives the same result as using [constant SpatialMaterial.CULL_BACK] in [member SpatialMaterial.params_cull_mode]."] # [doc = ""] # [inline] pub fn flip_faces (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PrimitiveMeshMethodTable :: get (get_api ()) . get_flip_faces ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The current [Material] of the primitive mesh."] # [doc = ""] # [inline] pub fn material (& self) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = PrimitiveMeshMethodTable :: get (get_api ()) . get_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 = "_Sample code is GDScript unless otherwise noted._\n\nReturns mesh arrays used to constitute surface of [Mesh]. The result can be passed to [method ArrayMesh.add_surface_from_arrays] to create a new surface. For example:\n```gdscript\nvar c := CylinderMesh.new()\nvar arr_mesh := ArrayMesh.new()\narr_mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLES, c.get_mesh_arrays())\n```"] # [doc = ""] # [inline] pub fn get_mesh_arrays (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = PrimitiveMeshMethodTable :: get (get_api ()) . get_mesh_arrays ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Overrides the [AABB] with one defined by user for use with frustum culling. Especially useful to avoid unnexpected culling when using a shader to offset vertices."] # [doc = ""] # [inline] pub fn set_custom_aabb (& self , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PrimitiveMeshMethodTable :: get (get_api ()) . set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_aabb (method_bind , self . this . sys () . as_ptr () , aabb) ; } } # [doc = "If set, the order of the vertices in each triangle are reversed resulting in the backside of the mesh being drawn.\nThis gives the same result as using [constant SpatialMaterial.CULL_BACK] in [member SpatialMaterial.params_cull_mode]."] # [doc = ""] # [inline] pub fn set_flip_faces (& self , flip_faces : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PrimitiveMeshMethodTable :: get (get_api ()) . set_flip_faces ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , flip_faces) ; } } # [doc = "The current [Material] of the primitive mesh."] # [doc = ""] # [inline] pub fn set_material (& self , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PrimitiveMeshMethodTable :: 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 PrimitiveMesh { } unsafe impl GodotObject for PrimitiveMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PrimitiveMesh" } } impl std :: ops :: Deref for PrimitiveMesh { type Target = crate :: generated :: mesh :: Mesh ; # [inline] fn deref (& self) -> & crate :: generated :: mesh :: Mesh { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PrimitiveMesh { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: mesh :: Mesh { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: mesh :: Mesh > for PrimitiveMesh { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PrimitiveMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PrimitiveMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for PrimitiveMesh { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PrimitiveMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_custom_aabb : * mut sys :: godot_method_bind , pub get_flip_faces : * mut sys :: godot_method_bind , pub get_material : * mut sys :: godot_method_bind , pub get_mesh_arrays : * mut sys :: godot_method_bind , pub set_custom_aabb : * mut sys :: godot_method_bind , pub set_flip_faces : * mut sys :: godot_method_bind , pub set_material : * mut sys :: godot_method_bind } impl PrimitiveMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PrimitiveMeshMethodTable = PrimitiveMeshMethodTable { class_constructor : None , get_custom_aabb : 0 as * mut sys :: godot_method_bind , get_flip_faces : 0 as * mut sys :: godot_method_bind , get_material : 0 as * mut sys :: godot_method_bind , get_mesh_arrays : 0 as * mut sys :: godot_method_bind , set_custom_aabb : 0 as * mut sys :: godot_method_bind , set_flip_faces : 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 (|| { PrimitiveMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PrimitiveMesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "get_custom_aabb\0" . as_ptr () as * const c_char) ; table . get_flip_faces = (gd_api . godot_method_bind_get_method) (class_name , "get_flip_faces\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) ; table . get_mesh_arrays = (gd_api . godot_method_bind_get_method) (class_name , "get_mesh_arrays\0" . as_ptr () as * const c_char) ; table . set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "set_custom_aabb\0" . as_ptr () as * const c_char) ; table . set_flip_faces = (gd_api . godot_method_bind_get_method) (class_name , "set_flip_faces\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-60c8dbcfaf0f3dfc/out/generated.rs:88:9922 [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 Texture` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_texture.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\nTexture 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 Texture { 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 (7i64) ; pub const FLAG_ANISOTROPIC_FILTER : Flags = Flags (8i64) ; pub const FLAG_CONVERT_TO_LINEAR : Flags = Flags (16i64) ; pub const FLAG_MIRRORED_REPEAT : Flags = Flags (32i64) ; pub const FLAG_VIDEO_SURFACE : Flags = Flags (2048i64) ; } 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 Texture { pub const FLAGS_DEFAULT : i64 = 7i64 ; pub const FLAG_ANISOTROPIC_FILTER : i64 = 8i64 ; pub const FLAG_CONVERT_TO_LINEAR : i64 = 16i64 ; pub const FLAG_FILTER : i64 = 4i64 ; pub const FLAG_MIPMAPS : i64 = 1i64 ; pub const FLAG_MIRRORED_REPEAT : i64 = 32i64 ; pub const FLAG_REPEAT : i64 = 2i64 ; pub const FLAG_VIDEO_SURFACE : i64 = 2048i64 ; } impl Texture { # [doc = "Draws the texture using a [CanvasItem] with the [VisualServer] API at the specified `position`. Equivalent to [method VisualServer.canvas_item_add_texture_rect] with a rect at `position` and the size of this [Texture].\n# Default Arguments\n* `modulate` - `Color( 1, 1, 1, 1 )`\n* `transpose` - `false`\n* `normal_map` - `null`"] # [doc = ""] # [inline] pub fn draw (& self , canvas_item : Rid , position : Vector2 , modulate : Color , transpose : bool , normal_map : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . draw ; let ret = crate :: icalls :: icallptr_void_rid_vec2_color_bool_obj (method_bind , self . this . sys () . as_ptr () , canvas_item , position , modulate , transpose , normal_map . as_arg_ptr ()) ; } } # [doc = "Draws the texture using a [CanvasItem] with the [VisualServer] API. Equivalent to [method VisualServer.canvas_item_add_texture_rect].\n# Default Arguments\n* `modulate` - `Color( 1, 1, 1, 1 )`\n* `transpose` - `false`\n* `normal_map` - `null`"] # [doc = ""] # [inline] pub fn draw_rect (& self , canvas_item : Rid , rect : Rect2 , tile : bool , modulate : Color , transpose : bool , normal_map : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . draw_rect ; let ret = crate :: icalls :: icallptr_void_rid_rect2_bool_color_bool_obj (method_bind , self . this . sys () . as_ptr () , canvas_item , rect , tile , modulate , transpose , normal_map . as_arg_ptr ()) ; } } # [doc = "Draws a part of the texture using a [CanvasItem] with the [VisualServer] API. Equivalent to [method VisualServer.canvas_item_add_texture_rect_region].\n# Default Arguments\n* `modulate` - `Color( 1, 1, 1, 1 )`\n* `transpose` - `false`\n* `normal_map` - `null`\n* `clip_uv` - `true`"] # [doc = ""] # [inline] pub fn draw_rect_region (& self , canvas_item : Rid , rect : Rect2 , src_rect : Rect2 , modulate : Color , transpose : bool , normal_map : impl AsArg < crate :: generated :: texture :: Texture > , clip_uv : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . draw_rect_region ; let ret = crate :: icalls :: icallptr_void_rid_rect2_rect2_color_bool_obj_bool (method_bind , self . this . sys () . as_ptr () , canvas_item , rect , src_rect , modulate , transpose , normal_map . as_arg_ptr () , clip_uv) ; } } # [doc = "Returns an [Image] that is a copy of data from this [Texture]. [Image]s can be accessed and manipulated directly."] # [doc = ""] # [inline] pub fn get_data (& self) -> Option < Ref < crate :: generated :: image :: Image , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . get_data ; 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 = "The texture's [enum Flags]. [enum Flags] are used to set various properties of the [Texture]."] # [doc = ""] # [inline] pub fn flags (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . get_flags ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the texture height."] # [doc = ""] # [inline] pub fn get_height (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the texture size."] # [doc = ""] # [inline] pub fn get_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the texture width."] # [doc = ""] # [inline] pub fn get_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . get_width ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this [Texture] has an alpha channel."] # [doc = ""] # [inline] pub fn has_alpha (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . has_alpha ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The texture's [enum Flags]. [enum Flags] are used to set various properties of the [Texture]."] # [doc = ""] # [inline] pub fn set_flags (& self , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureMethodTable :: get (get_api ()) . set_flags ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , flags) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Texture { } unsafe impl GodotObject for Texture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Texture" } } impl std :: ops :: Deref for Texture { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Texture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Texture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Texture { } unsafe impl SubClass < crate :: generated :: object :: Object > for Texture { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub draw : * mut sys :: godot_method_bind , pub draw_rect : * mut sys :: godot_method_bind , pub draw_rect_region : * mut sys :: godot_method_bind , pub get_data : * mut sys :: godot_method_bind , pub get_flags : * mut sys :: godot_method_bind , pub get_height : * mut sys :: godot_method_bind , pub get_size : * mut sys :: godot_method_bind , pub get_width : * mut sys :: godot_method_bind , pub has_alpha : * mut sys :: godot_method_bind , pub set_flags : * mut sys :: godot_method_bind } impl TextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TextureMethodTable = TextureMethodTable { class_constructor : None , draw : 0 as * mut sys :: godot_method_bind , draw_rect : 0 as * mut sys :: godot_method_bind , draw_rect_region : 0 as * mut sys :: godot_method_bind , get_data : 0 as * mut sys :: godot_method_bind , get_flags : 0 as * mut sys :: godot_method_bind , get_height : 0 as * mut sys :: godot_method_bind , get_size : 0 as * mut sys :: godot_method_bind , get_width : 0 as * mut sys :: godot_method_bind , has_alpha : 0 as * mut sys :: godot_method_bind , set_flags : 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 (|| { TextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Texture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . draw = (gd_api . godot_method_bind_get_method) (class_name , "draw\0" . as_ptr () as * const c_char) ; table . draw_rect = (gd_api . godot_method_bind_get_method) (class_name , "draw_rect\0" . as_ptr () as * const c_char) ; table . draw_rect_region = (gd_api . godot_method_bind_get_method) (class_name , "draw_rect_region\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_flags = (gd_api . godot_method_bind_get_method) (class_name , "get_flags\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_size = (gd_api . godot_method_bind_get_method) (class_name , "get_size\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_alpha = (gd_api . godot_method_bind_get_method) (class_name , "has_alpha\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) ; } } } [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-60c8dbcfaf0f3dfc/out/generated.rs:94:30874 [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 Area` inherits `CollisionObject` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_area.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`Area` 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\nArea inherits methods from:\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 Area { 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 Area { 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 Area { # [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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . get_audio_bus ; 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 = AreaMethodTable :: 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."] # [doc = ""] # [inline] pub fn get_collision_layer_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . get_gravity_vector ; let ret = crate :: icalls :: icallptr_vec3 (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 = AreaMethodTable :: 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 [Area]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 = AreaMethodTable :: 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 [PhysicsBody]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 = AreaMethodTable :: 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 = AreaMethodTable :: get (get_api ()) . get_priority ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The degree to which this area applies reverb to its associated audio. Ranges from `0` to `1` with `0.1` precision."] # [doc = ""] # [inline] pub fn reverb_amount (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . get_reverb_amount ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The reverb bus name to use for this area's associated audio."] # [doc = ""] # [inline] pub fn reverb_bus (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . get_reverb_bus ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The degree to which this area's reverb is a uniform effect. Ranges from `0` to `1` with `0.1` precision."] # [doc = ""] # [inline] pub fn reverb_uniformity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . get_reverb_uniformity ; 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 :: SpaceOverride { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . get_space_override_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: area :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 area applies reverb to its associated audio."] # [doc = ""] # [inline] pub fn is_using_reverb_bus (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . is_using_reverb_bus ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the given area overlaps the Area.\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 = AreaMethodTable :: 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 Area.\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 [PhysicsBody] or a [GridMap] instance (while GridMaps 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . set_audio_bus ; 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 simplifies editing this [Area]'s layers."] # [doc = ""] # [inline] pub fn set_collision_layer_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: 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 = AreaMethodTable :: 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 simplifies editing which [Area] layers this [Area] scans."] # [doc = ""] # [inline] pub fn set_collision_mask_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . set_gravity_vector ; let ret = crate :: icalls :: icallptr_void_vec3 (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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: 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 = AreaMethodTable :: get (get_api ()) . set_priority ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , priority) ; } } # [doc = "The degree to which this area applies reverb to its associated audio. Ranges from `0` to `1` with `0.1` precision."] # [doc = ""] # [inline] pub fn set_reverb_amount (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . set_reverb_amount ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The reverb bus name to use for this area's associated audio."] # [doc = ""] # [inline] pub fn set_reverb_bus (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . set_reverb_bus ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "The degree to which this area's reverb is a uniform effect. Ranges from `0` to `1` with `0.1` precision."] # [doc = ""] # [inline] pub fn set_reverb_uniformity (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . set_reverb_uniformity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [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 , enable : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . set_space_override_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the area applies reverb to its associated audio."] # [doc = ""] # [inline] pub fn set_use_reverb_bus (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AreaMethodTable :: get (get_api ()) . set_use_reverb_bus ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Area { } unsafe impl GodotObject for Area { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Area" } } impl QueueFree for Area { # [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 Area { type Target = crate :: generated :: collision_object :: CollisionObject ; # [inline] fn deref (& self) -> & crate :: generated :: collision_object :: CollisionObject { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Area { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: collision_object :: CollisionObject { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: collision_object :: CollisionObject > for Area { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for Area { } unsafe impl SubClass < crate :: generated :: node :: Node > for Area { } unsafe impl SubClass < crate :: generated :: object :: Object > for Area { } impl Instanciable for Area { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Area :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AreaMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_angular_damp : * mut sys :: godot_method_bind , pub get_audio_bus : * 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_reverb_amount : * mut sys :: godot_method_bind , pub get_reverb_bus : * mut sys :: godot_method_bind , pub get_reverb_uniformity : * 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 is_using_reverb_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 : * 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_reverb_amount : * mut sys :: godot_method_bind , pub set_reverb_bus : * mut sys :: godot_method_bind , pub set_reverb_uniformity : * mut sys :: godot_method_bind , pub set_space_override_mode : * mut sys :: godot_method_bind , pub set_use_reverb_bus : * mut sys :: godot_method_bind } impl AreaMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AreaMethodTable = AreaMethodTable { class_constructor : None , get_angular_damp : 0 as * mut sys :: godot_method_bind , get_audio_bus : 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_reverb_amount : 0 as * mut sys :: godot_method_bind , get_reverb_bus : 0 as * mut sys :: godot_method_bind , get_reverb_uniformity : 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 , is_using_reverb_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 : 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_reverb_amount : 0 as * mut sys :: godot_method_bind , set_reverb_bus : 0 as * mut sys :: godot_method_bind , set_reverb_uniformity : 0 as * mut sys :: godot_method_bind , set_space_override_mode : 0 as * mut sys :: godot_method_bind , set_use_reverb_bus : 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 (|| { AreaMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Area\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 = (gd_api . godot_method_bind_get_method) (class_name , "get_audio_bus\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_reverb_amount = (gd_api . godot_method_bind_get_method) (class_name , "get_reverb_amount\0" . as_ptr () as * const c_char) ; table . get_reverb_bus = (gd_api . godot_method_bind_get_method) (class_name , "get_reverb_bus\0" . as_ptr () as * const c_char) ; table . get_reverb_uniformity = (gd_api . godot_method_bind_get_method) (class_name , "get_reverb_uniformity\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 . is_using_reverb_bus = (gd_api . godot_method_bind_get_method) (class_name , "is_using_reverb_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 = (gd_api . godot_method_bind_get_method) (class_name , "set_audio_bus\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_reverb_amount = (gd_api . godot_method_bind_get_method) (class_name , "set_reverb_amount\0" . as_ptr () as * const c_char) ; table . set_reverb_bus = (gd_api . godot_method_bind_get_method) (class_name , "set_reverb_bus\0" . as_ptr () as * const c_char) ; table . set_reverb_uniformity = (gd_api . godot_method_bind_get_method) (class_name , "set_reverb_uniformity\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) ; table . set_use_reverb_bus = (gd_api . godot_method_bind_get_method) (class_name , "set_use_reverb_bus\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-60c8dbcfaf0f3dfc/out/generated.rs:100:7110 [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 BackBufferCopy` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_backbuffercopy.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`BackBufferCopy` 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\nBackBufferCopy 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 BackBufferCopy { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CopyMode (pub i64) ; impl CopyMode { pub const DISABLED : CopyMode = CopyMode (0i64) ; pub const RECT : CopyMode = CopyMode (1i64) ; pub const VIEWPORT : CopyMode = CopyMode (2i64) ; } impl From < i64 > for CopyMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CopyMode > for i64 { # [inline] fn from (v : CopyMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl BackBufferCopy { pub const COPY_MODE_DISABLED : i64 = 0i64 ; pub const COPY_MODE_RECT : i64 = 1i64 ; pub const COPY_MODE_VIEWPORT : i64 = 2i64 ; } impl BackBufferCopy { # [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 = BackBufferCopyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Buffer mode. See [enum CopyMode] constants."] # [doc = ""] # [inline] pub fn copy_mode (& self) -> crate :: generated :: back_buffer_copy :: CopyMode { unsafe { let method_bind : * mut sys :: godot_method_bind = BackBufferCopyMethodTable :: get (get_api ()) . get_copy_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: back_buffer_copy :: CopyMode (ret) } } # [doc = "The area covered by the BackBufferCopy. Only used if [member copy_mode] is [constant COPY_MODE_RECT]."] # [doc = ""] # [inline] pub fn rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = BackBufferCopyMethodTable :: get (get_api ()) . get_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Buffer mode. See [enum CopyMode] constants."] # [doc = ""] # [inline] pub fn set_copy_mode (& self , copy_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BackBufferCopyMethodTable :: get (get_api ()) . set_copy_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , copy_mode) ; } } # [doc = "The area covered by the BackBufferCopy. Only used if [member copy_mode] is [constant COPY_MODE_RECT]."] # [doc = ""] # [inline] pub fn set_rect (& self , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BackBufferCopyMethodTable :: get (get_api ()) . set_rect ; let ret = crate :: icalls :: icallptr_void_rect2 (method_bind , self . this . sys () . as_ptr () , rect) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for BackBufferCopy { } unsafe impl GodotObject for BackBufferCopy { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "BackBufferCopy" } } impl QueueFree for BackBufferCopy { # [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 BackBufferCopy { 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 BackBufferCopy { # [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 BackBufferCopy { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for BackBufferCopy { } unsafe impl SubClass < crate :: generated :: node :: Node > for BackBufferCopy { } unsafe impl SubClass < crate :: generated :: object :: Object > for BackBufferCopy { } impl Instanciable for BackBufferCopy { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { BackBufferCopy :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct BackBufferCopyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_copy_mode : * mut sys :: godot_method_bind , pub get_rect : * mut sys :: godot_method_bind , pub set_copy_mode : * mut sys :: godot_method_bind , pub set_rect : * mut sys :: godot_method_bind } impl BackBufferCopyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : BackBufferCopyMethodTable = BackBufferCopyMethodTable { class_constructor : None , get_copy_mode : 0 as * mut sys :: godot_method_bind , get_rect : 0 as * mut sys :: godot_method_bind , set_copy_mode : 0 as * mut sys :: godot_method_bind , set_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 (|| { BackBufferCopyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "BackBufferCopy\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_copy_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_copy_mode\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 . set_copy_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_copy_mode\0" . as_ptr () as * const c_char) ; table . set_rect = (gd_api . godot_method_bind_get_method) (class_name , "set_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-60c8dbcfaf0f3dfc/out/generated.rs:106:3443 [INFO] [stdout] | [INFO] [stdout] 106 | ...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] 106 | # [doc = "`core class TextureArray` inherits `TextureLayered` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_texturearray.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\nTextureArray inherits methods from:\n - [TextureLayered](struct.TextureLayered.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 TextureArray { this : RawObject < Self > , } impl TextureArray { # [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 = TextureArrayMethodTable :: 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 TextureArray { } unsafe impl GodotObject for TextureArray { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "TextureArray" } } impl std :: ops :: Deref for TextureArray { type Target = crate :: generated :: texture_layered :: TextureLayered ; # [inline] fn deref (& self) -> & crate :: generated :: texture_layered :: TextureLayered { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TextureArray { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture_layered :: TextureLayered { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture_layered :: TextureLayered > for TextureArray { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for TextureArray { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for TextureArray { } unsafe impl SubClass < crate :: generated :: object :: Object > for TextureArray { } impl Instanciable for TextureArray { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TextureArray :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TextureArrayMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl TextureArrayMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TextureArrayMethodTable = TextureArrayMethodTable { 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 (|| { TextureArrayMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TextureArray\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-60c8dbcfaf0f3dfc/out/generated.rs:112:3797 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:118:5618 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:124:6259 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:130:4190 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:136:3579 [INFO] [stdout] | [INFO] [stdout] 136 | ...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] 136 | # [doc = "`core class AnimationNodeOutput` inherits `AnimationNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeoutput.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\nAnimationNodeOutput 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 AnimationNodeOutput { this : RawObject < Self > , } impl AnimationNodeOutput { # [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 = AnimationNodeOutputMethodTable :: 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 AnimationNodeOutput { } unsafe impl GodotObject for AnimationNodeOutput { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeOutput" } } impl std :: ops :: Deref for AnimationNodeOutput { 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 AnimationNodeOutput { # [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 AnimationNodeOutput { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeOutput { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeOutput { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeOutput { } impl Instanciable for AnimationNodeOutput { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeOutput :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeOutputMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AnimationNodeOutputMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeOutputMethodTable = AnimationNodeOutputMethodTable { 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 (|| { AnimationNodeOutputMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeOutput\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-60c8dbcfaf0f3dfc/out/generated.rs:142:4465 [INFO] [stdout] | [INFO] [stdout] 142 | ...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] 142 | # [doc = "`core class HSlider` inherits `Slider` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_hslider.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`HSlider` 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\nHSlider 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 HSlider { this : RawObject < Self > , } impl HSlider { # [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 = HSliderMethodTable :: 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 HSlider { } unsafe impl GodotObject for HSlider { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "HSlider" } } impl QueueFree for HSlider { # [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 HSlider { type Target = crate :: generated :: slider :: Slider ; # [inline] fn deref (& self) -> & crate :: generated :: slider :: Slider { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HSlider { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: slider :: Slider { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: slider :: Slider > for HSlider { } unsafe impl SubClass < crate :: generated :: range :: Range > for HSlider { } unsafe impl SubClass < crate :: generated :: control :: Control > for HSlider { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for HSlider { } unsafe impl SubClass < crate :: generated :: node :: Node > for HSlider { } unsafe impl SubClass < crate :: generated :: object :: Object > for HSlider { } impl Instanciable for HSlider { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HSlider :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HSliderMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl HSliderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HSliderMethodTable = HSliderMethodTable { 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 (|| { HSliderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HSlider\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-60c8dbcfaf0f3dfc/out/generated.rs:148:9557 [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 PacketPeer` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_packetpeer.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\nPacketPeer 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 PacketPeer { this : RawObject < Self > , } impl PacketPeer { # [doc = "Returns the number of packets currently available in the ring-buffer."] # [doc = ""] # [inline] pub fn get_available_packet_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . get_available_packet_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Maximum buffer size allowed when encoding [Variant]s. Raise this value to support heavier memory allocations.\nThe [method put_var] method allocates memory on the stack, and the buffer used will grow automatically to the closest power of two to match the size of the [Variant]. If the [Variant] is bigger than `encode_buffer_max_size`, the method will error out with [constant ERR_OUT_OF_MEMORY]."] # [doc = ""] # [inline] pub fn encode_buffer_max_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . get_encode_buffer_max_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets a raw packet."] # [doc = ""] # [inline] pub fn get_packet (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . get_packet ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = "Returns the error state of the last packet received (via [method get_packet] and [method get_var])."] # [doc = ""] # [inline] pub fn get_packet_error (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . get_packet_error ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Gets a Variant. If `allow_objects` (or [member allow_object_decoding]) 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 = PacketPeerMethodTable :: 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 = "[i]Deprecated.[/i] Use `get_var` and `put_var` parameters instead.\nIf `true`, the PacketPeer will allow encoding and decoding of object via [method get_var] and [method put_var].\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."] # [doc = ""] # [inline] pub fn is_object_decoding_allowed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . is_object_decoding_allowed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sends a raw packet."] # [doc = ""] # [inline] pub fn put_packet (& self , buffer : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . put_packet ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , buffer) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Sends a [Variant] as a packet. If `full_objects` (or [member allow_object_decoding]) is `true`, encoding objects is allowed (and can potentially include code).\n# Default Arguments\n* `full_objects` - `false`"] # [doc = ""] # [inline] pub fn put_var (& self , var : impl OwnedToVariant , full_objects : bool) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . put_var ; let ret = crate :: icalls :: icallptr_i64_var_bool (method_bind , self . this . sys () . as_ptr () , var . owned_to_variant () , full_objects) ; GodotError :: result_from_sys (ret as _) } } # [doc = "[i]Deprecated.[/i] Use `get_var` and `put_var` parameters instead.\nIf `true`, the PacketPeer will allow encoding and decoding of object via [method get_var] and [method put_var].\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."] # [doc = ""] # [inline] pub fn set_allow_object_decoding (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . set_allow_object_decoding ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Maximum buffer size allowed when encoding [Variant]s. Raise this value to support heavier memory allocations.\nThe [method put_var] method allocates memory on the stack, and the buffer used will grow automatically to the closest power of two to match the size of the [Variant]. If the [Variant] is bigger than `encode_buffer_max_size`, the method will error out with [constant ERR_OUT_OF_MEMORY]."] # [doc = ""] # [inline] pub fn set_encode_buffer_max_size (& self , max_size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerMethodTable :: get (get_api ()) . set_encode_buffer_max_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , max_size) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PacketPeer { } unsafe impl GodotObject for PacketPeer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PacketPeer" } } impl std :: ops :: Deref for PacketPeer { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PacketPeer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PacketPeer { } unsafe impl SubClass < crate :: generated :: object :: Object > for PacketPeer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PacketPeerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_available_packet_count : * mut sys :: godot_method_bind , pub get_encode_buffer_max_size : * mut sys :: godot_method_bind , pub get_packet : * mut sys :: godot_method_bind , pub get_packet_error : * mut sys :: godot_method_bind , pub get_var : * mut sys :: godot_method_bind , pub is_object_decoding_allowed : * mut sys :: godot_method_bind , pub put_packet : * mut sys :: godot_method_bind , pub put_var : * mut sys :: godot_method_bind , pub set_allow_object_decoding : * mut sys :: godot_method_bind , pub set_encode_buffer_max_size : * mut sys :: godot_method_bind } impl PacketPeerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PacketPeerMethodTable = PacketPeerMethodTable { class_constructor : None , get_available_packet_count : 0 as * mut sys :: godot_method_bind , get_encode_buffer_max_size : 0 as * mut sys :: godot_method_bind , get_packet : 0 as * mut sys :: godot_method_bind , get_packet_error : 0 as * mut sys :: godot_method_bind , get_var : 0 as * mut sys :: godot_method_bind , is_object_decoding_allowed : 0 as * mut sys :: godot_method_bind , put_packet : 0 as * mut sys :: godot_method_bind , put_var : 0 as * mut sys :: godot_method_bind , set_allow_object_decoding : 0 as * mut sys :: godot_method_bind , set_encode_buffer_max_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 (|| { PacketPeerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PacketPeer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_available_packet_count = (gd_api . godot_method_bind_get_method) (class_name , "get_available_packet_count\0" . as_ptr () as * const c_char) ; table . get_encode_buffer_max_size = (gd_api . godot_method_bind_get_method) (class_name , "get_encode_buffer_max_size\0" . as_ptr () as * const c_char) ; table . get_packet = (gd_api . godot_method_bind_get_method) (class_name , "get_packet\0" . as_ptr () as * const c_char) ; table . get_packet_error = (gd_api . godot_method_bind_get_method) (class_name , "get_packet_error\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_object_decoding_allowed = (gd_api . godot_method_bind_get_method) (class_name , "is_object_decoding_allowed\0" . as_ptr () as * const c_char) ; table . put_packet = (gd_api . godot_method_bind_get_method) (class_name , "put_packet\0" . as_ptr () as * const c_char) ; table . put_var = (gd_api . godot_method_bind_get_method) (class_name , "put_var\0" . as_ptr () as * const c_char) ; table . set_allow_object_decoding = (gd_api . godot_method_bind_get_method) (class_name , "set_allow_object_decoding\0" . as_ptr () as * const c_char) ; table . set_encode_buffer_max_size = (gd_api . godot_method_bind_get_method) (class_name , "set_encode_buffer_max_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-60c8dbcfaf0f3dfc/out/generated.rs:154:3637 [INFO] [stdout] | [INFO] [stdout] 154 | ...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] 154 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:160:74530 [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 singleton class Physics2DServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physics2dserver.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\nPhysics2DServer 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 Physics2DServer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AreaBodyStatus (pub i64) ; impl AreaBodyStatus { pub const ADDED : AreaBodyStatus = AreaBodyStatus (0i64) ; pub const REMOVED : AreaBodyStatus = AreaBodyStatus (1i64) ; } impl From < i64 > for AreaBodyStatus { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AreaBodyStatus > for i64 { # [inline] fn from (v : AreaBodyStatus) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AreaParameter (pub i64) ; impl AreaParameter { pub const GRAVITY : AreaParameter = AreaParameter (0i64) ; pub const GRAVITY_VECTOR : AreaParameter = AreaParameter (1i64) ; pub const GRAVITY_IS_POINT : AreaParameter = AreaParameter (2i64) ; pub const GRAVITY_DISTANCE_SCALE : AreaParameter = AreaParameter (3i64) ; pub const GRAVITY_POINT_ATTENUATION : AreaParameter = AreaParameter (4i64) ; pub const LINEAR_DAMP : AreaParameter = AreaParameter (5i64) ; pub const ANGULAR_DAMP : AreaParameter = AreaParameter (6i64) ; pub const PRIORITY : AreaParameter = AreaParameter (7i64) ; } impl From < i64 > for AreaParameter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AreaParameter > for i64 { # [inline] fn from (v : AreaParameter) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AreaSpaceOverrideMode (pub i64) ; impl AreaSpaceOverrideMode { pub const DISABLED : AreaSpaceOverrideMode = AreaSpaceOverrideMode (0i64) ; pub const COMBINE : AreaSpaceOverrideMode = AreaSpaceOverrideMode (1i64) ; pub const COMBINE_REPLACE : AreaSpaceOverrideMode = AreaSpaceOverrideMode (2i64) ; pub const REPLACE : AreaSpaceOverrideMode = AreaSpaceOverrideMode (3i64) ; pub const REPLACE_COMBINE : AreaSpaceOverrideMode = AreaSpaceOverrideMode (4i64) ; } impl From < i64 > for AreaSpaceOverrideMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AreaSpaceOverrideMode > for i64 { # [inline] fn from (v : AreaSpaceOverrideMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BodyMode (pub i64) ; impl BodyMode { pub const STATIC : BodyMode = BodyMode (0i64) ; pub const KINEMATIC : BodyMode = BodyMode (1i64) ; pub const RIGID : BodyMode = BodyMode (2i64) ; pub const CHARACTER : BodyMode = BodyMode (3i64) ; } impl From < i64 > for BodyMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BodyMode > for i64 { # [inline] fn from (v : BodyMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BodyParameter (pub i64) ; impl BodyParameter { pub const BOUNCE : BodyParameter = BodyParameter (0i64) ; pub const FRICTION : BodyParameter = BodyParameter (1i64) ; pub const MASS : BodyParameter = BodyParameter (2i64) ; pub const INERTIA : BodyParameter = BodyParameter (3i64) ; pub const GRAVITY_SCALE : BodyParameter = BodyParameter (4i64) ; pub const LINEAR_DAMP : BodyParameter = BodyParameter (5i64) ; pub const ANGULAR_DAMP : BodyParameter = BodyParameter (6i64) ; pub const MAX : BodyParameter = BodyParameter (7i64) ; } impl From < i64 > for BodyParameter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BodyParameter > for i64 { # [inline] fn from (v : BodyParameter) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BodyState (pub i64) ; impl BodyState { pub const TRANSFORM : BodyState = BodyState (0i64) ; pub const LINEAR_VELOCITY : BodyState = BodyState (1i64) ; pub const ANGULAR_VELOCITY : BodyState = BodyState (2i64) ; pub const SLEEPING : BodyState = BodyState (3i64) ; pub const CAN_SLEEP : BodyState = BodyState (4i64) ; } impl From < i64 > for BodyState { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BodyState > for i64 { # [inline] fn from (v : BodyState) -> Self { v . 0 } } # [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 DampedStringParam (pub i64) ; impl DampedStringParam { pub const REST_LENGTH : DampedStringParam = DampedStringParam (0i64) ; pub const STIFFNESS : DampedStringParam = DampedStringParam (1i64) ; pub const DAMPING : DampedStringParam = DampedStringParam (2i64) ; } impl From < i64 > for DampedStringParam { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < DampedStringParam > for i64 { # [inline] fn from (v : DampedStringParam) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct JointParam (pub i64) ; impl JointParam { pub const BIAS : JointParam = JointParam (0i64) ; pub const MAX_BIAS : JointParam = JointParam (1i64) ; pub const MAX_FORCE : JointParam = JointParam (2i64) ; } impl From < i64 > for JointParam { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < JointParam > for i64 { # [inline] fn from (v : JointParam) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct JointType (pub i64) ; impl JointType { pub const PIN : JointType = JointType (0i64) ; pub const GROOVE : JointType = JointType (1i64) ; pub const DAMPED_SPRING : JointType = JointType (2i64) ; } impl From < i64 > for JointType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < JointType > for i64 { # [inline] fn from (v : JointType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ProcessInfo (pub i64) ; impl ProcessInfo { pub const ACTIVE_OBJECTS : ProcessInfo = ProcessInfo (0i64) ; pub const COLLISION_PAIRS : ProcessInfo = ProcessInfo (1i64) ; pub const ISLAND_COUNT : ProcessInfo = ProcessInfo (2i64) ; } impl From < i64 > for ProcessInfo { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ProcessInfo > for i64 { # [inline] fn from (v : ProcessInfo) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShapeType (pub i64) ; impl ShapeType { pub const LINE : ShapeType = ShapeType (0i64) ; pub const RAY : ShapeType = ShapeType (1i64) ; pub const SEGMENT : ShapeType = ShapeType (2i64) ; pub const CIRCLE : ShapeType = ShapeType (3i64) ; pub const RECTANGLE : ShapeType = ShapeType (4i64) ; pub const CAPSULE : ShapeType = ShapeType (5i64) ; pub const CONVEX_POLYGON : ShapeType = ShapeType (6i64) ; pub const CONCAVE_POLYGON : ShapeType = ShapeType (7i64) ; pub const CUSTOM : ShapeType = ShapeType (8i64) ; } impl From < i64 > for ShapeType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShapeType > for i64 { # [inline] fn from (v : ShapeType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SpaceParameter (pub i64) ; impl SpaceParameter { pub const CONTACT_RECYCLE_RADIUS : SpaceParameter = SpaceParameter (0i64) ; pub const CONTACT_MAX_SEPARATION : SpaceParameter = SpaceParameter (1i64) ; pub const BODY_MAX_ALLOWED_PENETRATION : SpaceParameter = SpaceParameter (2i64) ; pub const BODY_LINEAR_VELOCITY_SLEEP_THRESHOLD : SpaceParameter = SpaceParameter (3i64) ; pub const BODY_ANGULAR_VELOCITY_SLEEP_THRESHOLD : SpaceParameter = SpaceParameter (4i64) ; pub const BODY_TIME_TO_SLEEP : SpaceParameter = SpaceParameter (5i64) ; pub const CONSTRAINT_DEFAULT_BIAS : SpaceParameter = SpaceParameter (6i64) ; pub const TEST_MOTION_MIN_CONTACT_DEPTH : SpaceParameter = SpaceParameter (7i64) ; } impl From < i64 > for SpaceParameter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SpaceParameter > for i64 { # [inline] fn from (v : SpaceParameter) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Physics2DServer { pub const AREA_BODY_ADDED : i64 = 0i64 ; pub const AREA_BODY_REMOVED : i64 = 1i64 ; pub const AREA_PARAM_ANGULAR_DAMP : i64 = 6i64 ; pub const AREA_PARAM_GRAVITY : i64 = 0i64 ; pub const AREA_PARAM_GRAVITY_DISTANCE_SCALE : i64 = 3i64 ; pub const AREA_PARAM_GRAVITY_IS_POINT : i64 = 2i64 ; pub const AREA_PARAM_GRAVITY_POINT_ATTENUATION : i64 = 4i64 ; pub const AREA_PARAM_GRAVITY_VECTOR : i64 = 1i64 ; pub const AREA_PARAM_LINEAR_DAMP : i64 = 5i64 ; pub const AREA_PARAM_PRIORITY : i64 = 7i64 ; pub const AREA_SPACE_OVERRIDE_COMBINE : i64 = 1i64 ; pub const AREA_SPACE_OVERRIDE_COMBINE_REPLACE : i64 = 2i64 ; pub const AREA_SPACE_OVERRIDE_DISABLED : i64 = 0i64 ; pub const AREA_SPACE_OVERRIDE_REPLACE : i64 = 3i64 ; pub const AREA_SPACE_OVERRIDE_REPLACE_COMBINE : i64 = 4i64 ; pub const BODY_MODE_CHARACTER : i64 = 3i64 ; pub const BODY_MODE_KINEMATIC : i64 = 1i64 ; pub const BODY_MODE_RIGID : i64 = 2i64 ; pub const BODY_MODE_STATIC : i64 = 0i64 ; pub const BODY_PARAM_ANGULAR_DAMP : i64 = 6i64 ; pub const BODY_PARAM_BOUNCE : i64 = 0i64 ; pub const BODY_PARAM_FRICTION : i64 = 1i64 ; pub const BODY_PARAM_GRAVITY_SCALE : i64 = 4i64 ; pub const BODY_PARAM_INERTIA : i64 = 3i64 ; pub const BODY_PARAM_LINEAR_DAMP : i64 = 5i64 ; pub const BODY_PARAM_MASS : i64 = 2i64 ; pub const BODY_PARAM_MAX : i64 = 7i64 ; pub const BODY_STATE_ANGULAR_VELOCITY : i64 = 2i64 ; pub const BODY_STATE_CAN_SLEEP : i64 = 4i64 ; pub const BODY_STATE_LINEAR_VELOCITY : i64 = 1i64 ; pub const BODY_STATE_SLEEPING : i64 = 3i64 ; pub const BODY_STATE_TRANSFORM : i64 = 0i64 ; 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 DAMPED_STRING_DAMPING : i64 = 2i64 ; pub const DAMPED_STRING_REST_LENGTH : i64 = 0i64 ; pub const DAMPED_STRING_STIFFNESS : i64 = 1i64 ; pub const INFO_ACTIVE_OBJECTS : i64 = 0i64 ; pub const INFO_COLLISION_PAIRS : i64 = 1i64 ; pub const INFO_ISLAND_COUNT : i64 = 2i64 ; pub const JOINT_DAMPED_SPRING : i64 = 2i64 ; pub const JOINT_GROOVE : i64 = 1i64 ; pub const JOINT_PARAM_BIAS : i64 = 0i64 ; pub const JOINT_PARAM_MAX_BIAS : i64 = 1i64 ; pub const JOINT_PARAM_MAX_FORCE : i64 = 2i64 ; pub const JOINT_PIN : i64 = 0i64 ; pub const SHAPE_CAPSULE : i64 = 5i64 ; pub const SHAPE_CIRCLE : i64 = 3i64 ; pub const SHAPE_CONCAVE_POLYGON : i64 = 7i64 ; pub const SHAPE_CONVEX_POLYGON : i64 = 6i64 ; pub const SHAPE_CUSTOM : i64 = 8i64 ; pub const SHAPE_LINE : i64 = 0i64 ; pub const SHAPE_RAY : i64 = 1i64 ; pub const SHAPE_RECTANGLE : i64 = 4i64 ; pub const SHAPE_SEGMENT : i64 = 2i64 ; pub const SPACE_PARAM_BODY_ANGULAR_VELOCITY_SLEEP_THRESHOLD : i64 = 4i64 ; pub const SPACE_PARAM_BODY_LINEAR_VELOCITY_SLEEP_THRESHOLD : i64 = 3i64 ; pub const SPACE_PARAM_BODY_MAX_ALLOWED_PENETRATION : i64 = 2i64 ; pub const SPACE_PARAM_BODY_TIME_TO_SLEEP : i64 = 5i64 ; pub const SPACE_PARAM_CONSTRAINT_DEFAULT_BIAS : i64 = 6i64 ; pub const SPACE_PARAM_CONTACT_MAX_SEPARATION : i64 = 1i64 ; pub const SPACE_PARAM_CONTACT_RECYCLE_RADIUS : i64 = 0i64 ; pub const SPACE_PARAM_TEST_MOTION_MIN_CONTACT_DEPTH : i64 = 7i64 ; } impl Physics2DServer { # [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) ("Physics2DServer\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 shape to the area, along with a transform matrix. Shapes are usually referenced by their index, so you should track which shape has a given index.\n# Default Arguments\n* `transform` - `Transform2D( 1, 0, 0, 1, 0, 0 )`\n* `disabled` - `false`"] # [doc = ""] # [inline] pub fn area_add_shape (& self , area : Rid , shape : Rid , transform : Transform2D , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_add_shape ; let ret = crate :: icalls :: icallptr_void_rid_rid_trans2D_bool (method_bind , self . this . sys () . as_ptr () , area , shape , transform , disabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn area_attach_canvas_instance_id (& self , area : Rid , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_attach_canvas_instance_id ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , id) ; } } # [doc = "Assigns the area to a descendant of [Object], so it can exist in the node tree."] # [doc = ""] # [inline] pub fn area_attach_object_instance_id (& self , area : Rid , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_attach_object_instance_id ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , id) ; } } # [doc = "Removes all shapes from an area. It does not delete the shapes, so they can be reassigned later."] # [doc = ""] # [inline] pub fn area_clear_shapes (& self , area : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_clear_shapes ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , area) ; } } # [doc = "Creates an [Area2D]."] # [doc = ""] # [inline] pub fn area_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn area_get_canvas_instance_id (& self , area : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_canvas_instance_id ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , area) ; ret as _ } } # [doc = "Gets the instance ID of the object the area is assigned to."] # [doc = ""] # [inline] pub fn area_get_object_instance_id (& self , area : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_object_instance_id ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , area) ; ret as _ } } # [doc = "Returns an area parameter value. See [enum AreaParameter] for a list of available parameters."] # [doc = ""] # [inline] pub fn area_get_param (& self , area : Rid , param : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_param ; let ret = crate :: icalls :: icallptr_var_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , param) ; Variant :: from_sys (ret) } } # [doc = "Returns the [RID] of the nth shape of an area."] # [doc = ""] # [inline] pub fn area_get_shape (& self , area : Rid , shape_idx : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_shape ; let ret = crate :: icalls :: icallptr_rid_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , shape_idx) ; Rid :: from_sys (ret) } } # [doc = "Returns the number of shapes assigned to an area."] # [doc = ""] # [inline] pub fn area_get_shape_count (& self , area : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_shape_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , area) ; ret as _ } } # [doc = "Returns the transform matrix of a shape within an area."] # [doc = ""] # [inline] pub fn area_get_shape_transform (& self , area : Rid , shape_idx : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_shape_transform ; let ret = crate :: icalls :: icallptr_trans2D_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , shape_idx) ; mem :: transmute (ret) } } # [doc = "Returns the space assigned to the area."] # [doc = ""] # [inline] pub fn area_get_space (& self , area : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_space ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , area) ; Rid :: from_sys (ret) } } # [doc = "Returns the space override mode for the area."] # [doc = ""] # [inline] pub fn area_get_space_override_mode (& self , area : Rid) -> crate :: generated :: physics_2d_server :: AreaSpaceOverrideMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_space_override_mode ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , area) ; crate :: generated :: physics_2d_server :: AreaSpaceOverrideMode (ret) } } # [doc = "Returns the transform matrix for an area."] # [doc = ""] # [inline] pub fn area_get_transform (& self , area : Rid) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_get_transform ; let ret = crate :: icalls :: icallptr_trans2D_rid (method_bind , self . this . sys () . as_ptr () , area) ; mem :: transmute (ret) } } # [doc = "Removes a shape from an area. It does not delete the shape, so it can be reassigned later."] # [doc = ""] # [inline] pub fn area_remove_shape (& self , area : Rid , shape_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_remove_shape ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , shape_idx) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn area_set_area_monitor_callback (& self , area : Rid , receiver : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_area_monitor_callback ; let ret = crate :: icalls :: icallptr_void_rid_obj_str (method_bind , self . this . sys () . as_ptr () , area , receiver . as_arg_ptr () , method . into ()) ; } } # [doc = "Assigns the area to one or many physics layers."] # [doc = ""] # [inline] pub fn area_set_collision_layer (& self , area : Rid , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_collision_layer ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , layer) ; } } # [doc = "Sets which physics layers the area will monitor."] # [doc = ""] # [inline] pub fn area_set_collision_mask (& self , area : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_collision_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , mask) ; } } # [doc = "Sets the function to call when any body/area enters or exits the area. This callback will be called for any object interacting with the area, and takes five parameters:\n1: [constant AREA_BODY_ADDED] or [constant AREA_BODY_REMOVED], depending on whether the object entered or exited the area.\n2: [RID] of the object that entered/exited the area.\n3: Instance ID of the object that entered/exited the area.\n4: The shape index of the object that entered/exited the area.\n5: The shape index of the area where the object entered/exited."] # [doc = ""] # [inline] pub fn area_set_monitor_callback (& self , area : Rid , receiver : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_monitor_callback ; let ret = crate :: icalls :: icallptr_void_rid_obj_str (method_bind , self . this . sys () . as_ptr () , area , receiver . as_arg_ptr () , method . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn area_set_monitorable (& self , area : Rid , monitorable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_monitorable ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , area , monitorable) ; } } # [doc = "Sets the value for an area parameter. See [enum AreaParameter] for a list of available parameters."] # [doc = ""] # [inline] pub fn area_set_param (& self , area : Rid , param : i64 , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_param ; let ret = crate :: icalls :: icallptr_void_rid_i64_var (method_bind , self . this . sys () . as_ptr () , area , param , value . owned_to_variant ()) ; } } # [doc = "Substitutes a given area shape by another. The old shape is selected by its index, the new one by its [RID]."] # [doc = ""] # [inline] pub fn area_set_shape (& self , area : Rid , shape_idx : i64 , shape : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_shape ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , area , shape_idx , shape) ; } } # [doc = "Disables a given shape in an area."] # [doc = ""] # [inline] pub fn area_set_shape_disabled (& self , area : Rid , shape_idx : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_shape_disabled ; let ret = crate :: icalls :: icallptr_void_rid_i64_bool (method_bind , self . this . sys () . as_ptr () , area , shape_idx , disabled) ; } } # [doc = "Sets the transform matrix for an area shape."] # [doc = ""] # [inline] pub fn area_set_shape_transform (& self , area : Rid , shape_idx : i64 , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_shape_transform ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans2D (method_bind , self . this . sys () . as_ptr () , area , shape_idx , transform) ; } } # [doc = "Assigns a space to the area."] # [doc = ""] # [inline] pub fn area_set_space (& self , area : Rid , space : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_space ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , area , space) ; } } # [doc = "Sets the space override mode for the area. See [enum AreaSpaceOverrideMode] for a list of available modes."] # [doc = ""] # [inline] pub fn area_set_space_override_mode (& self , area : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_space_override_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , area , mode) ; } } # [doc = "Sets the transform matrix for an area."] # [doc = ""] # [inline] pub fn area_set_transform (& self , area : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . area_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , area , transform) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn body_add_central_force (& self , body : Rid , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_add_central_force ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , body , force) ; } } # [doc = "Adds a body to the list of bodies exempt from collisions."] # [doc = ""] # [inline] pub fn body_add_collision_exception (& self , body : Rid , excepted_body : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_add_collision_exception ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , body , excepted_body) ; } } # [doc = "Adds a positioned force to the applied force and torque. As with [method body_apply_impulse], both the force and the offset from the body origin are in global coordinates. A force differs from an impulse in that, while the two are forces, the impulse clears itself after being applied."] # [doc = ""] # [inline] pub fn body_add_force (& self , body : Rid , offset : Vector2 , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_add_force ; let ret = crate :: icalls :: icallptr_void_rid_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , body , offset , force) ; } } # [doc = "Adds a shape to the body, along with a transform matrix. Shapes are usually referenced by their index, so you should track which shape has a given index.\n# Default Arguments\n* `transform` - `Transform2D( 1, 0, 0, 1, 0, 0 )`\n* `disabled` - `false`"] # [doc = ""] # [inline] pub fn body_add_shape (& self , body : Rid , shape : Rid , transform : Transform2D , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_add_shape ; let ret = crate :: icalls :: icallptr_void_rid_rid_trans2D_bool (method_bind , self . this . sys () . as_ptr () , body , shape , transform , disabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn body_add_torque (& self , body : Rid , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_add_torque ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , body , torque) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn body_apply_central_impulse (& self , body : Rid , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_apply_central_impulse ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , body , impulse) ; } } # [doc = "Adds a positioned impulse to the applied force and torque. Both the force and the offset from the body origin are in global coordinates."] # [doc = ""] # [inline] pub fn body_apply_impulse (& self , body : Rid , position : Vector2 , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_apply_impulse ; let ret = crate :: icalls :: icallptr_void_rid_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , body , position , impulse) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn body_apply_torque_impulse (& self , body : Rid , impulse : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_apply_torque_impulse ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , body , impulse) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn body_attach_canvas_instance_id (& self , body : Rid , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_attach_canvas_instance_id ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , id) ; } } # [doc = "Assigns the area to a descendant of [Object], so it can exist in the node tree."] # [doc = ""] # [inline] pub fn body_attach_object_instance_id (& self , body : Rid , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_attach_object_instance_id ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , id) ; } } # [doc = "Removes all shapes from a body."] # [doc = ""] # [inline] pub fn body_clear_shapes (& self , body : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_clear_shapes ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , body) ; } } # [doc = "Creates a physics body."] # [doc = ""] # [inline] pub fn body_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn body_get_canvas_instance_id (& self , body : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_canvas_instance_id ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; ret as _ } } # [doc = "Returns the physics layer or layers a body belongs to."] # [doc = ""] # [inline] pub fn body_get_collision_layer (& self , body : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_collision_layer ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; ret as _ } } # [doc = "Returns the physics layer or layers a body can collide with."] # [doc = ""] # [inline] pub fn body_get_collision_mask (& self , body : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_collision_mask ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; ret as _ } } # [doc = "Returns the continuous collision detection mode."] # [doc = ""] # [inline] pub fn body_get_continuous_collision_detection_mode (& self , body : Rid) -> crate :: generated :: physics_2d_server :: CcdMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_continuous_collision_detection_mode ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; crate :: generated :: physics_2d_server :: CcdMode (ret) } } # [doc = "Returns the [Physics2DDirectBodyState] of the body."] # [doc = ""] # [inline] pub fn body_get_direct_state (& self , body : Rid) -> Option < Ref < crate :: generated :: physics_2d_direct_body_state :: Physics2DDirectBodyState , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_direct_state ; let ret = crate :: icalls :: icallptr_obj_rid (method_bind , self . this . sys () . as_ptr () , body) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_2d_direct_body_state :: Physics2DDirectBodyState , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the maximum contacts that can be reported. See [method body_set_max_contacts_reported]."] # [doc = ""] # [inline] pub fn body_get_max_contacts_reported (& self , body : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_max_contacts_reported ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; ret as _ } } # [doc = "Returns the body mode."] # [doc = ""] # [inline] pub fn body_get_mode (& self , body : Rid) -> crate :: generated :: physics_2d_server :: BodyMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_mode ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; crate :: generated :: physics_2d_server :: BodyMode (ret) } } # [doc = "Gets the instance ID of the object the area is assigned to."] # [doc = ""] # [inline] pub fn body_get_object_instance_id (& self , body : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_object_instance_id ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; ret as _ } } # [doc = "Returns the value of a body parameter. See [enum BodyParameter] for a list of available parameters."] # [doc = ""] # [inline] pub fn body_get_param (& self , body : Rid , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_param ; let ret = crate :: icalls :: icallptr_f64_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , param) ; ret as _ } } # [doc = "Returns the [RID] of the nth shape of a body."] # [doc = ""] # [inline] pub fn body_get_shape (& self , body : Rid , shape_idx : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_shape ; let ret = crate :: icalls :: icallptr_rid_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , shape_idx) ; Rid :: from_sys (ret) } } # [doc = "Returns the number of shapes assigned to a body."] # [doc = ""] # [inline] pub fn body_get_shape_count (& self , body : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_shape_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , body) ; ret as _ } } # [doc = "Returns the metadata of a shape of a body."] # [doc = ""] # [inline] pub fn body_get_shape_metadata (& self , body : Rid , shape_idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_shape_metadata ; let ret = crate :: icalls :: icallptr_var_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , shape_idx) ; Variant :: from_sys (ret) } } # [doc = "Returns the transform matrix of a body shape."] # [doc = ""] # [inline] pub fn body_get_shape_transform (& self , body : Rid , shape_idx : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_shape_transform ; let ret = crate :: icalls :: icallptr_trans2D_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , shape_idx) ; mem :: transmute (ret) } } # [doc = "Returns the [RID] of the space assigned to a body."] # [doc = ""] # [inline] pub fn body_get_space (& self , body : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_space ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , body) ; Rid :: from_sys (ret) } } # [doc = "Returns a body state."] # [doc = ""] # [inline] pub fn body_get_state (& self , body : Rid , state : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_get_state ; let ret = crate :: icalls :: icallptr_var_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , state) ; Variant :: from_sys (ret) } } # [doc = "Returns whether a body uses a callback function to calculate its own physics (see [method body_set_force_integration_callback])."] # [doc = ""] # [inline] pub fn body_is_omitting_force_integration (& self , body : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_is_omitting_force_integration ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , body) ; ret as _ } } # [doc = "Removes a body from the list of bodies exempt from collisions."] # [doc = ""] # [inline] pub fn body_remove_collision_exception (& self , body : Rid , excepted_body : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_remove_collision_exception ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , body , excepted_body) ; } } # [doc = "Removes a shape from a body. The shape is not deleted, so it can be reused afterwards."] # [doc = ""] # [inline] pub fn body_remove_shape (& self , body : Rid , shape_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_remove_shape ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , shape_idx) ; } } # [doc = "Sets an axis velocity. 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 body_set_axis_velocity (& self , body : Rid , axis_velocity : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_axis_velocity ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , body , axis_velocity) ; } } # [doc = "Sets the physics layer or layers a body belongs to."] # [doc = ""] # [inline] pub fn body_set_collision_layer (& self , body : Rid , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_collision_layer ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , layer) ; } } # [doc = "Sets the physics layer or layers a body can collide with."] # [doc = ""] # [inline] pub fn body_set_collision_mask (& self , body : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_collision_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , mask) ; } } # [doc = "Sets the continuous collision detection mode using one of the [enum CCDMode] constants.\nContinuous collision detection tries to predict where a moving body will collide, instead of moving it and correcting its movement if it collided."] # [doc = ""] # [inline] pub fn body_set_continuous_collision_detection_mode (& self , body : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_continuous_collision_detection_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , mode) ; } } # [doc = "Sets the function used to calculate physics for an object, if that object allows it (see [method body_set_omit_force_integration]).\n# Default Arguments\n* `userdata` - `null`"] # [doc = ""] # [inline] pub fn body_set_force_integration_callback (& self , body : Rid , receiver : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString > , userdata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_force_integration_callback ; let ret = crate :: icalls :: icallptr_void_rid_obj_str_var (method_bind , self . this . sys () . as_ptr () , body , receiver . as_arg_ptr () , method . into () , userdata . owned_to_variant ()) ; } } # [doc = "Sets the maximum contacts to report. Bodies can keep a log of the contacts with other bodies, this is enabled by setting the maximum amount of contacts reported to a number greater than 0."] # [doc = ""] # [inline] pub fn body_set_max_contacts_reported (& self , body : Rid , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_max_contacts_reported ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , amount) ; } } # [doc = "Sets the body mode using one of the [enum BodyMode] constants."] # [doc = ""] # [inline] pub fn body_set_mode (& self , body : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , body , mode) ; } } # [doc = "Sets whether a body uses a callback function to calculate its own physics (see [method body_set_force_integration_callback])."] # [doc = ""] # [inline] pub fn body_set_omit_force_integration (& self , body : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_omit_force_integration ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , body , enable) ; } } # [doc = "Sets a body parameter. See [enum BodyParameter] for a list of available parameters."] # [doc = ""] # [inline] pub fn body_set_param (& self , body : Rid , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_param ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , body , param , value) ; } } # [doc = "Substitutes a given body shape by another. The old shape is selected by its index, the new one by its [RID]."] # [doc = ""] # [inline] pub fn body_set_shape (& self , body : Rid , shape_idx : i64 , shape : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_shape ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , body , shape_idx , shape) ; } } # [doc = "Enables one way collision on body if `enable` is `true`."] # [doc = ""] # [inline] pub fn body_set_shape_as_one_way_collision (& self , body : Rid , shape_idx : i64 , enable : bool , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_shape_as_one_way_collision ; let ret = crate :: icalls :: icallptr_void_rid_i64_bool_f64 (method_bind , self . this . sys () . as_ptr () , body , shape_idx , enable , margin) ; } } # [doc = "Disables shape in body if `disable` is `true`."] # [doc = ""] # [inline] pub fn body_set_shape_disabled (& self , body : Rid , shape_idx : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_shape_disabled ; let ret = crate :: icalls :: icallptr_void_rid_i64_bool (method_bind , self . this . sys () . as_ptr () , body , shape_idx , disabled) ; } } # [doc = "Sets metadata of a shape within a body. This metadata is different from [method Object.set_meta], and can be retrieved on shape queries."] # [doc = ""] # [inline] pub fn body_set_shape_metadata (& self , body : Rid , shape_idx : i64 , metadata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_shape_metadata ; let ret = crate :: icalls :: icallptr_void_rid_i64_var (method_bind , self . this . sys () . as_ptr () , body , shape_idx , metadata . owned_to_variant ()) ; } } # [doc = "Sets the transform matrix for a body shape."] # [doc = ""] # [inline] pub fn body_set_shape_transform (& self , body : Rid , shape_idx : i64 , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_shape_transform ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans2D (method_bind , self . this . sys () . as_ptr () , body , shape_idx , transform) ; } } # [doc = "Assigns a space to the body (see [method space_create])."] # [doc = ""] # [inline] pub fn body_set_space (& self , body : Rid , space : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_space ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , body , space) ; } } # [doc = "Sets a body state using one of the [enum BodyState] constants.\nNote that the method doesn't take effect immediately. The state will change on the next physics frame."] # [doc = ""] # [inline] pub fn body_set_state (& self , body : Rid , state : i64 , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . body_set_state ; let ret = crate :: icalls :: icallptr_void_rid_i64_var (method_bind , self . this . sys () . as_ptr () , body , state , value . owned_to_variant ()) ; } } # [doc = "Returns `true` if a collision would result from moving in the given direction from a given point in space. Margin increases the size of the shapes involved in the collision detection. [Physics2DTestMotionResult] can be passed to return additional information in.\n# Default Arguments\n* `margin` - `0.08`\n* `result` - `null`"] # [doc = ""] # [inline] pub fn body_test_motion (& self , body : Rid , from : Transform2D , 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 = Physics2DServerMethodTable :: get (get_api ()) . body_test_motion ; let ret = crate :: icalls :: icallptr_bool_rid_trans2D_vec2_bool_f64_obj (method_bind , self . this . sys () . as_ptr () , body , from , motion , infinite_inertia , margin , result . as_arg_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn capsule_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . capsule_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn circle_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . circle_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn concave_polygon_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . concave_polygon_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn convex_polygon_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . convex_polygon_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a damped spring joint between two bodies. If not specified, the second body is assumed to be the joint itself."] # [doc = ""] # [inline] pub fn damped_spring_joint_create (& self , anchor_a : Vector2 , anchor_b : Vector2 , body_a : Rid , body_b : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . damped_spring_joint_create ; let ret = crate :: icalls :: icallptr_rid_vec2_vec2_rid_rid (method_bind , self . this . sys () . as_ptr () , anchor_a , anchor_b , body_a , body_b) ; Rid :: from_sys (ret) } } # [doc = "Returns the value of a damped spring joint parameter."] # [doc = ""] # [inline] pub fn damped_string_joint_get_param (& self , joint : Rid , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . damped_string_joint_get_param ; let ret = crate :: icalls :: icallptr_f64_rid_i64 (method_bind , self . this . sys () . as_ptr () , joint , param) ; ret as _ } } # [doc = "Sets a damped spring joint parameter. See [enum DampedStringParam] for a list of available parameters."] # [doc = ""] # [inline] pub fn damped_string_joint_set_param (& self , joint : Rid , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . damped_string_joint_set_param ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , joint , param , value) ; } } # [doc = "Destroys any of the objects created by Physics2DServer. If the [RID] passed is not one of the objects that can be created by Physics2DServer, an error will be sent to the console."] # [doc = ""] # [inline] pub fn free_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . free_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "Returns information about the current state of the 2D physics engine. See [enum ProcessInfo] for a list of available states."] # [doc = ""] # [inline] pub fn get_process_info (& self , process_info : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . get_process_info ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , process_info) ; ret as _ } } # [doc = "Creates a groove joint between two bodies. If not specified, the bodies are assumed to be the joint itself."] # [doc = ""] # [inline] pub fn groove_joint_create (& self , groove1_a : Vector2 , groove2_a : Vector2 , anchor_b : Vector2 , body_a : Rid , body_b : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . groove_joint_create ; let ret = crate :: icalls :: icallptr_rid_vec2_vec2_vec2_rid_rid (method_bind , self . this . sys () . as_ptr () , groove1_a , groove2_a , anchor_b , body_a , body_b) ; Rid :: from_sys (ret) } } # [doc = "Returns the value of a joint parameter."] # [doc = ""] # [inline] pub fn joint_get_param (& self , joint : Rid , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . joint_get_param ; let ret = crate :: icalls :: icallptr_f64_rid_i64 (method_bind , self . this . sys () . as_ptr () , joint , param) ; ret as _ } } # [doc = "Returns a joint's type (see [enum JointType])."] # [doc = ""] # [inline] pub fn joint_get_type (& self , joint : Rid) -> crate :: generated :: physics_2d_server :: JointType { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . joint_get_type ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , joint) ; crate :: generated :: physics_2d_server :: JointType (ret) } } # [doc = "Sets a joint parameter. See [enum JointParam] for a list of available parameters."] # [doc = ""] # [inline] pub fn joint_set_param (& self , joint : Rid , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . joint_set_param ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , joint , param , value) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn line_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . line_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a pin joint between two bodies. If not specified, the second body is assumed to be the joint itself."] # [doc = ""] # [inline] pub fn pin_joint_create (& self , anchor : Vector2 , body_a : Rid , body_b : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . pin_joint_create ; let ret = crate :: icalls :: icallptr_rid_vec2_rid_rid (method_bind , self . this . sys () . as_ptr () , anchor , body_a , body_b) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn ray_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . ray_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn rectangle_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . rectangle_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn segment_shape_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . segment_shape_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Activates or deactivates the 2D physics engine."] # [doc = ""] # [inline] pub fn set_active (& self , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . set_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , active) ; } } # [doc = "Returns the shape data."] # [doc = ""] # [inline] pub fn shape_get_data (& self , shape : Rid) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . shape_get_data ; let ret = crate :: icalls :: icallptr_var_rid (method_bind , self . this . sys () . as_ptr () , shape) ; Variant :: from_sys (ret) } } # [doc = "Returns a shape's type (see [enum ShapeType])."] # [doc = ""] # [inline] pub fn shape_get_type (& self , shape : Rid) -> crate :: generated :: physics_2d_server :: ShapeType { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . shape_get_type ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , shape) ; crate :: generated :: physics_2d_server :: ShapeType (ret) } } # [doc = "Sets the shape data that defines its shape and size. The data to be passed depends on the kind of shape created [method shape_get_type]."] # [doc = ""] # [inline] pub fn shape_set_data (& self , shape : Rid , data : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . shape_set_data ; let ret = crate :: icalls :: icallptr_void_rid_var (method_bind , self . this . sys () . as_ptr () , shape , data . owned_to_variant ()) ; } } # [doc = "Creates a space. A space is a collection of parameters for the physics engine that can be assigned to an area or a body. It can be assigned to an area with [method area_set_space], or to a body with [method body_set_space]."] # [doc = ""] # [inline] pub fn space_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . space_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the state of a space, a [Physics2DDirectSpaceState]. This object can be used to make collision/intersection queries."] # [doc = ""] # [inline] pub fn space_get_direct_state (& self , space : Rid) -> Option < Ref < crate :: generated :: physics_2d_direct_space_state :: Physics2DDirectSpaceState , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . space_get_direct_state ; let ret = crate :: icalls :: icallptr_obj_rid (method_bind , self . this . sys () . as_ptr () , space) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_2d_direct_space_state :: Physics2DDirectSpaceState , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the value of a space parameter."] # [doc = ""] # [inline] pub fn space_get_param (& self , space : Rid , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . space_get_param ; let ret = crate :: icalls :: icallptr_f64_rid_i64 (method_bind , self . this . sys () . as_ptr () , space , param) ; ret as _ } } # [doc = "Returns whether the space is active."] # [doc = ""] # [inline] pub fn space_is_active (& self , space : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . space_is_active ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , space) ; ret as _ } } # [doc = "Marks a space as active. It will not have an effect, unless it is assigned to an area or body."] # [doc = ""] # [inline] pub fn space_set_active (& self , space : Rid , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . space_set_active ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , space , active) ; } } # [doc = "Sets the value for a space parameter. See [enum SpaceParameter] for a list of available parameters."] # [doc = ""] # [inline] pub fn space_set_param (& self , space : Rid , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DServerMethodTable :: get (get_api ()) . space_set_param ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , space , param , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Physics2DServer { } unsafe impl GodotObject for Physics2DServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Physics2DServer" } } impl std :: ops :: Deref for Physics2DServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Physics2DServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for Physics2DServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Physics2DServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub area_add_shape : * mut sys :: godot_method_bind , pub area_attach_canvas_instance_id : * mut sys :: godot_method_bind , pub area_attach_object_instance_id : * mut sys :: godot_method_bind , pub area_clear_shapes : * mut sys :: godot_method_bind , pub area_create : * mut sys :: godot_method_bind , pub area_get_canvas_instance_id : * mut sys :: godot_method_bind , pub area_get_object_instance_id : * mut sys :: godot_method_bind , pub area_get_param : * mut sys :: godot_method_bind , pub area_get_shape : * mut sys :: godot_method_bind , pub area_get_shape_count : * mut sys :: godot_method_bind , pub area_get_shape_transform : * mut sys :: godot_method_bind , pub area_get_space : * mut sys :: godot_method_bind , pub area_get_space_override_mode : * mut sys :: godot_method_bind , pub area_get_transform : * mut sys :: godot_method_bind , pub area_remove_shape : * mut sys :: godot_method_bind , pub area_set_area_monitor_callback : * mut sys :: godot_method_bind , pub area_set_collision_layer : * mut sys :: godot_method_bind , pub area_set_collision_mask : * mut sys :: godot_method_bind , pub area_set_monitor_callback : * mut sys :: godot_method_bind , pub area_set_monitorable : * mut sys :: godot_method_bind , pub area_set_param : * mut sys :: godot_method_bind , pub area_set_shape : * mut sys :: godot_method_bind , pub area_set_shape_disabled : * mut sys :: godot_method_bind , pub area_set_shape_transform : * mut sys :: godot_method_bind , pub area_set_space : * mut sys :: godot_method_bind , pub area_set_space_override_mode : * mut sys :: godot_method_bind , pub area_set_transform : * mut sys :: godot_method_bind , pub body_add_central_force : * mut sys :: godot_method_bind , pub body_add_collision_exception : * mut sys :: godot_method_bind , pub body_add_force : * mut sys :: godot_method_bind , pub body_add_shape : * mut sys :: godot_method_bind , pub body_add_torque : * mut sys :: godot_method_bind , pub body_apply_central_impulse : * mut sys :: godot_method_bind , pub body_apply_impulse : * mut sys :: godot_method_bind , pub body_apply_torque_impulse : * mut sys :: godot_method_bind , pub body_attach_canvas_instance_id : * mut sys :: godot_method_bind , pub body_attach_object_instance_id : * mut sys :: godot_method_bind , pub body_clear_shapes : * mut sys :: godot_method_bind , pub body_create : * mut sys :: godot_method_bind , pub body_get_canvas_instance_id : * mut sys :: godot_method_bind , pub body_get_collision_layer : * mut sys :: godot_method_bind , pub body_get_collision_mask : * mut sys :: godot_method_bind , pub body_get_continuous_collision_detection_mode : * mut sys :: godot_method_bind , pub body_get_direct_state : * mut sys :: godot_method_bind , pub body_get_max_contacts_reported : * mut sys :: godot_method_bind , pub body_get_mode : * mut sys :: godot_method_bind , pub body_get_object_instance_id : * mut sys :: godot_method_bind , pub body_get_param : * mut sys :: godot_method_bind , pub body_get_shape : * mut sys :: godot_method_bind , pub body_get_shape_count : * mut sys :: godot_method_bind , pub body_get_shape_metadata : * mut sys :: godot_method_bind , pub body_get_shape_transform : * mut sys :: godot_method_bind , pub body_get_space : * mut sys :: godot_method_bind , pub body_get_state : * mut sys :: godot_method_bind , pub body_is_omitting_force_integration : * mut sys :: godot_method_bind , pub body_remove_collision_exception : * mut sys :: godot_method_bind , pub body_remove_shape : * mut sys :: godot_method_bind , pub body_set_axis_velocity : * mut sys :: godot_method_bind , pub body_set_collision_layer : * mut sys :: godot_method_bind , pub body_set_collision_mask : * mut sys :: godot_method_bind , pub body_set_continuous_collision_detection_mode : * mut sys :: godot_method_bind , pub body_set_force_integration_callback : * mut sys :: godot_method_bind , pub body_set_max_contacts_reported : * mut sys :: godot_method_bind , pub body_set_mode : * mut sys :: godot_method_bind , pub body_set_omit_force_integration : * mut sys :: godot_method_bind , pub body_set_param : * mut sys :: godot_method_bind , pub body_set_shape : * mut sys :: godot_method_bind , pub body_set_shape_as_one_way_collision : * mut sys :: godot_method_bind , pub body_set_shape_disabled : * mut sys :: godot_method_bind , pub body_set_shape_metadata : * mut sys :: godot_method_bind , pub body_set_shape_transform : * mut sys :: godot_method_bind , pub body_set_space : * mut sys :: godot_method_bind , pub body_set_state : * mut sys :: godot_method_bind , pub body_test_motion : * mut sys :: godot_method_bind , pub capsule_shape_create : * mut sys :: godot_method_bind , pub circle_shape_create : * mut sys :: godot_method_bind , pub concave_polygon_shape_create : * mut sys :: godot_method_bind , pub convex_polygon_shape_create : * mut sys :: godot_method_bind , pub damped_spring_joint_create : * mut sys :: godot_method_bind , pub damped_string_joint_get_param : * mut sys :: godot_method_bind , pub damped_string_joint_set_param : * mut sys :: godot_method_bind , pub free_rid : * mut sys :: godot_method_bind , pub get_process_info : * mut sys :: godot_method_bind , pub groove_joint_create : * mut sys :: godot_method_bind , pub joint_get_param : * mut sys :: godot_method_bind , pub joint_get_type : * mut sys :: godot_method_bind , pub joint_set_param : * mut sys :: godot_method_bind , pub line_shape_create : * mut sys :: godot_method_bind , pub pin_joint_create : * mut sys :: godot_method_bind , pub ray_shape_create : * mut sys :: godot_method_bind , pub rectangle_shape_create : * mut sys :: godot_method_bind , pub segment_shape_create : * mut sys :: godot_method_bind , pub set_active : * mut sys :: godot_method_bind , pub shape_get_data : * mut sys :: godot_method_bind , pub shape_get_type : * mut sys :: godot_method_bind , pub shape_set_data : * mut sys :: godot_method_bind , pub space_create : * mut sys :: godot_method_bind , pub space_get_direct_state : * mut sys :: godot_method_bind , pub space_get_param : * mut sys :: godot_method_bind , pub space_is_active : * mut sys :: godot_method_bind , pub space_set_active : * mut sys :: godot_method_bind , pub space_set_param : * mut sys :: godot_method_bind } impl Physics2DServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Physics2DServerMethodTable = Physics2DServerMethodTable { class_constructor : None , area_add_shape : 0 as * mut sys :: godot_method_bind , area_attach_canvas_instance_id : 0 as * mut sys :: godot_method_bind , area_attach_object_instance_id : 0 as * mut sys :: godot_method_bind , area_clear_shapes : 0 as * mut sys :: godot_method_bind , area_create : 0 as * mut sys :: godot_method_bind , area_get_canvas_instance_id : 0 as * mut sys :: godot_method_bind , area_get_object_instance_id : 0 as * mut sys :: godot_method_bind , area_get_param : 0 as * mut sys :: godot_method_bind , area_get_shape : 0 as * mut sys :: godot_method_bind , area_get_shape_count : 0 as * mut sys :: godot_method_bind , area_get_shape_transform : 0 as * mut sys :: godot_method_bind , area_get_space : 0 as * mut sys :: godot_method_bind , area_get_space_override_mode : 0 as * mut sys :: godot_method_bind , area_get_transform : 0 as * mut sys :: godot_method_bind , area_remove_shape : 0 as * mut sys :: godot_method_bind , area_set_area_monitor_callback : 0 as * mut sys :: godot_method_bind , area_set_collision_layer : 0 as * mut sys :: godot_method_bind , area_set_collision_mask : 0 as * mut sys :: godot_method_bind , area_set_monitor_callback : 0 as * mut sys :: godot_method_bind , area_set_monitorable : 0 as * mut sys :: godot_method_bind , area_set_param : 0 as * mut sys :: godot_method_bind , area_set_shape : 0 as * mut sys :: godot_method_bind , area_set_shape_disabled : 0 as * mut sys :: godot_method_bind , area_set_shape_transform : 0 as * mut sys :: godot_method_bind , area_set_space : 0 as * mut sys :: godot_method_bind , area_set_space_override_mode : 0 as * mut sys :: godot_method_bind , area_set_transform : 0 as * mut sys :: godot_method_bind , body_add_central_force : 0 as * mut sys :: godot_method_bind , body_add_collision_exception : 0 as * mut sys :: godot_method_bind , body_add_force : 0 as * mut sys :: godot_method_bind , body_add_shape : 0 as * mut sys :: godot_method_bind , body_add_torque : 0 as * mut sys :: godot_method_bind , body_apply_central_impulse : 0 as * mut sys :: godot_method_bind , body_apply_impulse : 0 as * mut sys :: godot_method_bind , body_apply_torque_impulse : 0 as * mut sys :: godot_method_bind , body_attach_canvas_instance_id : 0 as * mut sys :: godot_method_bind , body_attach_object_instance_id : 0 as * mut sys :: godot_method_bind , body_clear_shapes : 0 as * mut sys :: godot_method_bind , body_create : 0 as * mut sys :: godot_method_bind , body_get_canvas_instance_id : 0 as * mut sys :: godot_method_bind , body_get_collision_layer : 0 as * mut sys :: godot_method_bind , body_get_collision_mask : 0 as * mut sys :: godot_method_bind , body_get_continuous_collision_detection_mode : 0 as * mut sys :: godot_method_bind , body_get_direct_state : 0 as * mut sys :: godot_method_bind , body_get_max_contacts_reported : 0 as * mut sys :: godot_method_bind , body_get_mode : 0 as * mut sys :: godot_method_bind , body_get_object_instance_id : 0 as * mut sys :: godot_method_bind , body_get_param : 0 as * mut sys :: godot_method_bind , body_get_shape : 0 as * mut sys :: godot_method_bind , body_get_shape_count : 0 as * mut sys :: godot_method_bind , body_get_shape_metadata : 0 as * mut sys :: godot_method_bind , body_get_shape_transform : 0 as * mut sys :: godot_method_bind , body_get_space : 0 as * mut sys :: godot_method_bind , body_get_state : 0 as * mut sys :: godot_method_bind , body_is_omitting_force_integration : 0 as * mut sys :: godot_method_bind , body_remove_collision_exception : 0 as * mut sys :: godot_method_bind , body_remove_shape : 0 as * mut sys :: godot_method_bind , body_set_axis_velocity : 0 as * mut sys :: godot_method_bind , body_set_collision_layer : 0 as * mut sys :: godot_method_bind , body_set_collision_mask : 0 as * mut sys :: godot_method_bind , body_set_continuous_collision_detection_mode : 0 as * mut sys :: godot_method_bind , body_set_force_integration_callback : 0 as * mut sys :: godot_method_bind , body_set_max_contacts_reported : 0 as * mut sys :: godot_method_bind , body_set_mode : 0 as * mut sys :: godot_method_bind , body_set_omit_force_integration : 0 as * mut sys :: godot_method_bind , body_set_param : 0 as * mut sys :: godot_method_bind , body_set_shape : 0 as * mut sys :: godot_method_bind , body_set_shape_as_one_way_collision : 0 as * mut sys :: godot_method_bind , body_set_shape_disabled : 0 as * mut sys :: godot_method_bind , body_set_shape_metadata : 0 as * mut sys :: godot_method_bind , body_set_shape_transform : 0 as * mut sys :: godot_method_bind , body_set_space : 0 as * mut sys :: godot_method_bind , body_set_state : 0 as * mut sys :: godot_method_bind , body_test_motion : 0 as * mut sys :: godot_method_bind , capsule_shape_create : 0 as * mut sys :: godot_method_bind , circle_shape_create : 0 as * mut sys :: godot_method_bind , concave_polygon_shape_create : 0 as * mut sys :: godot_method_bind , convex_polygon_shape_create : 0 as * mut sys :: godot_method_bind , damped_spring_joint_create : 0 as * mut sys :: godot_method_bind , damped_string_joint_get_param : 0 as * mut sys :: godot_method_bind , damped_string_joint_set_param : 0 as * mut sys :: godot_method_bind , free_rid : 0 as * mut sys :: godot_method_bind , get_process_info : 0 as * mut sys :: godot_method_bind , groove_joint_create : 0 as * mut sys :: godot_method_bind , joint_get_param : 0 as * mut sys :: godot_method_bind , joint_get_type : 0 as * mut sys :: godot_method_bind , joint_set_param : 0 as * mut sys :: godot_method_bind , line_shape_create : 0 as * mut sys :: godot_method_bind , pin_joint_create : 0 as * mut sys :: godot_method_bind , ray_shape_create : 0 as * mut sys :: godot_method_bind , rectangle_shape_create : 0 as * mut sys :: godot_method_bind , segment_shape_create : 0 as * mut sys :: godot_method_bind , set_active : 0 as * mut sys :: godot_method_bind , shape_get_data : 0 as * mut sys :: godot_method_bind , shape_get_type : 0 as * mut sys :: godot_method_bind , shape_set_data : 0 as * mut sys :: godot_method_bind , space_create : 0 as * mut sys :: godot_method_bind , space_get_direct_state : 0 as * mut sys :: godot_method_bind , space_get_param : 0 as * mut sys :: godot_method_bind , space_is_active : 0 as * mut sys :: godot_method_bind , space_set_active : 0 as * mut sys :: godot_method_bind , space_set_param : 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 (|| { Physics2DServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Physics2DServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . area_add_shape = (gd_api . godot_method_bind_get_method) (class_name , "area_add_shape\0" . as_ptr () as * const c_char) ; table . area_attach_canvas_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "area_attach_canvas_instance_id\0" . as_ptr () as * const c_char) ; table . area_attach_object_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "area_attach_object_instance_id\0" . as_ptr () as * const c_char) ; table . area_clear_shapes = (gd_api . godot_method_bind_get_method) (class_name , "area_clear_shapes\0" . as_ptr () as * const c_char) ; table . area_create = (gd_api . godot_method_bind_get_method) (class_name , "area_create\0" . as_ptr () as * const c_char) ; table . area_get_canvas_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "area_get_canvas_instance_id\0" . as_ptr () as * const c_char) ; table . area_get_object_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "area_get_object_instance_id\0" . as_ptr () as * const c_char) ; table . area_get_param = (gd_api . godot_method_bind_get_method) (class_name , "area_get_param\0" . as_ptr () as * const c_char) ; table . area_get_shape = (gd_api . godot_method_bind_get_method) (class_name , "area_get_shape\0" . as_ptr () as * const c_char) ; table . area_get_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "area_get_shape_count\0" . as_ptr () as * const c_char) ; table . area_get_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "area_get_shape_transform\0" . as_ptr () as * const c_char) ; table . area_get_space = (gd_api . godot_method_bind_get_method) (class_name , "area_get_space\0" . as_ptr () as * const c_char) ; table . area_get_space_override_mode = (gd_api . godot_method_bind_get_method) (class_name , "area_get_space_override_mode\0" . as_ptr () as * const c_char) ; table . area_get_transform = (gd_api . godot_method_bind_get_method) (class_name , "area_get_transform\0" . as_ptr () as * const c_char) ; table . area_remove_shape = (gd_api . godot_method_bind_get_method) (class_name , "area_remove_shape\0" . as_ptr () as * const c_char) ; table . area_set_area_monitor_callback = (gd_api . godot_method_bind_get_method) (class_name , "area_set_area_monitor_callback\0" . as_ptr () as * const c_char) ; table . area_set_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "area_set_collision_layer\0" . as_ptr () as * const c_char) ; table . area_set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "area_set_collision_mask\0" . as_ptr () as * const c_char) ; table . area_set_monitor_callback = (gd_api . godot_method_bind_get_method) (class_name , "area_set_monitor_callback\0" . as_ptr () as * const c_char) ; table . area_set_monitorable = (gd_api . godot_method_bind_get_method) (class_name , "area_set_monitorable\0" . as_ptr () as * const c_char) ; table . area_set_param = (gd_api . godot_method_bind_get_method) (class_name , "area_set_param\0" . as_ptr () as * const c_char) ; table . area_set_shape = (gd_api . godot_method_bind_get_method) (class_name , "area_set_shape\0" . as_ptr () as * const c_char) ; table . area_set_shape_disabled = (gd_api . godot_method_bind_get_method) (class_name , "area_set_shape_disabled\0" . as_ptr () as * const c_char) ; table . area_set_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "area_set_shape_transform\0" . as_ptr () as * const c_char) ; table . area_set_space = (gd_api . godot_method_bind_get_method) (class_name , "area_set_space\0" . as_ptr () as * const c_char) ; table . area_set_space_override_mode = (gd_api . godot_method_bind_get_method) (class_name , "area_set_space_override_mode\0" . as_ptr () as * const c_char) ; table . area_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "area_set_transform\0" . as_ptr () as * const c_char) ; table . body_add_central_force = (gd_api . godot_method_bind_get_method) (class_name , "body_add_central_force\0" . as_ptr () as * const c_char) ; table . body_add_collision_exception = (gd_api . godot_method_bind_get_method) (class_name , "body_add_collision_exception\0" . as_ptr () as * const c_char) ; table . body_add_force = (gd_api . godot_method_bind_get_method) (class_name , "body_add_force\0" . as_ptr () as * const c_char) ; table . body_add_shape = (gd_api . godot_method_bind_get_method) (class_name , "body_add_shape\0" . as_ptr () as * const c_char) ; table . body_add_torque = (gd_api . godot_method_bind_get_method) (class_name , "body_add_torque\0" . as_ptr () as * const c_char) ; table . body_apply_central_impulse = (gd_api . godot_method_bind_get_method) (class_name , "body_apply_central_impulse\0" . as_ptr () as * const c_char) ; table . body_apply_impulse = (gd_api . godot_method_bind_get_method) (class_name , "body_apply_impulse\0" . as_ptr () as * const c_char) ; table . body_apply_torque_impulse = (gd_api . godot_method_bind_get_method) (class_name , "body_apply_torque_impulse\0" . as_ptr () as * const c_char) ; table . body_attach_canvas_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "body_attach_canvas_instance_id\0" . as_ptr () as * const c_char) ; table . body_attach_object_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "body_attach_object_instance_id\0" . as_ptr () as * const c_char) ; table . body_clear_shapes = (gd_api . godot_method_bind_get_method) (class_name , "body_clear_shapes\0" . as_ptr () as * const c_char) ; table . body_create = (gd_api . godot_method_bind_get_method) (class_name , "body_create\0" . as_ptr () as * const c_char) ; table . body_get_canvas_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "body_get_canvas_instance_id\0" . as_ptr () as * const c_char) ; table . body_get_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "body_get_collision_layer\0" . as_ptr () as * const c_char) ; table . body_get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "body_get_collision_mask\0" . as_ptr () as * const c_char) ; table . body_get_continuous_collision_detection_mode = (gd_api . godot_method_bind_get_method) (class_name , "body_get_continuous_collision_detection_mode\0" . as_ptr () as * const c_char) ; table . body_get_direct_state = (gd_api . godot_method_bind_get_method) (class_name , "body_get_direct_state\0" . as_ptr () as * const c_char) ; table . body_get_max_contacts_reported = (gd_api . godot_method_bind_get_method) (class_name , "body_get_max_contacts_reported\0" . as_ptr () as * const c_char) ; table . body_get_mode = (gd_api . godot_method_bind_get_method) (class_name , "body_get_mode\0" . as_ptr () as * const c_char) ; table . body_get_object_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "body_get_object_instance_id\0" . as_ptr () as * const c_char) ; table . body_get_param = (gd_api . godot_method_bind_get_method) (class_name , "body_get_param\0" . as_ptr () as * const c_char) ; table . body_get_shape = (gd_api . godot_method_bind_get_method) (class_name , "body_get_shape\0" . as_ptr () as * const c_char) ; table . body_get_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "body_get_shape_count\0" . as_ptr () as * const c_char) ; table . body_get_shape_metadata = (gd_api . godot_method_bind_get_method) (class_name , "body_get_shape_metadata\0" . as_ptr () as * const c_char) ; table . body_get_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "body_get_shape_transform\0" . as_ptr () as * const c_char) ; table . body_get_space = (gd_api . godot_method_bind_get_method) (class_name , "body_get_space\0" . as_ptr () as * const c_char) ; table . body_get_state = (gd_api . godot_method_bind_get_method) (class_name , "body_get_state\0" . as_ptr () as * const c_char) ; table . body_is_omitting_force_integration = (gd_api . godot_method_bind_get_method) (class_name , "body_is_omitting_force_integration\0" . as_ptr () as * const c_char) ; table . body_remove_collision_exception = (gd_api . godot_method_bind_get_method) (class_name , "body_remove_collision_exception\0" . as_ptr () as * const c_char) ; table . body_remove_shape = (gd_api . godot_method_bind_get_method) (class_name , "body_remove_shape\0" . as_ptr () as * const c_char) ; table . body_set_axis_velocity = (gd_api . godot_method_bind_get_method) (class_name , "body_set_axis_velocity\0" . as_ptr () as * const c_char) ; table . body_set_collision_layer = (gd_api . godot_method_bind_get_method) (class_name , "body_set_collision_layer\0" . as_ptr () as * const c_char) ; table . body_set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "body_set_collision_mask\0" . as_ptr () as * const c_char) ; table . body_set_continuous_collision_detection_mode = (gd_api . godot_method_bind_get_method) (class_name , "body_set_continuous_collision_detection_mode\0" . as_ptr () as * const c_char) ; table . body_set_force_integration_callback = (gd_api . godot_method_bind_get_method) (class_name , "body_set_force_integration_callback\0" . as_ptr () as * const c_char) ; table . body_set_max_contacts_reported = (gd_api . godot_method_bind_get_method) (class_name , "body_set_max_contacts_reported\0" . as_ptr () as * const c_char) ; table . body_set_mode = (gd_api . godot_method_bind_get_method) (class_name , "body_set_mode\0" . as_ptr () as * const c_char) ; table . body_set_omit_force_integration = (gd_api . godot_method_bind_get_method) (class_name , "body_set_omit_force_integration\0" . as_ptr () as * const c_char) ; table . body_set_param = (gd_api . godot_method_bind_get_method) (class_name , "body_set_param\0" . as_ptr () as * const c_char) ; table . body_set_shape = (gd_api . godot_method_bind_get_method) (class_name , "body_set_shape\0" . as_ptr () as * const c_char) ; table . body_set_shape_as_one_way_collision = (gd_api . godot_method_bind_get_method) (class_name , "body_set_shape_as_one_way_collision\0" . as_ptr () as * const c_char) ; table . body_set_shape_disabled = (gd_api . godot_method_bind_get_method) (class_name , "body_set_shape_disabled\0" . as_ptr () as * const c_char) ; table . body_set_shape_metadata = (gd_api . godot_method_bind_get_method) (class_name , "body_set_shape_metadata\0" . as_ptr () as * const c_char) ; table . body_set_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "body_set_shape_transform\0" . as_ptr () as * const c_char) ; table . body_set_space = (gd_api . godot_method_bind_get_method) (class_name , "body_set_space\0" . as_ptr () as * const c_char) ; table . body_set_state = (gd_api . godot_method_bind_get_method) (class_name , "body_set_state\0" . as_ptr () as * const c_char) ; table . body_test_motion = (gd_api . godot_method_bind_get_method) (class_name , "body_test_motion\0" . as_ptr () as * const c_char) ; table . capsule_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "capsule_shape_create\0" . as_ptr () as * const c_char) ; table . circle_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "circle_shape_create\0" . as_ptr () as * const c_char) ; table . concave_polygon_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "concave_polygon_shape_create\0" . as_ptr () as * const c_char) ; table . convex_polygon_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "convex_polygon_shape_create\0" . as_ptr () as * const c_char) ; table . damped_spring_joint_create = (gd_api . godot_method_bind_get_method) (class_name , "damped_spring_joint_create\0" . as_ptr () as * const c_char) ; table . damped_string_joint_get_param = (gd_api . godot_method_bind_get_method) (class_name , "damped_string_joint_get_param\0" . as_ptr () as * const c_char) ; table . damped_string_joint_set_param = (gd_api . godot_method_bind_get_method) (class_name , "damped_string_joint_set_param\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_process_info = (gd_api . godot_method_bind_get_method) (class_name , "get_process_info\0" . as_ptr () as * const c_char) ; table . groove_joint_create = (gd_api . godot_method_bind_get_method) (class_name , "groove_joint_create\0" . as_ptr () as * const c_char) ; table . joint_get_param = (gd_api . godot_method_bind_get_method) (class_name , "joint_get_param\0" . as_ptr () as * const c_char) ; table . joint_get_type = (gd_api . godot_method_bind_get_method) (class_name , "joint_get_type\0" . as_ptr () as * const c_char) ; table . joint_set_param = (gd_api . godot_method_bind_get_method) (class_name , "joint_set_param\0" . as_ptr () as * const c_char) ; table . line_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "line_shape_create\0" . as_ptr () as * const c_char) ; table . pin_joint_create = (gd_api . godot_method_bind_get_method) (class_name , "pin_joint_create\0" . as_ptr () as * const c_char) ; table . ray_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "ray_shape_create\0" . as_ptr () as * const c_char) ; table . rectangle_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "rectangle_shape_create\0" . as_ptr () as * const c_char) ; table . segment_shape_create = (gd_api . godot_method_bind_get_method) (class_name , "segment_shape_create\0" . as_ptr () as * const c_char) ; table . set_active = (gd_api . godot_method_bind_get_method) (class_name , "set_active\0" . as_ptr () as * const c_char) ; table . shape_get_data = (gd_api . godot_method_bind_get_method) (class_name , "shape_get_data\0" . as_ptr () as * const c_char) ; table . shape_get_type = (gd_api . godot_method_bind_get_method) (class_name , "shape_get_type\0" . as_ptr () as * const c_char) ; table . shape_set_data = (gd_api . godot_method_bind_get_method) (class_name , "shape_set_data\0" . as_ptr () as * const c_char) ; table . space_create = (gd_api . godot_method_bind_get_method) (class_name , "space_create\0" . as_ptr () as * const c_char) ; table . space_get_direct_state = (gd_api . godot_method_bind_get_method) (class_name , "space_get_direct_state\0" . as_ptr () as * const c_char) ; table . space_get_param = (gd_api . godot_method_bind_get_method) (class_name , "space_get_param\0" . as_ptr () as * const c_char) ; table . space_is_active = (gd_api . godot_method_bind_get_method) (class_name , "space_is_active\0" . as_ptr () as * const c_char) ; table . space_set_active = (gd_api . godot_method_bind_get_method) (class_name , "space_set_active\0" . as_ptr () as * const c_char) ; table . space_set_param = (gd_api . godot_method_bind_get_method) (class_name , "space_set_param\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-60c8dbcfaf0f3dfc/out/generated.rs:166:5335 [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 HashingContext` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_hashingcontext.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\nHashingContext 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 HashingContext { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct HashType (pub i64) ; impl HashType { pub const MD5 : HashType = HashType (0i64) ; pub const SHA1 : HashType = HashType (1i64) ; pub const SHA256 : HashType = HashType (2i64) ; } impl From < i64 > for HashType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < HashType > for i64 { # [inline] fn from (v : HashType) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl HashingContext { pub const HASH_MD5 : i64 = 0i64 ; pub const HASH_SHA1 : i64 = 1i64 ; pub const HASH_SHA256 : i64 = 2i64 ; } impl HashingContext { # [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 = HashingContextMethodTable :: 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 context, and return the computed hash."] # [doc = ""] # [inline] pub fn finish (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = HashingContextMethodTable :: get (get_api ()) . finish ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = "Starts a new hash computation of the given `type` (e.g. [constant HASH_SHA256] to start computation of a SHA-256)."] # [doc = ""] # [inline] pub fn start (& self , _type : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = HashingContextMethodTable :: get (get_api ()) . start ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Updates the computation with the given `chunk` of data."] # [doc = ""] # [inline] pub fn update (& self , chunk : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = HashingContextMethodTable :: get (get_api ()) . update ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , chunk) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for HashingContext { } unsafe impl GodotObject for HashingContext { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "HashingContext" } } impl std :: ops :: Deref for HashingContext { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HashingContext { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for HashingContext { } unsafe impl SubClass < crate :: generated :: object :: Object > for HashingContext { } impl Instanciable for HashingContext { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HashingContext :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HashingContextMethodTable { pub class_constructor : sys :: godot_class_constructor , pub finish : * mut sys :: godot_method_bind , pub start : * mut sys :: godot_method_bind , pub update : * mut sys :: godot_method_bind } impl HashingContextMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HashingContextMethodTable = HashingContextMethodTable { class_constructor : None , finish : 0 as * mut sys :: godot_method_bind , start : 0 as * mut sys :: godot_method_bind , update : 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 (|| { HashingContextMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HashingContext\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . finish = (gd_api . godot_method_bind_get_method) (class_name , "finish\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 . update = (gd_api . godot_method_bind_get_method) (class_name , "update\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-60c8dbcfaf0f3dfc/out/generated.rs:172:3679 [INFO] [stdout] | [INFO] [stdout] 172 | ...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] 172 | # [doc = "`core class VisualShaderNodeSwitch` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodeswitch.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\nVisualShaderNodeSwitch 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 VisualShaderNodeSwitch { this : RawObject < Self > , } impl VisualShaderNodeSwitch { # [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 = VisualShaderNodeSwitchMethodTable :: 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 VisualShaderNodeSwitch { } unsafe impl GodotObject for VisualShaderNodeSwitch { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeSwitch" } } impl std :: ops :: Deref for VisualShaderNodeSwitch { 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 VisualShaderNodeSwitch { # [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 VisualShaderNodeSwitch { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeSwitch { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeSwitch { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeSwitch { } impl Instanciable for VisualShaderNodeSwitch { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeSwitch :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeSwitchMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeSwitchMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeSwitchMethodTable = VisualShaderNodeSwitchMethodTable { 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 (|| { VisualShaderNodeSwitchMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeSwitch\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-60c8dbcfaf0f3dfc/out/generated.rs:178:6160 [INFO] [stdout] | [INFO] [stdout] 178 | ... : 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] 178 | # [doc = "`core class Skeleton2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_skeleton2d.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`Skeleton2D` 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\nSkeleton2D 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 Skeleton2D { this : RawObject < Self > , } impl Skeleton2D { # [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 = Skeleton2DMethodTable :: 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 [Bone2D] from the node hierarchy parented by Skeleton2D. The object to return is identified by the parameter `idx`. Bones are indexed by descending the node hierarchy from top to bottom, adding the children of each branch before moving to the next sibling."] # [doc = ""] # [inline] pub fn get_bone (& self , idx : i64) -> Option < Ref < crate :: generated :: bone_2d :: Bone2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Skeleton2DMethodTable :: get (get_api ()) . get_bone ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: bone_2d :: Bone2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of [Bone2D] nodes in the node hierarchy parented by Skeleton2D."] # [doc = ""] # [inline] pub fn get_bone_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Skeleton2DMethodTable :: get (get_api ()) . get_bone_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the [RID] of a Skeleton2D instance."] # [doc = ""] # [inline] pub fn get_skeleton (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Skeleton2DMethodTable :: get (get_api ()) . get_skeleton ; 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 Skeleton2D { } unsafe impl GodotObject for Skeleton2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Skeleton2D" } } impl QueueFree for Skeleton2D { # [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 Skeleton2D { 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 Skeleton2D { # [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 Skeleton2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Skeleton2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Skeleton2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Skeleton2D { } impl Instanciable for Skeleton2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Skeleton2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Skeleton2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bone : * mut sys :: godot_method_bind , pub get_bone_count : * mut sys :: godot_method_bind , pub get_skeleton : * mut sys :: godot_method_bind } impl Skeleton2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Skeleton2DMethodTable = Skeleton2DMethodTable { class_constructor : None , get_bone : 0 as * mut sys :: godot_method_bind , get_bone_count : 0 as * mut sys :: godot_method_bind , get_skeleton : 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 (|| { Skeleton2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Skeleton2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bone = (gd_api . godot_method_bind_get_method) (class_name , "get_bone\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_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "get_skeleton\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-60c8dbcfaf0f3dfc/out/generated.rs:184:7110 [INFO] [stdout] | [INFO] [stdout] 184 | ... : 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] 184 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:190:3868 [INFO] [stdout] | [INFO] [stdout] 190 | ...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] 190 | # [doc = "`core class VisualShaderNodeVectorDecompose` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectordecompose.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\nVisualShaderNodeVectorDecompose 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 VisualShaderNodeVectorDecompose { this : RawObject < Self > , } impl VisualShaderNodeVectorDecompose { # [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 = VisualShaderNodeVectorDecomposeMethodTable :: 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 VisualShaderNodeVectorDecompose { } unsafe impl GodotObject for VisualShaderNodeVectorDecompose { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorDecompose" } } impl std :: ops :: Deref for VisualShaderNodeVectorDecompose { 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 VisualShaderNodeVectorDecompose { # [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 VisualShaderNodeVectorDecompose { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorDecompose { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorDecompose { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorDecompose { } impl Instanciable for VisualShaderNodeVectorDecompose { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorDecompose :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorDecomposeMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorDecomposeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorDecomposeMethodTable = VisualShaderNodeVectorDecomposeMethodTable { 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 (|| { VisualShaderNodeVectorDecomposeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorDecompose\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-60c8dbcfaf0f3dfc/out/generated.rs:196:3482 [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 WeakRef` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_weakref.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\nWeakRef 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 WeakRef { this : RawObject < Self > , } impl WeakRef { # [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 = WeakRefMethodTable :: 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 [Object] this weakref is referring to."] # [doc = ""] # [inline] pub fn get_ref (& self) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = WeakRefMethodTable :: get (get_api ()) . get_ref ; let ret = crate :: icalls :: icallptr_var (method_bind , self . this . sys () . as_ptr ()) ; Variant :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for WeakRef { } unsafe impl GodotObject for WeakRef { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "WeakRef" } } impl std :: ops :: Deref for WeakRef { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WeakRef { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for WeakRef { } unsafe impl SubClass < crate :: generated :: object :: Object > for WeakRef { } impl Instanciable for WeakRef { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { WeakRef :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WeakRefMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_ref : * mut sys :: godot_method_bind } impl WeakRefMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WeakRefMethodTable = WeakRefMethodTable { class_constructor : None , get_ref : 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 (|| { WeakRefMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WeakRef\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_ref = (gd_api . godot_method_bind_get_method) (class_name , "get_ref\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-60c8dbcfaf0f3dfc/out/generated.rs:202:13139 [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 AnimationTree` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationtree.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`AnimationTree` 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\nAnimationTree 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 AnimationTree { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AnimationProcessMode (pub i64) ; impl AnimationProcessMode { pub const PHYSICS : AnimationProcessMode = AnimationProcessMode (0i64) ; pub const IDLE : AnimationProcessMode = AnimationProcessMode (1i64) ; pub const MANUAL : AnimationProcessMode = AnimationProcessMode (2i64) ; } impl From < i64 > for AnimationProcessMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AnimationProcessMode > for i64 { # [inline] fn from (v : AnimationProcessMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationTree { pub const ANIMATION_PROCESS_IDLE : i64 = 1i64 ; pub const ANIMATION_PROCESS_MANUAL : i64 = 2i64 ; pub const ANIMATION_PROCESS_PHYSICS : i64 = 0i64 ; } impl AnimationTree { # [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 = AnimationTreeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Manually advance the animations by the specified time (in seconds)."] # [doc = ""] # [inline] pub fn advance (& self , delta : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . advance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , delta) ; } } # [doc = "The path to the [AnimationPlayer] used for animating."] # [doc = ""] # [inline] pub fn animation_player (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . get_animation_player ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The process mode of this [AnimationTree]. See [enum AnimationProcessMode] for available modes."] # [doc = ""] # [inline] pub fn process_mode (& self) -> crate :: generated :: animation_tree :: AnimationProcessMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . get_process_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: animation_tree :: AnimationProcessMode (ret) } } # [doc = "The path to the Animation track used for root motion. Paths must be valid scene-tree paths to a node, and must be specified starting from the parent node of the node that will reproduce the animation. To specify a track that controls properties or bones, append its name after the path, separated by `\":\"`. For example, `\"character/skeleton:ankle\"` or `\"character/mesh:transform/local\"`.\nIf the track has type [constant Animation.TYPE_TRANSFORM], the transformation will be cancelled visually, and the animation will appear to stay in place."] # [doc = ""] # [inline] pub fn root_motion_track (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . get_root_motion_track ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "Retrieve the motion of the [member root_motion_track] as a [Transform] that can be used elsewhere. If [member root_motion_track] is not a path to a track of type [constant Animation.TYPE_TRANSFORM], returns an identity transformation."] # [doc = ""] # [inline] pub fn get_root_motion_transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . get_root_motion_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The root animation node of this [AnimationTree]. See [AnimationNode]."] # [doc = ""] # [inline] pub fn tree_root (& self) -> Option < Ref < crate :: generated :: animation_node :: AnimationNode , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . get_tree_root ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: animation_node :: AnimationNode , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, the [AnimationTree] will be processing."] # [doc = ""] # [inline] pub fn is_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . is_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn rename_parameter (& self , old_name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . rename_parameter ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , old_name . into () , new_name . into ()) ; } } # [doc = "If `true`, the [AnimationTree] will be processing."] # [doc = ""] # [inline] pub fn set_active (& self , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . set_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , active) ; } } # [doc = "The path to the [AnimationPlayer] used for animating."] # [doc = ""] # [inline] pub fn set_animation_player (& self , root : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . set_animation_player ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , root . into ()) ; } } # [doc = "The process mode of this [AnimationTree]. See [enum AnimationProcessMode] for available modes."] # [doc = ""] # [inline] pub fn set_process_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . set_process_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The path to the Animation track used for root motion. Paths must be valid scene-tree paths to a node, and must be specified starting from the parent node of the node that will reproduce the animation. To specify a track that controls properties or bones, append its name after the path, separated by `\":\"`. For example, `\"character/skeleton:ankle\"` or `\"character/mesh:transform/local\"`.\nIf the track has type [constant Animation.TYPE_TRANSFORM], the transformation will be cancelled visually, and the animation will appear to stay in place."] # [doc = ""] # [inline] pub fn set_root_motion_track (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . set_root_motion_track ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "The root animation node of this [AnimationTree]. See [AnimationNode]."] # [doc = ""] # [inline] pub fn set_tree_root (& self , root : impl AsArg < crate :: generated :: animation_node :: AnimationNode >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationTreeMethodTable :: get (get_api ()) . set_tree_root ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , root . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationTree { } unsafe impl GodotObject for AnimationTree { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "AnimationTree" } } impl QueueFree for AnimationTree { # [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 AnimationTree { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationTree { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for AnimationTree { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationTree { } impl Instanciable for AnimationTree { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationTree :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationTreeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub advance : * mut sys :: godot_method_bind , pub get_animation_player : * mut sys :: godot_method_bind , pub get_process_mode : * mut sys :: godot_method_bind , pub get_root_motion_track : * mut sys :: godot_method_bind , pub get_root_motion_transform : * mut sys :: godot_method_bind , pub get_tree_root : * mut sys :: godot_method_bind , pub is_active : * mut sys :: godot_method_bind , pub rename_parameter : * mut sys :: godot_method_bind , pub set_active : * mut sys :: godot_method_bind , pub set_animation_player : * mut sys :: godot_method_bind , pub set_process_mode : * mut sys :: godot_method_bind , pub set_root_motion_track : * mut sys :: godot_method_bind , pub set_tree_root : * mut sys :: godot_method_bind } impl AnimationTreeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationTreeMethodTable = AnimationTreeMethodTable { class_constructor : None , advance : 0 as * mut sys :: godot_method_bind , get_animation_player : 0 as * mut sys :: godot_method_bind , get_process_mode : 0 as * mut sys :: godot_method_bind , get_root_motion_track : 0 as * mut sys :: godot_method_bind , get_root_motion_transform : 0 as * mut sys :: godot_method_bind , get_tree_root : 0 as * mut sys :: godot_method_bind , is_active : 0 as * mut sys :: godot_method_bind , rename_parameter : 0 as * mut sys :: godot_method_bind , set_active : 0 as * mut sys :: godot_method_bind , set_animation_player : 0 as * mut sys :: godot_method_bind , set_process_mode : 0 as * mut sys :: godot_method_bind , set_root_motion_track : 0 as * mut sys :: godot_method_bind , set_tree_root : 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 (|| { AnimationTreeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationTree\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . advance = (gd_api . godot_method_bind_get_method) (class_name , "advance\0" . as_ptr () as * const c_char) ; table . get_animation_player = (gd_api . godot_method_bind_get_method) (class_name , "get_animation_player\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 . get_root_motion_track = (gd_api . godot_method_bind_get_method) (class_name , "get_root_motion_track\0" . as_ptr () as * const c_char) ; table . get_root_motion_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_root_motion_transform\0" . as_ptr () as * const c_char) ; table . get_tree_root = (gd_api . godot_method_bind_get_method) (class_name , "get_tree_root\0" . as_ptr () as * const c_char) ; table . is_active = (gd_api . godot_method_bind_get_method) (class_name , "is_active\0" . as_ptr () as * const c_char) ; table . rename_parameter = (gd_api . godot_method_bind_get_method) (class_name , "rename_parameter\0" . as_ptr () as * const c_char) ; table . set_active = (gd_api . godot_method_bind_get_method) (class_name , "set_active\0" . as_ptr () as * const c_char) ; table . set_animation_player = (gd_api . godot_method_bind_get_method) (class_name , "set_animation_player\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) ; table . set_root_motion_track = (gd_api . godot_method_bind_get_method) (class_name , "set_root_motion_track\0" . as_ptr () as * const c_char) ; table . set_tree_root = (gd_api . godot_method_bind_get_method) (class_name , "set_tree_root\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-60c8dbcfaf0f3dfc/out/generated.rs:208:3784 [INFO] [stdout] | [INFO] [stdout] 208 | ...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] 208 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:214:5943 [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 = "`core class VisibilityNotifier` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visibilitynotifier.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`VisibilityNotifier` 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\nVisibilityNotifier 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 VisibilityNotifier { this : RawObject < Self > , } impl VisibilityNotifier { # [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 = VisibilityNotifierMethodTable :: 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 VisibilityNotifier's bounding box."] # [doc = ""] # [inline] pub fn aabb (& self) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisibilityNotifierMethodTable :: get (get_api ()) . get_aabb ; let ret = crate :: icalls :: icallptr_aabb (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, the bounding box is on the screen.\n**Note:** It takes one frame for the node's visibility to be assessed once added to the scene tree, so this method will return `false` right after it is instantiated, even if it will be on screen in the draw pass."] # [doc = ""] # [inline] pub fn is_on_screen (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisibilityNotifierMethodTable :: get (get_api ()) . is_on_screen ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The VisibilityNotifier's bounding box."] # [doc = ""] # [inline] pub fn set_aabb (& self , rect : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisibilityNotifierMethodTable :: get (get_api ()) . set_aabb ; let ret = crate :: icalls :: icallptr_void_aabb (method_bind , self . this . sys () . as_ptr () , rect) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisibilityNotifier { } unsafe impl GodotObject for VisibilityNotifier { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "VisibilityNotifier" } } impl QueueFree for VisibilityNotifier { # [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 VisibilityNotifier { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisibilityNotifier { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for VisibilityNotifier { } unsafe impl SubClass < crate :: generated :: node :: Node > for VisibilityNotifier { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisibilityNotifier { } impl Instanciable for VisibilityNotifier { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisibilityNotifier :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisibilityNotifierMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_aabb : * mut sys :: godot_method_bind , pub is_on_screen : * mut sys :: godot_method_bind , pub set_aabb : * mut sys :: godot_method_bind } impl VisibilityNotifierMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisibilityNotifierMethodTable = VisibilityNotifierMethodTable { class_constructor : None , get_aabb : 0 as * mut sys :: godot_method_bind , is_on_screen : 0 as * mut sys :: godot_method_bind , set_aabb : 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 (|| { VisibilityNotifierMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisibilityNotifier\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_aabb = (gd_api . godot_method_bind_get_method) (class_name , "get_aabb\0" . as_ptr () as * const c_char) ; table . is_on_screen = (gd_api . godot_method_bind_get_method) (class_name , "is_on_screen\0" . as_ptr () as * const c_char) ; table . set_aabb = (gd_api . godot_method_bind_get_method) (class_name , "set_aabb\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-60c8dbcfaf0f3dfc/out/generated.rs:220:9444 [INFO] [stdout] | [INFO] [stdout] 220 | ... : 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] 220 | # [doc = "`core class WebXRInterface` inherits `ARVRInterface` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_webxrinterface.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\nWebXRInterface inherits methods from:\n - [ARVRInterface](struct.ARVRInterface.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 WebXRInterface { this : RawObject < Self > , } impl WebXRInterface { # [doc = ""] # [doc = ""] # [inline] pub fn bounds_geometry (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_bounds_geometry ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_controller (& self , controller_id : i64) -> Option < Ref < crate :: generated :: arvr_positional_tracker :: ARVRPositionalTracker , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_controller ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , controller_id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: arvr_positional_tracker :: ARVRPositionalTracker , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn optional_features (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_optional_features ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn reference_space_type (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_reference_space_type ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn requested_reference_space_types (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_requested_reference_space_types ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn required_features (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_required_features ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn session_mode (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_session_mode ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn visibility_state (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . get_visibility_state ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_session_supported (& self , session_mode : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . is_session_supported ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , session_mode . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_optional_features (& self , optional_features : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . set_optional_features ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , optional_features . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_requested_reference_space_types (& self , requested_reference_space_types : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . set_requested_reference_space_types ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , requested_reference_space_types . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_required_features (& self , required_features : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . set_required_features ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , required_features . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_session_mode (& self , session_mode : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebXRInterfaceMethodTable :: get (get_api ()) . set_session_mode ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , session_mode . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for WebXRInterface { } unsafe impl GodotObject for WebXRInterface { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "WebXRInterface" } } impl std :: ops :: Deref for WebXRInterface { type Target = crate :: generated :: arvr_interface :: ARVRInterface ; # [inline] fn deref (& self) -> & crate :: generated :: arvr_interface :: ARVRInterface { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WebXRInterface { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: arvr_interface :: ARVRInterface { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: arvr_interface :: ARVRInterface > for WebXRInterface { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for WebXRInterface { } unsafe impl SubClass < crate :: generated :: object :: Object > for WebXRInterface { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WebXRInterfaceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bounds_geometry : * mut sys :: godot_method_bind , pub get_controller : * mut sys :: godot_method_bind , pub get_optional_features : * mut sys :: godot_method_bind , pub get_reference_space_type : * mut sys :: godot_method_bind , pub get_requested_reference_space_types : * mut sys :: godot_method_bind , pub get_required_features : * mut sys :: godot_method_bind , pub get_session_mode : * mut sys :: godot_method_bind , pub get_visibility_state : * mut sys :: godot_method_bind , pub is_session_supported : * mut sys :: godot_method_bind , pub set_optional_features : * mut sys :: godot_method_bind , pub set_requested_reference_space_types : * mut sys :: godot_method_bind , pub set_required_features : * mut sys :: godot_method_bind , pub set_session_mode : * mut sys :: godot_method_bind } impl WebXRInterfaceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WebXRInterfaceMethodTable = WebXRInterfaceMethodTable { class_constructor : None , get_bounds_geometry : 0 as * mut sys :: godot_method_bind , get_controller : 0 as * mut sys :: godot_method_bind , get_optional_features : 0 as * mut sys :: godot_method_bind , get_reference_space_type : 0 as * mut sys :: godot_method_bind , get_requested_reference_space_types : 0 as * mut sys :: godot_method_bind , get_required_features : 0 as * mut sys :: godot_method_bind , get_session_mode : 0 as * mut sys :: godot_method_bind , get_visibility_state : 0 as * mut sys :: godot_method_bind , is_session_supported : 0 as * mut sys :: godot_method_bind , set_optional_features : 0 as * mut sys :: godot_method_bind , set_requested_reference_space_types : 0 as * mut sys :: godot_method_bind , set_required_features : 0 as * mut sys :: godot_method_bind , set_session_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 (|| { WebXRInterfaceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WebXRInterface\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bounds_geometry = (gd_api . godot_method_bind_get_method) (class_name , "get_bounds_geometry\0" . as_ptr () as * const c_char) ; table . get_controller = (gd_api . godot_method_bind_get_method) (class_name , "get_controller\0" . as_ptr () as * const c_char) ; table . get_optional_features = (gd_api . godot_method_bind_get_method) (class_name , "get_optional_features\0" . as_ptr () as * const c_char) ; table . get_reference_space_type = (gd_api . godot_method_bind_get_method) (class_name , "get_reference_space_type\0" . as_ptr () as * const c_char) ; table . get_requested_reference_space_types = (gd_api . godot_method_bind_get_method) (class_name , "get_requested_reference_space_types\0" . as_ptr () as * const c_char) ; table . get_required_features = (gd_api . godot_method_bind_get_method) (class_name , "get_required_features\0" . as_ptr () as * const c_char) ; table . get_session_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_session_mode\0" . as_ptr () as * const c_char) ; table . get_visibility_state = (gd_api . godot_method_bind_get_method) (class_name , "get_visibility_state\0" . as_ptr () as * const c_char) ; table . is_session_supported = (gd_api . godot_method_bind_get_method) (class_name , "is_session_supported\0" . as_ptr () as * const c_char) ; table . set_optional_features = (gd_api . godot_method_bind_get_method) (class_name , "set_optional_features\0" . as_ptr () as * const c_char) ; table . set_requested_reference_space_types = (gd_api . godot_method_bind_get_method) (class_name , "set_requested_reference_space_types\0" . as_ptr () as * const c_char) ; table . set_required_features = (gd_api . godot_method_bind_get_method) (class_name , "set_required_features\0" . as_ptr () as * const c_char) ; table . set_session_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_session_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-60c8dbcfaf0f3dfc/out/generated.rs:226:11756 [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 VisualScriptBuiltinFunc` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptbuiltinfunc.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\nVisualScriptBuiltinFunc 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 VisualScriptBuiltinFunc { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BuiltinFunc (pub i64) ; impl BuiltinFunc { pub const MATH_SIN : BuiltinFunc = BuiltinFunc (0i64) ; pub const MATH_COS : BuiltinFunc = BuiltinFunc (1i64) ; pub const MATH_TAN : BuiltinFunc = BuiltinFunc (2i64) ; pub const MATH_SINH : BuiltinFunc = BuiltinFunc (3i64) ; pub const MATH_COSH : BuiltinFunc = BuiltinFunc (4i64) ; pub const MATH_TANH : BuiltinFunc = BuiltinFunc (5i64) ; pub const MATH_ASIN : BuiltinFunc = BuiltinFunc (6i64) ; pub const MATH_ACOS : BuiltinFunc = BuiltinFunc (7i64) ; pub const MATH_ATAN : BuiltinFunc = BuiltinFunc (8i64) ; pub const MATH_ATAN2 : BuiltinFunc = BuiltinFunc (9i64) ; pub const MATH_SQRT : BuiltinFunc = BuiltinFunc (10i64) ; pub const MATH_FMOD : BuiltinFunc = BuiltinFunc (11i64) ; pub const MATH_FPOSMOD : BuiltinFunc = BuiltinFunc (12i64) ; pub const MATH_FLOOR : BuiltinFunc = BuiltinFunc (13i64) ; pub const MATH_CEIL : BuiltinFunc = BuiltinFunc (14i64) ; pub const MATH_ROUND : BuiltinFunc = BuiltinFunc (15i64) ; pub const MATH_ABS : BuiltinFunc = BuiltinFunc (16i64) ; pub const MATH_SIGN : BuiltinFunc = BuiltinFunc (17i64) ; pub const MATH_POW : BuiltinFunc = BuiltinFunc (18i64) ; pub const MATH_LOG : BuiltinFunc = BuiltinFunc (19i64) ; pub const MATH_EXP : BuiltinFunc = BuiltinFunc (20i64) ; pub const MATH_ISNAN : BuiltinFunc = BuiltinFunc (21i64) ; pub const MATH_ISINF : BuiltinFunc = BuiltinFunc (22i64) ; pub const MATH_EASE : BuiltinFunc = BuiltinFunc (23i64) ; pub const MATH_DECIMALS : BuiltinFunc = BuiltinFunc (24i64) ; pub const MATH_STEPIFY : BuiltinFunc = BuiltinFunc (25i64) ; pub const MATH_LERP : BuiltinFunc = BuiltinFunc (26i64) ; pub const MATH_INVERSE_LERP : BuiltinFunc = BuiltinFunc (27i64) ; pub const MATH_RANGE_LERP : BuiltinFunc = BuiltinFunc (28i64) ; pub const MATH_MOVE_TOWARD : BuiltinFunc = BuiltinFunc (29i64) ; pub const MATH_DECTIME : BuiltinFunc = BuiltinFunc (30i64) ; pub const MATH_RANDOMIZE : BuiltinFunc = BuiltinFunc (31i64) ; pub const MATH_RAND : BuiltinFunc = BuiltinFunc (32i64) ; pub const MATH_RANDF : BuiltinFunc = BuiltinFunc (33i64) ; pub const MATH_RANDOM : BuiltinFunc = BuiltinFunc (34i64) ; pub const MATH_SEED : BuiltinFunc = BuiltinFunc (35i64) ; pub const MATH_RANDSEED : BuiltinFunc = BuiltinFunc (36i64) ; pub const MATH_DEG2RAD : BuiltinFunc = BuiltinFunc (37i64) ; pub const MATH_RAD2DEG : BuiltinFunc = BuiltinFunc (38i64) ; pub const MATH_LINEAR2DB : BuiltinFunc = BuiltinFunc (39i64) ; pub const MATH_DB2LINEAR : BuiltinFunc = BuiltinFunc (40i64) ; pub const MATH_POLAR2CARTESIAN : BuiltinFunc = BuiltinFunc (41i64) ; pub const MATH_CARTESIAN2POLAR : BuiltinFunc = BuiltinFunc (42i64) ; pub const MATH_WRAP : BuiltinFunc = BuiltinFunc (43i64) ; pub const MATH_WRAPF : BuiltinFunc = BuiltinFunc (44i64) ; pub const LOGIC_MAX : BuiltinFunc = BuiltinFunc (45i64) ; pub const LOGIC_MIN : BuiltinFunc = BuiltinFunc (46i64) ; pub const LOGIC_CLAMP : BuiltinFunc = BuiltinFunc (47i64) ; pub const LOGIC_NEAREST_PO2 : BuiltinFunc = BuiltinFunc (48i64) ; pub const OBJ_WEAKREF : BuiltinFunc = BuiltinFunc (49i64) ; pub const FUNC_FUNCREF : BuiltinFunc = BuiltinFunc (50i64) ; pub const TYPE_CONVERT : BuiltinFunc = BuiltinFunc (51i64) ; pub const TYPE_OF : BuiltinFunc = BuiltinFunc (52i64) ; pub const TYPE_EXISTS : BuiltinFunc = BuiltinFunc (53i64) ; pub const TEXT_CHAR : BuiltinFunc = BuiltinFunc (54i64) ; pub const TEXT_STR : BuiltinFunc = BuiltinFunc (55i64) ; pub const TEXT_PRINT : BuiltinFunc = BuiltinFunc (56i64) ; pub const TEXT_PRINTERR : BuiltinFunc = BuiltinFunc (57i64) ; pub const TEXT_PRINTRAW : BuiltinFunc = BuiltinFunc (58i64) ; pub const VAR_TO_STR : BuiltinFunc = BuiltinFunc (59i64) ; pub const STR_TO_VAR : BuiltinFunc = BuiltinFunc (60i64) ; pub const VAR_TO_BYTES : BuiltinFunc = BuiltinFunc (61i64) ; pub const BYTES_TO_VAR : BuiltinFunc = BuiltinFunc (62i64) ; pub const COLORN : BuiltinFunc = BuiltinFunc (63i64) ; pub const MATH_SMOOTHSTEP : BuiltinFunc = BuiltinFunc (64i64) ; pub const MATH_POSMOD : BuiltinFunc = BuiltinFunc (65i64) ; pub const MATH_LERP_ANGLE : BuiltinFunc = BuiltinFunc (66i64) ; pub const TEXT_ORD : BuiltinFunc = BuiltinFunc (67i64) ; pub const FUNC_MAX : BuiltinFunc = BuiltinFunc (68i64) ; } impl From < i64 > for BuiltinFunc { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BuiltinFunc > for i64 { # [inline] fn from (v : BuiltinFunc) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualScriptBuiltinFunc { pub const BYTES_TO_VAR : i64 = 62i64 ; pub const COLORN : i64 = 63i64 ; pub const FUNC_FUNCREF : i64 = 50i64 ; pub const FUNC_MAX : i64 = 68i64 ; pub const LOGIC_CLAMP : i64 = 47i64 ; pub const LOGIC_MAX : i64 = 45i64 ; pub const LOGIC_MIN : i64 = 46i64 ; pub const LOGIC_NEAREST_PO2 : i64 = 48i64 ; pub const MATH_ABS : i64 = 16i64 ; pub const MATH_ACOS : i64 = 7i64 ; pub const MATH_ASIN : i64 = 6i64 ; pub const MATH_ATAN : i64 = 8i64 ; pub const MATH_ATAN2 : i64 = 9i64 ; pub const MATH_CARTESIAN2POLAR : i64 = 42i64 ; pub const MATH_CEIL : i64 = 14i64 ; pub const MATH_COS : i64 = 1i64 ; pub const MATH_COSH : i64 = 4i64 ; pub const MATH_DB2LINEAR : i64 = 40i64 ; pub const MATH_DECIMALS : i64 = 24i64 ; pub const MATH_DECTIME : i64 = 30i64 ; pub const MATH_DEG2RAD : i64 = 37i64 ; pub const MATH_EASE : i64 = 23i64 ; pub const MATH_EXP : i64 = 20i64 ; pub const MATH_FLOOR : i64 = 13i64 ; pub const MATH_FMOD : i64 = 11i64 ; pub const MATH_FPOSMOD : i64 = 12i64 ; pub const MATH_INVERSE_LERP : i64 = 27i64 ; pub const MATH_ISINF : i64 = 22i64 ; pub const MATH_ISNAN : i64 = 21i64 ; pub const MATH_LERP : i64 = 26i64 ; pub const MATH_LERP_ANGLE : i64 = 66i64 ; pub const MATH_LINEAR2DB : i64 = 39i64 ; pub const MATH_LOG : i64 = 19i64 ; pub const MATH_MOVE_TOWARD : i64 = 29i64 ; pub const MATH_POLAR2CARTESIAN : i64 = 41i64 ; pub const MATH_POSMOD : i64 = 65i64 ; pub const MATH_POW : i64 = 18i64 ; pub const MATH_RAD2DEG : i64 = 38i64 ; pub const MATH_RAND : i64 = 32i64 ; pub const MATH_RANDF : i64 = 33i64 ; pub const MATH_RANDOM : i64 = 34i64 ; pub const MATH_RANDOMIZE : i64 = 31i64 ; pub const MATH_RANDSEED : i64 = 36i64 ; pub const MATH_RANGE_LERP : i64 = 28i64 ; pub const MATH_ROUND : i64 = 15i64 ; pub const MATH_SEED : i64 = 35i64 ; pub const MATH_SIGN : i64 = 17i64 ; pub const MATH_SIN : i64 = 0i64 ; pub const MATH_SINH : i64 = 3i64 ; pub const MATH_SMOOTHSTEP : i64 = 64i64 ; pub const MATH_SQRT : i64 = 10i64 ; pub const MATH_STEPIFY : i64 = 25i64 ; pub const MATH_TAN : i64 = 2i64 ; pub const MATH_TANH : i64 = 5i64 ; pub const MATH_WRAP : i64 = 43i64 ; pub const MATH_WRAPF : i64 = 44i64 ; pub const OBJ_WEAKREF : i64 = 49i64 ; pub const STR_TO_VAR : i64 = 60i64 ; pub const TEXT_CHAR : i64 = 54i64 ; pub const TEXT_ORD : i64 = 67i64 ; pub const TEXT_PRINT : i64 = 56i64 ; pub const TEXT_PRINTERR : i64 = 57i64 ; pub const TEXT_PRINTRAW : i64 = 58i64 ; pub const TEXT_STR : i64 = 55i64 ; pub const TYPE_CONVERT : i64 = 51i64 ; pub const TYPE_EXISTS : i64 = 53i64 ; pub const TYPE_OF : i64 = 52i64 ; pub const VAR_TO_BYTES : i64 = 61i64 ; pub const VAR_TO_STR : i64 = 59i64 ; } impl VisualScriptBuiltinFunc { # [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 = VisualScriptBuiltinFuncMethodTable :: 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 func (& self) -> crate :: generated :: visual_script_builtin_func :: BuiltinFunc { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptBuiltinFuncMethodTable :: get (get_api ()) . get_func ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_script_builtin_func :: BuiltinFunc (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_func (& self , which : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptBuiltinFuncMethodTable :: get (get_api ()) . set_func ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , which) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptBuiltinFunc { } unsafe impl GodotObject for VisualScriptBuiltinFunc { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptBuiltinFunc" } } impl std :: ops :: Deref for VisualScriptBuiltinFunc { 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 VisualScriptBuiltinFunc { # [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 VisualScriptBuiltinFunc { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptBuiltinFunc { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptBuiltinFunc { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptBuiltinFunc { } impl Instanciable for VisualScriptBuiltinFunc { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptBuiltinFunc :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptBuiltinFuncMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_func : * mut sys :: godot_method_bind , pub set_func : * mut sys :: godot_method_bind } impl VisualScriptBuiltinFuncMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptBuiltinFuncMethodTable = VisualScriptBuiltinFuncMethodTable { class_constructor : None , get_func : 0 as * mut sys :: godot_method_bind , set_func : 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 (|| { VisualScriptBuiltinFuncMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptBuiltinFunc\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_func = (gd_api . godot_method_bind_get_method) (class_name , "get_func\0" . as_ptr () as * const c_char) ; table . set_func = (gd_api . godot_method_bind_get_method) (class_name , "set_func\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-60c8dbcfaf0f3dfc/out/generated.rs:232:3658 [INFO] [stdout] | [INFO] [stdout] 232 | ...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] 232 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:238:4670 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:244:6025 [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 VisualScriptYield` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptyield.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\nVisualScriptYield 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 VisualScriptYield { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct YieldMode (pub i64) ; impl YieldMode { pub const FRAME : YieldMode = YieldMode (1i64) ; pub const PHYSICS_FRAME : YieldMode = YieldMode (2i64) ; pub const WAIT : YieldMode = YieldMode (3i64) ; } impl From < i64 > for YieldMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < YieldMode > for i64 { # [inline] fn from (v : YieldMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualScriptYield { pub const YIELD_FRAME : i64 = 1i64 ; pub const YIELD_PHYSICS_FRAME : i64 = 2i64 ; pub const YIELD_WAIT : i64 = 3i64 ; } impl VisualScriptYield { # [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 = VisualScriptYieldMethodTable :: 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 wait_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptYieldMethodTable :: get (get_api ()) . get_wait_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn yield_mode (& self) -> crate :: generated :: visual_script_yield :: YieldMode { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptYieldMethodTable :: get (get_api ()) . get_yield_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_script_yield :: YieldMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_wait_time (& self , sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptYieldMethodTable :: get (get_api ()) . set_wait_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , sec) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_yield_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptYieldMethodTable :: get (get_api ()) . set_yield_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptYield { } unsafe impl GodotObject for VisualScriptYield { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptYield" } } impl std :: ops :: Deref for VisualScriptYield { 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 VisualScriptYield { # [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 VisualScriptYield { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptYield { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptYield { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptYield { } impl Instanciable for VisualScriptYield { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptYield :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptYieldMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_wait_time : * mut sys :: godot_method_bind , pub get_yield_mode : * mut sys :: godot_method_bind , pub set_wait_time : * mut sys :: godot_method_bind , pub set_yield_mode : * mut sys :: godot_method_bind } impl VisualScriptYieldMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptYieldMethodTable = VisualScriptYieldMethodTable { class_constructor : None , get_wait_time : 0 as * mut sys :: godot_method_bind , get_yield_mode : 0 as * mut sys :: godot_method_bind , set_wait_time : 0 as * mut sys :: godot_method_bind , set_yield_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 (|| { VisualScriptYieldMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptYield\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_wait_time = (gd_api . godot_method_bind_get_method) (class_name , "get_wait_time\0" . as_ptr () as * const c_char) ; table . get_yield_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_yield_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 . set_yield_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_yield_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-60c8dbcfaf0f3dfc/out/generated.rs:250:3699 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:256:5847 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:262:3805 [INFO] [stdout] | [INFO] [stdout] 262 | ...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] 262 | # [doc = "`core class VisualShaderNodeVectorInterp` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorinterp.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\nVisualShaderNodeVectorInterp 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 VisualShaderNodeVectorInterp { this : RawObject < Self > , } impl VisualShaderNodeVectorInterp { # [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 = VisualShaderNodeVectorInterpMethodTable :: 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 VisualShaderNodeVectorInterp { } unsafe impl GodotObject for VisualShaderNodeVectorInterp { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorInterp" } } impl std :: ops :: Deref for VisualShaderNodeVectorInterp { 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 VisualShaderNodeVectorInterp { # [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 VisualShaderNodeVectorInterp { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorInterp { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorInterp { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorInterp { } impl Instanciable for VisualShaderNodeVectorInterp { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorInterp :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorInterpMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorInterpMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorInterpMethodTable = VisualShaderNodeVectorInterpMethodTable { 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 (|| { VisualShaderNodeVectorInterpMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorInterp\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-60c8dbcfaf0f3dfc/out/generated.rs:268:7494 [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 = "`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-60c8dbcfaf0f3dfc/out/generated.rs:274:4369 [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 X509Certificate` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_x509certificate.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\nX509Certificate 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 X509Certificate { this : RawObject < Self > , } impl X509Certificate { # [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 = X509CertificateMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Loads a certificate from `path` (\"*.crt\" file)."] # [doc = ""] # [inline] pub fn load (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = X509CertificateMethodTable :: 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 = "Saves a certificate to the given `path` (should be a \"*.crt\" file)."] # [doc = ""] # [inline] pub fn save (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = X509CertificateMethodTable :: get (get_api ()) . save ; 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 X509Certificate { } unsafe impl GodotObject for X509Certificate { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "X509Certificate" } } impl std :: ops :: Deref for X509Certificate { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for X509Certificate { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for X509Certificate { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for X509Certificate { } unsafe impl SubClass < crate :: generated :: object :: Object > for X509Certificate { } impl Instanciable for X509Certificate { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { X509Certificate :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct X509CertificateMethodTable { pub class_constructor : sys :: godot_class_constructor , pub load : * mut sys :: godot_method_bind , pub save : * mut sys :: godot_method_bind } impl X509CertificateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : X509CertificateMethodTable = X509CertificateMethodTable { class_constructor : None , load : 0 as * mut sys :: godot_method_bind , save : 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 (|| { X509CertificateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "X509Certificate\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . load = (gd_api . godot_method_bind_get_method) (class_name , "load\0" . as_ptr () as * const c_char) ; table . save = (gd_api . godot_method_bind_get_method) (class_name , "save\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-60c8dbcfaf0f3dfc/out/generated.rs:280:17190 [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 GeometryInstance` inherits `VisualInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_geometryinstance.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\nGeometryInstance 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 GeometryInstance { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Flags (pub i64) ; impl Flags { pub const USE_BAKED_LIGHT : Flags = Flags (0i64) ; pub const DRAW_NEXT_FRAME_IF_VISIBLE : Flags = Flags (1i64) ; pub const MAX : Flags = Flags (2i64) ; } 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 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightmapScale (pub i64) ; impl LightmapScale { pub const _1X : LightmapScale = LightmapScale (0i64) ; pub const _2X : LightmapScale = LightmapScale (1i64) ; pub const _4X : LightmapScale = LightmapScale (2i64) ; pub const _8X : LightmapScale = LightmapScale (3i64) ; pub const MAX : LightmapScale = LightmapScale (4i64) ; } impl From < i64 > for LightmapScale { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightmapScale > for i64 { # [inline] fn from (v : LightmapScale) -> 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 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl GeometryInstance { pub const FLAG_DRAW_NEXT_FRAME_IF_VISIBLE : i64 = 1i64 ; pub const FLAG_MAX : i64 = 2i64 ; pub const FLAG_USE_BAKED_LIGHT : i64 = 0i64 ; pub const LIGHTMAP_SCALE_1X : i64 = 0i64 ; pub const LIGHTMAP_SCALE_2X : i64 = 1i64 ; pub const LIGHTMAP_SCALE_4X : i64 = 2i64 ; pub const LIGHTMAP_SCALE_8X : i64 = 3i64 ; pub const LIGHTMAP_SCALE_MAX : i64 = 4i64 ; 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 ; } impl GeometryInstance { # [doc = "The selected shadow casting flag. See [enum ShadowCastingSetting] for possible values."] # [doc = ""] # [inline] pub fn cast_shadows_setting (& self) -> crate :: generated :: geometry_instance :: ShadowCastingSetting { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_cast_shadows_setting ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: geometry_instance :: ShadowCastingSetting (ret) } } # [doc = "The extra distance added to the GeometryInstance's bounding box ([AABB]) to increase its cull box."] # [doc = ""] # [inline] pub fn extra_cull_margin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_extra_cull_margin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this GeometryInstance will be used when baking lights using a [GIProbe] or [BakedLightmap]."] # [doc = ""] # [inline] pub fn flag (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_flag ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn generate_lightmap (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_generate_lightmap ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn lightmap_scale (& self) -> crate :: generated :: geometry_instance :: LightmapScale { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_lightmap_scale ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: geometry_instance :: LightmapScale (ret) } } # [doc = "The GeometryInstance's max LOD distance.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn lod_max_distance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_lod_max_distance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The GeometryInstance's max LOD margin.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn lod_max_hysteresis (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_lod_max_hysteresis ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The GeometryInstance's min LOD distance.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn lod_min_distance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_lod_min_distance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The GeometryInstance's min LOD margin.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn lod_min_hysteresis (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_lod_min_hysteresis ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The material override for the whole geometry.\nIf a material is assigned to this property, it will be used instead of any material set in any material slot of the mesh."] # [doc = ""] # [inline] pub fn material_override (& self) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . get_material_override ; 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 = "The selected shadow casting flag. See [enum ShadowCastingSetting] for possible values."] # [doc = ""] # [inline] pub fn set_cast_shadows_setting (& self , shadow_casting_setting : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_cast_shadows_setting ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , shadow_casting_setting) ; } } # [doc = "Overrides the bounding box of this node with a custom one. To remove it, set an [AABB] with all fields set to zero."] # [doc = ""] # [inline] pub fn set_custom_aabb (& self , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_aabb (method_bind , self . this . sys () . as_ptr () , aabb) ; } } # [doc = "The extra distance added to the GeometryInstance's bounding box ([AABB]) to increase its cull box."] # [doc = ""] # [inline] pub fn set_extra_cull_margin (& self , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_extra_cull_margin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , margin) ; } } # [doc = "If `true`, this GeometryInstance will be used when baking lights using a [GIProbe] or [BakedLightmap]."] # [doc = ""] # [inline] pub fn set_flag (& self , flag : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_flag ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , value) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_generate_lightmap (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_generate_lightmap ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_lightmap_scale (& self , scale : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_lightmap_scale ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "The GeometryInstance's max LOD distance.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn set_lod_max_distance (& self , mode : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_lod_max_distance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The GeometryInstance's max LOD margin.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn set_lod_max_hysteresis (& self , mode : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_lod_max_hysteresis ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The GeometryInstance's min LOD distance.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn set_lod_min_distance (& self , mode : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_lod_min_distance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The GeometryInstance's min LOD margin.\n**Note:** This property currently has no effect."] # [doc = ""] # [inline] pub fn set_lod_min_hysteresis (& self , mode : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_lod_min_hysteresis ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The material override for the whole geometry.\nIf a material is assigned to this property, it will be used instead of any material set in any material slot of the mesh."] # [doc = ""] # [inline] pub fn set_material_override (& self , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryInstanceMethodTable :: get (get_api ()) . set_material_override ; 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 GeometryInstance { } unsafe impl GodotObject for GeometryInstance { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "GeometryInstance" } } impl QueueFree for GeometryInstance { # [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 GeometryInstance { 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 GeometryInstance { # [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 GeometryInstance { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for GeometryInstance { } unsafe impl SubClass < crate :: generated :: node :: Node > for GeometryInstance { } unsafe impl SubClass < crate :: generated :: object :: Object > for GeometryInstance { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GeometryInstanceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_cast_shadows_setting : * mut sys :: godot_method_bind , pub get_extra_cull_margin : * mut sys :: godot_method_bind , pub get_flag : * mut sys :: godot_method_bind , pub get_generate_lightmap : * mut sys :: godot_method_bind , pub get_lightmap_scale : * mut sys :: godot_method_bind , pub get_lod_max_distance : * mut sys :: godot_method_bind , pub get_lod_max_hysteresis : * mut sys :: godot_method_bind , pub get_lod_min_distance : * mut sys :: godot_method_bind , pub get_lod_min_hysteresis : * mut sys :: godot_method_bind , pub get_material_override : * mut sys :: godot_method_bind , pub set_cast_shadows_setting : * mut sys :: godot_method_bind , pub set_custom_aabb : * mut sys :: godot_method_bind , pub set_extra_cull_margin : * mut sys :: godot_method_bind , pub set_flag : * mut sys :: godot_method_bind , pub set_generate_lightmap : * mut sys :: godot_method_bind , pub set_lightmap_scale : * mut sys :: godot_method_bind , pub set_lod_max_distance : * mut sys :: godot_method_bind , pub set_lod_max_hysteresis : * mut sys :: godot_method_bind , pub set_lod_min_distance : * mut sys :: godot_method_bind , pub set_lod_min_hysteresis : * mut sys :: godot_method_bind , pub set_material_override : * mut sys :: godot_method_bind } impl GeometryInstanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GeometryInstanceMethodTable = GeometryInstanceMethodTable { class_constructor : None , get_cast_shadows_setting : 0 as * mut sys :: godot_method_bind , get_extra_cull_margin : 0 as * mut sys :: godot_method_bind , get_flag : 0 as * mut sys :: godot_method_bind , get_generate_lightmap : 0 as * mut sys :: godot_method_bind , get_lightmap_scale : 0 as * mut sys :: godot_method_bind , get_lod_max_distance : 0 as * mut sys :: godot_method_bind , get_lod_max_hysteresis : 0 as * mut sys :: godot_method_bind , get_lod_min_distance : 0 as * mut sys :: godot_method_bind , get_lod_min_hysteresis : 0 as * mut sys :: godot_method_bind , get_material_override : 0 as * mut sys :: godot_method_bind , set_cast_shadows_setting : 0 as * mut sys :: godot_method_bind , set_custom_aabb : 0 as * mut sys :: godot_method_bind , set_extra_cull_margin : 0 as * mut sys :: godot_method_bind , set_flag : 0 as * mut sys :: godot_method_bind , set_generate_lightmap : 0 as * mut sys :: godot_method_bind , set_lightmap_scale : 0 as * mut sys :: godot_method_bind , set_lod_max_distance : 0 as * mut sys :: godot_method_bind , set_lod_max_hysteresis : 0 as * mut sys :: godot_method_bind , set_lod_min_distance : 0 as * mut sys :: godot_method_bind , set_lod_min_hysteresis : 0 as * mut sys :: godot_method_bind , set_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 (|| { GeometryInstanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GeometryInstance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_cast_shadows_setting = (gd_api . godot_method_bind_get_method) (class_name , "get_cast_shadows_setting\0" . as_ptr () as * const c_char) ; table . get_extra_cull_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_extra_cull_margin\0" . as_ptr () as * const c_char) ; table . get_flag = (gd_api . godot_method_bind_get_method) (class_name , "get_flag\0" . as_ptr () as * const c_char) ; table . get_generate_lightmap = (gd_api . godot_method_bind_get_method) (class_name , "get_generate_lightmap\0" . as_ptr () as * const c_char) ; table . get_lightmap_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_lightmap_scale\0" . as_ptr () as * const c_char) ; table . get_lod_max_distance = (gd_api . godot_method_bind_get_method) (class_name , "get_lod_max_distance\0" . as_ptr () as * const c_char) ; table . get_lod_max_hysteresis = (gd_api . godot_method_bind_get_method) (class_name , "get_lod_max_hysteresis\0" . as_ptr () as * const c_char) ; table . get_lod_min_distance = (gd_api . godot_method_bind_get_method) (class_name , "get_lod_min_distance\0" . as_ptr () as * const c_char) ; table . get_lod_min_hysteresis = (gd_api . godot_method_bind_get_method) (class_name , "get_lod_min_hysteresis\0" . as_ptr () as * const c_char) ; table . get_material_override = (gd_api . godot_method_bind_get_method) (class_name , "get_material_override\0" . as_ptr () as * const c_char) ; table . set_cast_shadows_setting = (gd_api . godot_method_bind_get_method) (class_name , "set_cast_shadows_setting\0" . as_ptr () as * const c_char) ; table . set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "set_custom_aabb\0" . as_ptr () as * const c_char) ; table . set_extra_cull_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_extra_cull_margin\0" . as_ptr () as * const c_char) ; table . set_flag = (gd_api . godot_method_bind_get_method) (class_name , "set_flag\0" . as_ptr () as * const c_char) ; table . set_generate_lightmap = (gd_api . godot_method_bind_get_method) (class_name , "set_generate_lightmap\0" . as_ptr () as * const c_char) ; table . set_lightmap_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_lightmap_scale\0" . as_ptr () as * const c_char) ; table . set_lod_max_distance = (gd_api . godot_method_bind_get_method) (class_name , "set_lod_max_distance\0" . as_ptr () as * const c_char) ; table . set_lod_max_hysteresis = (gd_api . godot_method_bind_get_method) (class_name , "set_lod_max_hysteresis\0" . as_ptr () as * const c_char) ; table . set_lod_min_distance = (gd_api . godot_method_bind_get_method) (class_name , "set_lod_min_distance\0" . as_ptr () as * const c_char) ; table . set_lod_min_hysteresis = (gd_api . godot_method_bind_get_method) (class_name , "set_lod_min_hysteresis\0" . as_ptr () as * const c_char) ; table . set_material_override = (gd_api . godot_method_bind_get_method) (class_name , "set_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-60c8dbcfaf0f3dfc/out/generated.rs:286:6252 [INFO] [stdout] | [INFO] [stdout] 286 | ... : 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] 286 | # [doc = "`core class InputEventJoypadButton` inherits `InputEvent` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventjoypadbutton.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\nInputEventJoypadButton 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 InputEventJoypadButton { this : RawObject < Self > , } impl InputEventJoypadButton { # [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 = InputEventJoypadButtonMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Button identifier. One of the [enum JoystickList] button constants."] # [doc = ""] # [inline] pub fn button_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadButtonMethodTable :: get (get_api ()) . get_button_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Represents the pressure the user puts on the button with his finger, if the controller supports it. Ranges from `0` to `1`."] # [doc = ""] # [inline] pub fn pressure (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadButtonMethodTable :: get (get_api ()) . get_pressure ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Button identifier. One of the [enum JoystickList] button constants."] # [doc = ""] # [inline] pub fn set_button_index (& self , button_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadButtonMethodTable :: get (get_api ()) . set_button_index ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , button_index) ; } } # [doc = "If `true`, the button's state is pressed. If `false`, the button's state is released."] # [doc = ""] # [inline] pub fn set_pressed (& self , pressed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadButtonMethodTable :: get (get_api ()) . set_pressed ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , pressed) ; } } # [doc = "Represents the pressure the user puts on the button with his finger, if the controller supports it. Ranges from `0` to `1`."] # [doc = ""] # [inline] pub fn set_pressure (& self , pressure : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadButtonMethodTable :: get (get_api ()) . set_pressure ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , pressure) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventJoypadButton { } unsafe impl GodotObject for InputEventJoypadButton { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventJoypadButton" } } impl std :: ops :: Deref for InputEventJoypadButton { 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 InputEventJoypadButton { # [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 InputEventJoypadButton { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventJoypadButton { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventJoypadButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventJoypadButton { } impl Instanciable for InputEventJoypadButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventJoypadButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventJoypadButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_button_index : * mut sys :: godot_method_bind , pub get_pressure : * mut sys :: godot_method_bind , pub set_button_index : * mut sys :: godot_method_bind , pub set_pressed : * mut sys :: godot_method_bind , pub set_pressure : * mut sys :: godot_method_bind } impl InputEventJoypadButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventJoypadButtonMethodTable = InputEventJoypadButtonMethodTable { class_constructor : None , get_button_index : 0 as * mut sys :: godot_method_bind , get_pressure : 0 as * mut sys :: godot_method_bind , set_button_index : 0 as * mut sys :: godot_method_bind , set_pressed : 0 as * mut sys :: godot_method_bind , set_pressure : 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 (|| { InputEventJoypadButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventJoypadButton\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_button_index = (gd_api . godot_method_bind_get_method) (class_name , "get_button_index\0" . as_ptr () as * const c_char) ; table . get_pressure = (gd_api . godot_method_bind_get_method) (class_name , "get_pressure\0" . as_ptr () as * const c_char) ; table . set_button_index = (gd_api . godot_method_bind_get_method) (class_name , "set_button_index\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_pressure = (gd_api . godot_method_bind_get_method) (class_name , "set_pressure\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-60c8dbcfaf0f3dfc/out/generated.rs:292:3598 [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 GDScriptFunctionState` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_gdscriptfunctionstate.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\nGDScriptFunctionState 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 GDScriptFunctionState { this : RawObject < Self > , } impl GDScriptFunctionState { # [doc = ""] # [doc = ""] # [inline] pub fn is_valid (& self , extended_check : bool) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GDScriptFunctionStateMethodTable :: get (get_api ()) . is_valid ; let ret = crate :: icalls :: icallptr_bool_bool (method_bind , self . this . sys () . as_ptr () , extended_check) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn resume (& self , arg : impl OwnedToVariant) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = GDScriptFunctionStateMethodTable :: get (get_api ()) . resume ; let ret = crate :: icalls :: icallptr_var_var (method_bind , self . this . sys () . as_ptr () , arg . owned_to_variant ()) ; Variant :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for GDScriptFunctionState { } unsafe impl GodotObject for GDScriptFunctionState { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "GDScriptFunctionState" } } impl std :: ops :: Deref for GDScriptFunctionState { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GDScriptFunctionState { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for GDScriptFunctionState { } unsafe impl SubClass < crate :: generated :: object :: Object > for GDScriptFunctionState { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GDScriptFunctionStateMethodTable { pub class_constructor : sys :: godot_class_constructor , pub is_valid : * mut sys :: godot_method_bind , pub resume : * mut sys :: godot_method_bind } impl GDScriptFunctionStateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GDScriptFunctionStateMethodTable = GDScriptFunctionStateMethodTable { class_constructor : None , 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 (|| { GDScriptFunctionStateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GDScriptFunctionState\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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-60c8dbcfaf0f3dfc/out/generated.rs:298:9585 [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 NetworkedMultiplayerPeer` inherits `PacketPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_networkedmultiplayerpeer.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\nNetworkedMultiplayerPeer 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 NetworkedMultiplayerPeer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ConnectionStatus (pub i64) ; impl ConnectionStatus { pub const DISCONNECTED : ConnectionStatus = ConnectionStatus (0i64) ; pub const CONNECTING : ConnectionStatus = ConnectionStatus (1i64) ; pub const CONNECTED : ConnectionStatus = ConnectionStatus (2i64) ; } impl From < i64 > for ConnectionStatus { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ConnectionStatus > for i64 { # [inline] fn from (v : ConnectionStatus) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TransferMode (pub i64) ; impl TransferMode { pub const UNRELIABLE : TransferMode = TransferMode (0i64) ; pub const UNRELIABLE_ORDERED : TransferMode = TransferMode (1i64) ; pub const RELIABLE : TransferMode = TransferMode (2i64) ; } impl From < i64 > for TransferMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TransferMode > for i64 { # [inline] fn from (v : TransferMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl NetworkedMultiplayerPeer { pub const CONNECTION_CONNECTED : i64 = 2i64 ; pub const CONNECTION_CONNECTING : i64 = 1i64 ; pub const CONNECTION_DISCONNECTED : i64 = 0i64 ; pub const TARGET_PEER_BROADCAST : i64 = 0i64 ; pub const TARGET_PEER_SERVER : i64 = 1i64 ; pub const TRANSFER_MODE_RELIABLE : i64 = 2i64 ; pub const TRANSFER_MODE_UNRELIABLE : i64 = 0i64 ; pub const TRANSFER_MODE_UNRELIABLE_ORDERED : i64 = 1i64 ; } impl NetworkedMultiplayerPeer { # [doc = "Returns the current state of the connection. See [enum ConnectionStatus]."] # [doc = ""] # [inline] pub fn get_connection_status (& self) -> crate :: generated :: networked_multiplayer_peer :: ConnectionStatus { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . get_connection_status ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: networked_multiplayer_peer :: ConnectionStatus (ret) } } # [doc = "Returns the ID of the [NetworkedMultiplayerPeer] who sent the most recent packet."] # [doc = ""] # [inline] pub fn get_packet_peer (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . get_packet_peer ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The manner in which to send packets to the `target_peer`. See [enum TransferMode]."] # [doc = ""] # [inline] pub fn transfer_mode (& self) -> crate :: generated :: networked_multiplayer_peer :: TransferMode { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . get_transfer_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: networked_multiplayer_peer :: TransferMode (ret) } } # [doc = "Returns the ID of this [NetworkedMultiplayerPeer]."] # [doc = ""] # [inline] pub fn get_unique_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . get_unique_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this [NetworkedMultiplayerPeer] refuses new connections."] # [doc = ""] # [inline] pub fn is_refusing_new_connections (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . is_refusing_new_connections ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Waits up to 1 second to receive a new network event."] # [doc = ""] # [inline] pub fn poll (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . poll ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, this [NetworkedMultiplayerPeer] refuses new connections."] # [doc = ""] # [inline] pub fn set_refuse_new_connections (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . set_refuse_new_connections ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets the peer to which packets will be sent.\nThe `id` can be one of: [constant TARGET_PEER_BROADCAST] to send to all connected peers, [constant TARGET_PEER_SERVER] to send to the peer acting as server, a valid peer ID to send to that specific peer, a negative peer ID to send to all peers except that one. By default, the target peer is [constant TARGET_PEER_BROADCAST]."] # [doc = ""] # [inline] pub fn set_target_peer (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . set_target_peer ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "The manner in which to send packets to the `target_peer`. See [enum TransferMode]."] # [doc = ""] # [inline] pub fn set_transfer_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NetworkedMultiplayerPeerMethodTable :: get (get_api ()) . set_transfer_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for NetworkedMultiplayerPeer { } unsafe impl GodotObject for NetworkedMultiplayerPeer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "NetworkedMultiplayerPeer" } } impl std :: ops :: Deref for NetworkedMultiplayerPeer { 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 NetworkedMultiplayerPeer { # [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 NetworkedMultiplayerPeer { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for NetworkedMultiplayerPeer { } unsafe impl SubClass < crate :: generated :: object :: Object > for NetworkedMultiplayerPeer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct NetworkedMultiplayerPeerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_connection_status : * mut sys :: godot_method_bind , pub get_packet_peer : * mut sys :: godot_method_bind , pub get_transfer_mode : * mut sys :: godot_method_bind , pub get_unique_id : * mut sys :: godot_method_bind , pub is_refusing_new_connections : * mut sys :: godot_method_bind , pub poll : * mut sys :: godot_method_bind , pub set_refuse_new_connections : * mut sys :: godot_method_bind , pub set_target_peer : * mut sys :: godot_method_bind , pub set_transfer_mode : * mut sys :: godot_method_bind } impl NetworkedMultiplayerPeerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : NetworkedMultiplayerPeerMethodTable = NetworkedMultiplayerPeerMethodTable { class_constructor : None , get_connection_status : 0 as * mut sys :: godot_method_bind , get_packet_peer : 0 as * mut sys :: godot_method_bind , get_transfer_mode : 0 as * mut sys :: godot_method_bind , get_unique_id : 0 as * mut sys :: godot_method_bind , is_refusing_new_connections : 0 as * mut sys :: godot_method_bind , poll : 0 as * mut sys :: godot_method_bind , set_refuse_new_connections : 0 as * mut sys :: godot_method_bind , set_target_peer : 0 as * mut sys :: godot_method_bind , set_transfer_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 (|| { NetworkedMultiplayerPeerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "NetworkedMultiplayerPeer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_connection_status = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_status\0" . as_ptr () as * const c_char) ; table . get_packet_peer = (gd_api . godot_method_bind_get_method) (class_name , "get_packet_peer\0" . as_ptr () as * const c_char) ; table . get_transfer_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_transfer_mode\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 . is_refusing_new_connections = (gd_api . godot_method_bind_get_method) (class_name , "is_refusing_new_connections\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 . set_refuse_new_connections = (gd_api . godot_method_bind_get_method) (class_name , "set_refuse_new_connections\0" . as_ptr () as * const c_char) ; table . set_target_peer = (gd_api . godot_method_bind_get_method) (class_name , "set_target_peer\0" . as_ptr () as * const c_char) ; table . set_transfer_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_transfer_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-60c8dbcfaf0f3dfc/out/generated.rs:304:5973 [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 ShortCut` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_shortcut.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\nShortCut 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 ShortCut { this : RawObject < Self > , } impl ShortCut { # [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 = ShortCutMethodTable :: 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 shortcut's [InputEvent] as a [String]."] # [doc = ""] # [inline] pub fn get_as_text (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ShortCutMethodTable :: get (get_api ()) . get_as_text ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The shortcut's [InputEvent].\nGenerally the [InputEvent] is a keyboard key, though it can be any [InputEvent]."] # [doc = ""] # [inline] pub fn shortcut (& self) -> Option < Ref < crate :: generated :: input_event :: InputEvent , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ShortCutMethodTable :: get (get_api ()) . get_shortcut ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: input_event :: InputEvent , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns `true` if the shortcut's [InputEvent] equals `event`."] # [doc = ""] # [inline] pub fn is_shortcut (& self , event : impl AsArg < crate :: generated :: input_event :: InputEvent >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ShortCutMethodTable :: get (get_api ()) . is_shortcut ; let ret = crate :: icalls :: icallptr_bool_obj (method_bind , self . this . sys () . as_ptr () , event . as_arg_ptr ()) ; ret as _ } } # [doc = "If `true`, this shortcut is valid."] # [doc = ""] # [inline] pub fn is_valid (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ShortCutMethodTable :: get (get_api ()) . is_valid ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The shortcut's [InputEvent].\nGenerally the [InputEvent] is a keyboard key, though it can be any [InputEvent]."] # [doc = ""] # [inline] pub fn set_shortcut (& self , event : impl AsArg < crate :: generated :: input_event :: InputEvent >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ShortCutMethodTable :: get (get_api ()) . set_shortcut ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , event . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ShortCut { } unsafe impl GodotObject for ShortCut { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ShortCut" } } impl std :: ops :: Deref for ShortCut { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ShortCut { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ShortCut { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ShortCut { } unsafe impl SubClass < crate :: generated :: object :: Object > for ShortCut { } impl Instanciable for ShortCut { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ShortCut :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ShortCutMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_as_text : * mut sys :: godot_method_bind , pub get_shortcut : * mut sys :: godot_method_bind , pub is_shortcut : * mut sys :: godot_method_bind , pub is_valid : * mut sys :: godot_method_bind , pub set_shortcut : * mut sys :: godot_method_bind } impl ShortCutMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ShortCutMethodTable = ShortCutMethodTable { class_constructor : None , get_as_text : 0 as * mut sys :: godot_method_bind , get_shortcut : 0 as * mut sys :: godot_method_bind , is_shortcut : 0 as * mut sys :: godot_method_bind , is_valid : 0 as * mut sys :: godot_method_bind , set_shortcut : 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 (|| { ShortCutMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ShortCut\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "get_shortcut\0" . as_ptr () as * const c_char) ; table . is_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "is_shortcut\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 . set_shortcut = (gd_api . godot_method_bind_get_method) (class_name , "set_shortcut\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-60c8dbcfaf0f3dfc/out/generated.rs:310:3568 [INFO] [stdout] | [INFO] [stdout] 310 | ... : 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] 310 | # [doc = "`core class SkinReference` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_skinreference.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\nSkinReference 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 SkinReference { this : RawObject < Self > , } impl SkinReference { # [doc = ""] # [doc = ""] # [inline] pub fn get_skeleton (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = SkinReferenceMethodTable :: get (get_api ()) . get_skeleton ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_skin (& self) -> Option < Ref < crate :: generated :: skin :: Skin , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SkinReferenceMethodTable :: get (get_api ()) . get_skin ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: skin :: Skin , thread_access :: Shared >> :: move_from_sys (sys)) } } } impl gdnative_core :: private :: godot_object :: Sealed for SkinReference { } unsafe impl GodotObject for SkinReference { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "SkinReference" } } impl std :: ops :: Deref for SkinReference { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SkinReference { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for SkinReference { } unsafe impl SubClass < crate :: generated :: object :: Object > for SkinReference { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SkinReferenceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_skeleton : * mut sys :: godot_method_bind , pub get_skin : * mut sys :: godot_method_bind } impl SkinReferenceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SkinReferenceMethodTable = SkinReferenceMethodTable { class_constructor : None , get_skeleton : 0 as * mut sys :: godot_method_bind , get_skin : 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 (|| { SkinReferenceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SkinReference\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "get_skeleton\0" . as_ptr () as * const c_char) ; table . get_skin = (gd_api . godot_method_bind_get_method) (class_name , "get_skin\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-60c8dbcfaf0f3dfc/out/generated.rs:316:16205 [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 class VisualShaderNodeGroupBase` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodegroupbase.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\nVisualShaderNodeGroupBase 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 VisualShaderNodeGroupBase { this : RawObject < Self > , } impl VisualShaderNodeGroupBase { # [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 = VisualShaderNodeGroupBaseMethodTable :: 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 input port with the specified `type` (see [enum VisualShaderNode.PortType]) and `name`."] # [doc = ""] # [inline] pub fn add_input_port (& self , id : i64 , _type : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . add_input_port ; let ret = crate :: icalls :: icallptr_void_i64_i64_str (method_bind , self . this . sys () . as_ptr () , id , _type , name . into ()) ; } } # [doc = "Adds an output port with the specified `type` (see [enum VisualShaderNode.PortType]) and `name`."] # [doc = ""] # [inline] pub fn add_output_port (& self , id : i64 , _type : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . add_output_port ; let ret = crate :: icalls :: icallptr_void_i64_i64_str (method_bind , self . this . sys () . as_ptr () , id , _type , name . into ()) ; } } # [doc = "Removes all previously specified input ports."] # [doc = ""] # [inline] pub fn clear_input_ports (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . clear_input_ports ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes all previously specified output ports."] # [doc = ""] # [inline] pub fn clear_output_ports (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . clear_output_ports ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns a free input port ID which can be used in [method add_input_port]."] # [doc = ""] # [inline] pub fn get_free_input_port_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . get_free_input_port_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a free output port ID which can be used in [method add_output_port]."] # [doc = ""] # [inline] pub fn get_free_output_port_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . get_free_output_port_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the number of input ports in use. Alternative for [method get_free_input_port_id]."] # [doc = ""] # [inline] pub fn get_input_port_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . get_input_port_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a [String] description of the input ports as as colon-separated list using the format `id,type,name;` (see [method add_input_port])."] # [doc = ""] # [inline] pub fn get_inputs (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . get_inputs ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the number of output ports in use. Alternative for [method get_free_output_port_id]."] # [doc = ""] # [inline] pub fn get_output_port_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . get_output_port_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a [String] description of the output ports as as colon-separated list using the format `id,type,name;` (see [method add_output_port])."] # [doc = ""] # [inline] pub fn get_outputs (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . get_outputs ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The size of the node in the visual shader graph."] # [doc = ""] # [inline] pub fn size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns `true` if the specified input port exists."] # [doc = ""] # [inline] pub fn has_input_port (& self , id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . has_input_port ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns `true` if the specified output port exists."] # [doc = ""] # [inline] pub fn has_output_port (& self , id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . has_output_port ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns `true` if the specified port name does not override an existed port name and is valid within the shader."] # [doc = ""] # [inline] pub fn is_valid_port_name (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . is_valid_port_name ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Removes the specified input port."] # [doc = ""] # [inline] pub fn remove_input_port (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . remove_input_port ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Removes the specified output port."] # [doc = ""] # [inline] pub fn remove_output_port (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . remove_output_port ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Renames the specified input port."] # [doc = ""] # [inline] pub fn set_input_port_name (& self , id : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . set_input_port_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , id , name . into ()) ; } } # [doc = "Sets the specified input port's type (see [enum VisualShaderNode.PortType])."] # [doc = ""] # [inline] pub fn set_input_port_type (& self , id : i64 , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . set_input_port_type ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , _type) ; } } # [doc = "Defines all input ports using a [String] formatted as a colon-separated list: `id,type,name;` (see [method add_input_port])."] # [doc = ""] # [inline] pub fn set_inputs (& self , inputs : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . set_inputs ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , inputs . into ()) ; } } # [doc = "Renames the specified output port."] # [doc = ""] # [inline] pub fn set_output_port_name (& self , id : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . set_output_port_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , id , name . into ()) ; } } # [doc = "Sets the specified output port's type (see [enum VisualShaderNode.PortType])."] # [doc = ""] # [inline] pub fn set_output_port_type (& self , id : i64 , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . set_output_port_type ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , _type) ; } } # [doc = "Defines all output ports using a [String] formatted as a colon-separated list: `id,type,name;` (see [method add_output_port])."] # [doc = ""] # [inline] pub fn set_outputs (& self , outputs : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: get (get_api ()) . set_outputs ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , outputs . into ()) ; } } # [doc = "The size of the node in the visual shader graph."] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeGroupBaseMethodTable :: 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 VisualShaderNodeGroupBase { } unsafe impl GodotObject for VisualShaderNodeGroupBase { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeGroupBase" } } impl std :: ops :: Deref for VisualShaderNodeGroupBase { 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 VisualShaderNodeGroupBase { # [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 VisualShaderNodeGroupBase { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeGroupBase { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeGroupBase { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeGroupBase { } impl Instanciable for VisualShaderNodeGroupBase { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeGroupBase :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeGroupBaseMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_input_port : * mut sys :: godot_method_bind , pub add_output_port : * mut sys :: godot_method_bind , pub clear_input_ports : * mut sys :: godot_method_bind , pub clear_output_ports : * mut sys :: godot_method_bind , pub get_free_input_port_id : * mut sys :: godot_method_bind , pub get_free_output_port_id : * mut sys :: godot_method_bind , pub get_input_port_count : * mut sys :: godot_method_bind , pub get_inputs : * mut sys :: godot_method_bind , pub get_output_port_count : * mut sys :: godot_method_bind , pub get_outputs : * mut sys :: godot_method_bind , pub get_size : * mut sys :: godot_method_bind , pub has_input_port : * mut sys :: godot_method_bind , pub has_output_port : * mut sys :: godot_method_bind , pub is_valid_port_name : * mut sys :: godot_method_bind , pub remove_input_port : * mut sys :: godot_method_bind , pub remove_output_port : * mut sys :: godot_method_bind , pub set_input_port_name : * mut sys :: godot_method_bind , pub set_input_port_type : * mut sys :: godot_method_bind , pub set_inputs : * mut sys :: godot_method_bind , pub set_output_port_name : * mut sys :: godot_method_bind , pub set_output_port_type : * mut sys :: godot_method_bind , pub set_outputs : * mut sys :: godot_method_bind , pub set_size : * mut sys :: godot_method_bind } impl VisualShaderNodeGroupBaseMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeGroupBaseMethodTable = VisualShaderNodeGroupBaseMethodTable { class_constructor : None , add_input_port : 0 as * mut sys :: godot_method_bind , add_output_port : 0 as * mut sys :: godot_method_bind , clear_input_ports : 0 as * mut sys :: godot_method_bind , clear_output_ports : 0 as * mut sys :: godot_method_bind , get_free_input_port_id : 0 as * mut sys :: godot_method_bind , get_free_output_port_id : 0 as * mut sys :: godot_method_bind , get_input_port_count : 0 as * mut sys :: godot_method_bind , get_inputs : 0 as * mut sys :: godot_method_bind , get_output_port_count : 0 as * mut sys :: godot_method_bind , get_outputs : 0 as * mut sys :: godot_method_bind , get_size : 0 as * mut sys :: godot_method_bind , has_input_port : 0 as * mut sys :: godot_method_bind , has_output_port : 0 as * mut sys :: godot_method_bind , is_valid_port_name : 0 as * mut sys :: godot_method_bind , remove_input_port : 0 as * mut sys :: godot_method_bind , remove_output_port : 0 as * mut sys :: godot_method_bind , set_input_port_name : 0 as * mut sys :: godot_method_bind , set_input_port_type : 0 as * mut sys :: godot_method_bind , set_inputs : 0 as * mut sys :: godot_method_bind , set_output_port_name : 0 as * mut sys :: godot_method_bind , set_output_port_type : 0 as * mut sys :: godot_method_bind , set_outputs : 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 (|| { VisualShaderNodeGroupBaseMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeGroupBase\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_input_port = (gd_api . godot_method_bind_get_method) (class_name , "add_input_port\0" . as_ptr () as * const c_char) ; table . add_output_port = (gd_api . godot_method_bind_get_method) (class_name , "add_output_port\0" . as_ptr () as * const c_char) ; table . clear_input_ports = (gd_api . godot_method_bind_get_method) (class_name , "clear_input_ports\0" . as_ptr () as * const c_char) ; table . clear_output_ports = (gd_api . godot_method_bind_get_method) (class_name , "clear_output_ports\0" . as_ptr () as * const c_char) ; table . get_free_input_port_id = (gd_api . godot_method_bind_get_method) (class_name , "get_free_input_port_id\0" . as_ptr () as * const c_char) ; table . get_free_output_port_id = (gd_api . godot_method_bind_get_method) (class_name , "get_free_output_port_id\0" . as_ptr () as * const c_char) ; table . get_input_port_count = (gd_api . godot_method_bind_get_method) (class_name , "get_input_port_count\0" . as_ptr () as * const c_char) ; table . get_inputs = (gd_api . godot_method_bind_get_method) (class_name , "get_inputs\0" . as_ptr () as * const c_char) ; table . get_output_port_count = (gd_api . godot_method_bind_get_method) (class_name , "get_output_port_count\0" . as_ptr () as * const c_char) ; table . get_outputs = (gd_api . godot_method_bind_get_method) (class_name , "get_outputs\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 . has_input_port = (gd_api . godot_method_bind_get_method) (class_name , "has_input_port\0" . as_ptr () as * const c_char) ; table . has_output_port = (gd_api . godot_method_bind_get_method) (class_name , "has_output_port\0" . as_ptr () as * const c_char) ; table . is_valid_port_name = (gd_api . godot_method_bind_get_method) (class_name , "is_valid_port_name\0" . as_ptr () as * const c_char) ; table . remove_input_port = (gd_api . godot_method_bind_get_method) (class_name , "remove_input_port\0" . as_ptr () as * const c_char) ; table . remove_output_port = (gd_api . godot_method_bind_get_method) (class_name , "remove_output_port\0" . as_ptr () as * const c_char) ; table . set_input_port_name = (gd_api . godot_method_bind_get_method) (class_name , "set_input_port_name\0" . as_ptr () as * const c_char) ; table . set_input_port_type = (gd_api . godot_method_bind_get_method) (class_name , "set_input_port_type\0" . as_ptr () as * const c_char) ; table . set_inputs = (gd_api . godot_method_bind_get_method) (class_name , "set_inputs\0" . as_ptr () as * const c_char) ; table . set_output_port_name = (gd_api . godot_method_bind_get_method) (class_name , "set_output_port_name\0" . as_ptr () as * const c_char) ; table . set_output_port_type = (gd_api . godot_method_bind_get_method) (class_name , "set_output_port_type\0" . as_ptr () as * const c_char) ; table . set_outputs = (gd_api . godot_method_bind_get_method) (class_name , "set_outputs\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-60c8dbcfaf0f3dfc/out/generated.rs:322:5711 [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 VisualShaderNodeTransformMult` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodetransformmult.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\nVisualShaderNodeTransformMult 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 VisualShaderNodeTransformMult { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Operator (pub i64) ; impl Operator { pub const AXB : Operator = Operator (0i64) ; pub const BXA : Operator = Operator (1i64) ; pub const AXB_COMP : Operator = Operator (2i64) ; pub const BXA_COMP : Operator = Operator (3i64) ; } 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 VisualShaderNodeTransformMult { pub const OP_AxB : i64 = 0i64 ; pub const OP_AxB_COMP : i64 = 2i64 ; pub const OP_BxA : i64 = 1i64 ; pub const OP_BxA_COMP : i64 = 3i64 ; } impl VisualShaderNodeTransformMult { # [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 = VisualShaderNodeTransformMultMethodTable :: 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 multiplication type to be performed on the transforms. See [enum Operator] for options."] # [doc = ""] # [inline] pub fn operator (& self) -> crate :: generated :: visual_shader_node_transform_mult :: Operator { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTransformMultMethodTable :: get (get_api ()) . get_operator ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_transform_mult :: Operator (ret) } } # [doc = "The multiplication type to be performed on the transforms. See [enum Operator] for options."] # [doc = ""] # [inline] pub fn set_operator (& self , op : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTransformMultMethodTable :: 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 VisualShaderNodeTransformMult { } unsafe impl GodotObject for VisualShaderNodeTransformMult { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeTransformMult" } } impl std :: ops :: Deref for VisualShaderNodeTransformMult { 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 VisualShaderNodeTransformMult { # [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 VisualShaderNodeTransformMult { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeTransformMult { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeTransformMult { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeTransformMult { } impl Instanciable for VisualShaderNodeTransformMult { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeTransformMult :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeTransformMultMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_operator : * mut sys :: godot_method_bind , pub set_operator : * mut sys :: godot_method_bind } impl VisualShaderNodeTransformMultMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeTransformMultMethodTable = VisualShaderNodeTransformMultMethodTable { 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 (|| { VisualShaderNodeTransformMultMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeTransformMult\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-60c8dbcfaf0f3dfc/out/generated.rs:328:21299 [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 TextureProgress` inherits `Range` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_textureprogress.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`TextureProgress` 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\nTextureProgress 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 = ""] # [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 TextureProgress { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct FillMode (pub i64) ; impl FillMode { pub const LEFT_TO_RIGHT : FillMode = FillMode (0i64) ; pub const RIGHT_TO_LEFT : FillMode = FillMode (1i64) ; pub const TOP_TO_BOTTOM : FillMode = FillMode (2i64) ; pub const BOTTOM_TO_TOP : FillMode = FillMode (3i64) ; pub const CLOCKWISE : FillMode = FillMode (4i64) ; pub const COUNTER_CLOCKWISE : FillMode = FillMode (5i64) ; pub const BILINEAR_LEFT_AND_RIGHT : FillMode = FillMode (6i64) ; pub const BILINEAR_TOP_AND_BOTTOM : FillMode = FillMode (7i64) ; pub const CLOCKWISE_AND_COUNTER_CLOCKWISE : FillMode = FillMode (8i64) ; } impl From < i64 > for FillMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < FillMode > for i64 { # [inline] fn from (v : FillMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl TextureProgress { pub const FILL_BILINEAR_LEFT_AND_RIGHT : i64 = 6i64 ; pub const FILL_BILINEAR_TOP_AND_BOTTOM : i64 = 7i64 ; pub const FILL_BOTTOM_TO_TOP : i64 = 3i64 ; pub const FILL_CLOCKWISE : i64 = 4i64 ; pub const FILL_CLOCKWISE_AND_COUNTER_CLOCKWISE : i64 = 8i64 ; pub const FILL_COUNTER_CLOCKWISE : i64 = 5i64 ; pub const FILL_LEFT_TO_RIGHT : i64 = 0i64 ; pub const FILL_RIGHT_TO_LEFT : i64 = 1i64 ; pub const FILL_TOP_TO_BOTTOM : i64 = 2i64 ; } impl TextureProgress { # [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 = TextureProgressMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Upper limit for the fill of [member texture_progress] if [member fill_mode] is [constant FILL_CLOCKWISE] or [constant FILL_COUNTER_CLOCKWISE]. When the node's `value` is equal to its `max_value`, the texture fills up to this angle.\nSee [member Range.value], [member Range.max_value]."] # [doc = ""] # [inline] pub fn fill_degrees (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_fill_degrees ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The fill direction. See [enum FillMode] for possible values."] # [doc = ""] # [inline] pub fn fill_mode (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_fill_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, Godot treats the bar's textures like in [NinePatchRect]. Use the `stretch_margin_*` properties like [member stretch_margin_bottom] to set up the nine patch's 3×3 grid. When using a radial [member fill_mode], this setting will enable stretching."] # [doc = ""] # [inline] pub fn nine_patch_stretch (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_nine_patch_stretch ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "[Texture] that draws over the progress bar. Use it to add highlights or an upper-frame that hides part of [member texture_progress]."] # [doc = ""] # [inline] pub fn over_texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_over_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 = "[Texture] that clips based on the node's `value` and [member fill_mode]. As `value` increased, the texture fills up. It shows entirely when `value` reaches `max_value`. It doesn't show at all if `value` is equal to `min_value`.\nThe `value` property comes from [Range]. See [member Range.value], [member Range.min_value], [member Range.max_value]."] # [doc = ""] # [inline] pub fn progress_texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_progress_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 = "Offsets [member texture_progress] if [member fill_mode] is [constant FILL_CLOCKWISE] or [constant FILL_COUNTER_CLOCKWISE]."] # [doc = ""] # [inline] pub fn radial_center_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_radial_center_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Starting angle for the fill of [member texture_progress] if [member fill_mode] is [constant FILL_CLOCKWISE] or [constant FILL_COUNTER_CLOCKWISE]. When the node's `value` is equal to its `min_value`, the texture doesn't show up at all. When the `value` increases, the texture fills and tends towards [member radial_fill_degrees]."] # [doc = ""] # [inline] pub fn radial_initial_angle (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_radial_initial_angle ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The height of the 9-patch's top row."] # [doc = ""] # [inline] pub fn stretch_margin (& self , margin : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_stretch_margin ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "Multiplies the color of the bar's `texture_over` texture. The effect is similar to [member CanvasItem.modulate], except it only affects this specific texture instead of the entire node."] # [doc = ""] # [inline] pub fn tint_over (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_tint_over ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Multiplies the color of the bar's `texture_progress` texture."] # [doc = ""] # [inline] pub fn tint_progress (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_tint_progress ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Multiplies the color of the bar's `texture_under` texture."] # [doc = ""] # [inline] pub fn tint_under (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_tint_under ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "[Texture] that draws under the progress bar. The bar's background."] # [doc = ""] # [inline] pub fn under_texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . get_under_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 = "Upper limit for the fill of [member texture_progress] if [member fill_mode] is [constant FILL_CLOCKWISE] or [constant FILL_COUNTER_CLOCKWISE]. When the node's `value` is equal to its `max_value`, the texture fills up to this angle.\nSee [member Range.value], [member Range.max_value]."] # [doc = ""] # [inline] pub fn set_fill_degrees (& self , mode : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_fill_degrees ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The fill direction. See [enum FillMode] for possible values."] # [doc = ""] # [inline] pub fn set_fill_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_fill_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "If `true`, Godot treats the bar's textures like in [NinePatchRect]. Use the `stretch_margin_*` properties like [member stretch_margin_bottom] to set up the nine patch's 3×3 grid. When using a radial [member fill_mode], this setting will enable stretching."] # [doc = ""] # [inline] pub fn set_nine_patch_stretch (& self , stretch : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_nine_patch_stretch ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , stretch) ; } } # [doc = "[Texture] that draws over the progress bar. Use it to add highlights or an upper-frame that hides part of [member texture_progress]."] # [doc = ""] # [inline] pub fn set_over_texture (& self , tex : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_over_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , tex . as_arg_ptr ()) ; } } # [doc = "[Texture] that clips based on the node's `value` and [member fill_mode]. As `value` increased, the texture fills up. It shows entirely when `value` reaches `max_value`. It doesn't show at all if `value` is equal to `min_value`.\nThe `value` property comes from [Range]. See [member Range.value], [member Range.min_value], [member Range.max_value]."] # [doc = ""] # [inline] pub fn set_progress_texture (& self , tex : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_progress_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , tex . as_arg_ptr ()) ; } } # [doc = "Offsets [member texture_progress] if [member fill_mode] is [constant FILL_CLOCKWISE] or [constant FILL_COUNTER_CLOCKWISE]."] # [doc = ""] # [inline] pub fn set_radial_center_offset (& self , mode : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_radial_center_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Starting angle for the fill of [member texture_progress] if [member fill_mode] is [constant FILL_CLOCKWISE] or [constant FILL_COUNTER_CLOCKWISE]. When the node's `value` is equal to its `min_value`, the texture doesn't show up at all. When the `value` increases, the texture fills and tends towards [member radial_fill_degrees]."] # [doc = ""] # [inline] pub fn set_radial_initial_angle (& self , mode : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_radial_initial_angle ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The height of the 9-patch's top row."] # [doc = ""] # [inline] pub fn set_stretch_margin (& self , margin : i64 , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_stretch_margin ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin , value) ; } } # [doc = "Multiplies the color of the bar's `texture_over` texture. The effect is similar to [member CanvasItem.modulate], except it only affects this specific texture instead of the entire node."] # [doc = ""] # [inline] pub fn set_tint_over (& self , tint : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_tint_over ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , tint) ; } } # [doc = "Multiplies the color of the bar's `texture_progress` texture."] # [doc = ""] # [inline] pub fn set_tint_progress (& self , tint : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_tint_progress ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , tint) ; } } # [doc = "Multiplies the color of the bar's `texture_under` texture."] # [doc = ""] # [inline] pub fn set_tint_under (& self , tint : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_tint_under ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , tint) ; } } # [doc = "[Texture] that draws under the progress bar. The bar's background."] # [doc = ""] # [inline] pub fn set_under_texture (& self , tex : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TextureProgressMethodTable :: get (get_api ()) . set_under_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , tex . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for TextureProgress { } unsafe impl GodotObject for TextureProgress { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "TextureProgress" } } impl QueueFree for TextureProgress { # [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 TextureProgress { type Target = crate :: generated :: range :: Range ; # [inline] fn deref (& self) -> & crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TextureProgress { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: range :: Range > for TextureProgress { } unsafe impl SubClass < crate :: generated :: control :: Control > for TextureProgress { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for TextureProgress { } unsafe impl SubClass < crate :: generated :: node :: Node > for TextureProgress { } unsafe impl SubClass < crate :: generated :: object :: Object > for TextureProgress { } impl Instanciable for TextureProgress { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TextureProgress :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TextureProgressMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_fill_degrees : * mut sys :: godot_method_bind , pub get_fill_mode : * mut sys :: godot_method_bind , pub get_nine_patch_stretch : * mut sys :: godot_method_bind , pub get_over_texture : * mut sys :: godot_method_bind , pub get_progress_texture : * mut sys :: godot_method_bind , pub get_radial_center_offset : * mut sys :: godot_method_bind , pub get_radial_initial_angle : * mut sys :: godot_method_bind , pub get_stretch_margin : * mut sys :: godot_method_bind , pub get_tint_over : * mut sys :: godot_method_bind , pub get_tint_progress : * mut sys :: godot_method_bind , pub get_tint_under : * mut sys :: godot_method_bind , pub get_under_texture : * mut sys :: godot_method_bind , pub set_fill_degrees : * mut sys :: godot_method_bind , pub set_fill_mode : * mut sys :: godot_method_bind , pub set_nine_patch_stretch : * mut sys :: godot_method_bind , pub set_over_texture : * mut sys :: godot_method_bind , pub set_progress_texture : * mut sys :: godot_method_bind , pub set_radial_center_offset : * mut sys :: godot_method_bind , pub set_radial_initial_angle : * mut sys :: godot_method_bind , pub set_stretch_margin : * mut sys :: godot_method_bind , pub set_tint_over : * mut sys :: godot_method_bind , pub set_tint_progress : * mut sys :: godot_method_bind , pub set_tint_under : * mut sys :: godot_method_bind , pub set_under_texture : * mut sys :: godot_method_bind } impl TextureProgressMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TextureProgressMethodTable = TextureProgressMethodTable { class_constructor : None , get_fill_degrees : 0 as * mut sys :: godot_method_bind , get_fill_mode : 0 as * mut sys :: godot_method_bind , get_nine_patch_stretch : 0 as * mut sys :: godot_method_bind , get_over_texture : 0 as * mut sys :: godot_method_bind , get_progress_texture : 0 as * mut sys :: godot_method_bind , get_radial_center_offset : 0 as * mut sys :: godot_method_bind , get_radial_initial_angle : 0 as * mut sys :: godot_method_bind , get_stretch_margin : 0 as * mut sys :: godot_method_bind , get_tint_over : 0 as * mut sys :: godot_method_bind , get_tint_progress : 0 as * mut sys :: godot_method_bind , get_tint_under : 0 as * mut sys :: godot_method_bind , get_under_texture : 0 as * mut sys :: godot_method_bind , set_fill_degrees : 0 as * mut sys :: godot_method_bind , set_fill_mode : 0 as * mut sys :: godot_method_bind , set_nine_patch_stretch : 0 as * mut sys :: godot_method_bind , set_over_texture : 0 as * mut sys :: godot_method_bind , set_progress_texture : 0 as * mut sys :: godot_method_bind , set_radial_center_offset : 0 as * mut sys :: godot_method_bind , set_radial_initial_angle : 0 as * mut sys :: godot_method_bind , set_stretch_margin : 0 as * mut sys :: godot_method_bind , set_tint_over : 0 as * mut sys :: godot_method_bind , set_tint_progress : 0 as * mut sys :: godot_method_bind , set_tint_under : 0 as * mut sys :: godot_method_bind , set_under_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 (|| { TextureProgressMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TextureProgress\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_fill_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_fill_degrees\0" . as_ptr () as * const c_char) ; table . get_fill_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_fill_mode\0" . as_ptr () as * const c_char) ; table . get_nine_patch_stretch = (gd_api . godot_method_bind_get_method) (class_name , "get_nine_patch_stretch\0" . as_ptr () as * const c_char) ; table . get_over_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_over_texture\0" . as_ptr () as * const c_char) ; table . get_progress_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_progress_texture\0" . as_ptr () as * const c_char) ; table . get_radial_center_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_radial_center_offset\0" . as_ptr () as * const c_char) ; table . get_radial_initial_angle = (gd_api . godot_method_bind_get_method) (class_name , "get_radial_initial_angle\0" . as_ptr () as * const c_char) ; table . get_stretch_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_stretch_margin\0" . as_ptr () as * const c_char) ; table . get_tint_over = (gd_api . godot_method_bind_get_method) (class_name , "get_tint_over\0" . as_ptr () as * const c_char) ; table . get_tint_progress = (gd_api . godot_method_bind_get_method) (class_name , "get_tint_progress\0" . as_ptr () as * const c_char) ; table . get_tint_under = (gd_api . godot_method_bind_get_method) (class_name , "get_tint_under\0" . as_ptr () as * const c_char) ; table . get_under_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_under_texture\0" . as_ptr () as * const c_char) ; table . set_fill_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_fill_degrees\0" . as_ptr () as * const c_char) ; table . set_fill_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_fill_mode\0" . as_ptr () as * const c_char) ; table . set_nine_patch_stretch = (gd_api . godot_method_bind_get_method) (class_name , "set_nine_patch_stretch\0" . as_ptr () as * const c_char) ; table . set_over_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_over_texture\0" . as_ptr () as * const c_char) ; table . set_progress_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_progress_texture\0" . as_ptr () as * const c_char) ; table . set_radial_center_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_radial_center_offset\0" . as_ptr () as * const c_char) ; table . set_radial_initial_angle = (gd_api . godot_method_bind_get_method) (class_name , "set_radial_initial_angle\0" . as_ptr () as * const c_char) ; table . set_stretch_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch_margin\0" . as_ptr () as * const c_char) ; table . set_tint_over = (gd_api . godot_method_bind_get_method) (class_name , "set_tint_over\0" . as_ptr () as * const c_char) ; table . set_tint_progress = (gd_api . godot_method_bind_get_method) (class_name , "set_tint_progress\0" . as_ptr () as * const c_char) ; table . set_tint_under = (gd_api . godot_method_bind_get_method) (class_name , "set_tint_under\0" . as_ptr () as * const c_char) ; table . set_under_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_under_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-60c8dbcfaf0f3dfc/out/generated.rs:334:12810 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:340:10159 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:346:31794 [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 AnimationPlayer` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationplayer.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`AnimationPlayer` 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\nAnimationPlayer 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 AnimationPlayer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AnimationMethodCallMode (pub i64) ; impl AnimationMethodCallMode { pub const DEFERRED : AnimationMethodCallMode = AnimationMethodCallMode (0i64) ; pub const IMMEDIATE : AnimationMethodCallMode = AnimationMethodCallMode (1i64) ; } impl From < i64 > for AnimationMethodCallMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AnimationMethodCallMode > for i64 { # [inline] fn from (v : AnimationMethodCallMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AnimationProcessMode (pub i64) ; impl AnimationProcessMode { pub const PHYSICS : AnimationProcessMode = AnimationProcessMode (0i64) ; pub const IDLE : AnimationProcessMode = AnimationProcessMode (1i64) ; pub const MANUAL : AnimationProcessMode = AnimationProcessMode (2i64) ; } impl From < i64 > for AnimationProcessMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AnimationProcessMode > for i64 { # [inline] fn from (v : AnimationProcessMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationPlayer { pub const ANIMATION_METHOD_CALL_DEFERRED : i64 = 0i64 ; pub const ANIMATION_METHOD_CALL_IMMEDIATE : i64 = 1i64 ; pub const ANIMATION_PROCESS_IDLE : i64 = 1i64 ; pub const ANIMATION_PROCESS_MANUAL : i64 = 2i64 ; pub const ANIMATION_PROCESS_PHYSICS : i64 = 0i64 ; } impl AnimationPlayer { # [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 = AnimationPlayerMethodTable :: 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 `animation` to the player accessible with the key `name`."] # [doc = ""] # [inline] pub fn add_animation (& self , name : impl Into < GodotString > , animation : impl AsArg < crate :: generated :: animation :: Animation >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . add_animation ; let ret = crate :: icalls :: icallptr_i64_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , animation . as_arg_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Shifts position in the animation timeline and immediately updates the animation. `delta` is the time in seconds to shift. Events between the current frame and `delta` are handled."] # [doc = ""] # [inline] pub fn advance (& self , delta : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . advance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , delta) ; } } # [doc = "Returns the name of the next animation in the queue."] # [doc = ""] # [inline] pub fn animation_get_next (& self , anim_from : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . animation_get_next ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , anim_from . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Triggers the `anim_to` animation when the `anim_from` animation completes."] # [doc = ""] # [inline] pub fn animation_set_next (& self , anim_from : impl Into < GodotString > , anim_to : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . animation_set_next ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , anim_from . into () , anim_to . into ()) ; } } # [doc = "[AnimationPlayer] caches animated nodes. It may not notice if a node disappears; [method clear_caches] forces it to update the cache again."] # [doc = ""] # [inline] pub fn clear_caches (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . clear_caches ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Clears all queued, unplayed animations."] # [doc = ""] # [inline] pub fn clear_queue (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . clear_queue ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the name of `animation` or an empty string if not found."] # [doc = ""] # [inline] pub fn find_animation (& self , animation : impl AsArg < crate :: generated :: animation :: Animation >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . find_animation ; let ret = crate :: icalls :: icallptr_str_obj (method_bind , self . this . sys () . as_ptr () , animation . as_arg_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the [Animation] with key `name` or `null` if not found."] # [doc = ""] # [inline] pub fn get_animation (& self , name : impl Into < GodotString >) -> Option < Ref < crate :: generated :: animation :: Animation , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_animation ; 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 :: animation :: Animation , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the list of stored animation names."] # [doc = ""] # [inline] pub fn get_animation_list (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_animation_list ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "The process notification in which to update animations."] # [doc = ""] # [inline] pub fn animation_process_mode (& self) -> crate :: generated :: animation_player :: AnimationProcessMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_animation_process_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: animation_player :: AnimationProcessMode (ret) } } # [doc = "If playing, the current animation; otherwise, the animation last played. When set, would change the animation, but would not play it unless currently playing. See also [member current_animation]."] # [doc = ""] # [inline] pub fn assigned_animation (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_assigned_animation ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The name of the animation to play when the scene loads."] # [doc = ""] # [inline] pub fn autoplay (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_autoplay ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Gets the blend time (in seconds) between two animations, referenced by their names."] # [doc = ""] # [inline] pub fn get_blend_time (& self , anim_from : impl Into < GodotString > , anim_to : impl Into < GodotString >) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_blend_time ; let ret = crate :: icalls :: icallptr_f64_str_str (method_bind , self . this . sys () . as_ptr () , anim_from . into () , anim_to . into ()) ; ret as _ } } # [doc = "The name of the currently playing animation. If no animation is playing, the property's value is an empty string. Changing this value does not restart the animation. See [method play] for more information on playing animations.\n**Note**: while this property appears in the inspector, it's not meant to be edited and it's not saved in the scene. This property is mainly used to get the currently playing animation, and internally for animation playback tracks. For more information, see [Animation]."] # [doc = ""] # [inline] pub fn current_animation (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_current_animation ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The length (in seconds) of the currently being played animation."] # [doc = ""] # [inline] pub fn current_animation_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_current_animation_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The position (in seconds) of the currently playing animation."] # [doc = ""] # [inline] pub fn current_animation_position (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_current_animation_position ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The default time in which to blend animations. Ranges from 0 to 4096 with 0.01 precision."] # [doc = ""] # [inline] pub fn default_blend_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_default_blend_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The call mode to use for Call Method tracks."] # [doc = ""] # [inline] pub fn method_call_mode (& self) -> crate :: generated :: animation_player :: AnimationMethodCallMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_method_call_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: animation_player :: AnimationMethodCallMode (ret) } } # [doc = "Gets the actual playing speed of current animation or 0 if not playing. This speed is the [member playback_speed] property multiplied by `custom_speed` argument specified when calling the [method play] method."] # [doc = ""] # [inline] pub fn get_playing_speed (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_playing_speed ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a list of the animation names that are currently queued to play."] # [doc = ""] # [inline] pub fn get_queue (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_queue ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "The node from which node path references will travel."] # [doc = ""] # [inline] pub fn root (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_root ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The speed scaling ratio. For instance, if this value is 1, then the animation plays at normal speed. If it's 0.5, then it plays at half speed. If it's 2, then it plays at double speed."] # [doc = ""] # [inline] pub fn speed_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . get_speed_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the [AnimationPlayer] stores an [Animation] with key `name`."] # [doc = ""] # [inline] pub fn has_animation (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . has_animation ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "If `true`, updates animations in response to process-related notifications."] # [doc = ""] # [inline] pub fn is_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . is_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if playing an animation."] # [doc = ""] # [inline] pub fn is_playing (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . is_playing ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Plays the animation with key `name`. Custom blend times and speed can be set. If `custom_speed` is negative and `from_end` is `true`, the animation will play backwards (which is equivalent to calling [method play_backwards]).\nThe [AnimationPlayer] keeps track of its current or last played animation with [member assigned_animation]. If this method is called with that same animation `name`, or with no `name` parameter, the assigned animation will resume playing if it was paused, or restart if it was stopped (see [method stop] for both pause and stop). If the animation was already playing, it will keep playing.\n**Note:** The animation will be updated the next time the [AnimationPlayer] is processed. If other variables are updated at the same time this is called, they may be updated too early. To perform the update immediately, call `advance(0)`.\n# Default Arguments\n* `name` - `\"\"`\n* `custom_blend` - `-1`\n* `custom_speed` - `1.0`\n* `from_end` - `false`"] # [doc = ""] # [inline] pub fn play (& self , name : impl Into < GodotString > , custom_blend : f64 , custom_speed : f64 , from_end : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . play ; let ret = crate :: icalls :: icallptr_void_str_f64_f64_bool (method_bind , self . this . sys () . as_ptr () , name . into () , custom_blend , custom_speed , from_end) ; } } # [doc = "Plays the animation with key `name` in reverse.\nThis method is a shorthand for [method play] with `custom_speed = -1.0` and `from_end = true`, so see its description for more information.\n# Default Arguments\n* `name` - `\"\"`\n* `custom_blend` - `-1`"] # [doc = ""] # [inline] pub fn play_backwards (& self , name : impl Into < GodotString > , custom_blend : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . play_backwards ; let ret = crate :: icalls :: icallptr_void_str_f64 (method_bind , self . this . sys () . as_ptr () , name . into () , custom_blend) ; } } # [doc = "Queues an animation for playback once the current one is done.\n**Note:** If a looped animation is currently playing, the queued animation will never play unless the looped animation is stopped somehow."] # [doc = ""] # [inline] pub fn queue (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . queue ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Removes the animation with key `name`."] # [doc = ""] # [inline] pub fn remove_animation (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . remove_animation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Renames an existing animation with key `name` to `newname`."] # [doc = ""] # [inline] pub fn rename_animation (& self , name : impl Into < GodotString > , newname : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . rename_animation ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , newname . into ()) ; } } # [doc = "Seeks the animation to the `seconds` point in time (in seconds). If `update` is `true`, the animation updates too, otherwise it updates at process time. Events between the current frame and `seconds` are skipped.\n# Default Arguments\n* `update` - `false`"] # [doc = ""] # [inline] pub fn seek (& self , seconds : f64 , update : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . seek ; let ret = crate :: icalls :: icallptr_void_f64_bool (method_bind , self . this . sys () . as_ptr () , seconds , update) ; } } # [doc = "If `true`, updates animations in response to process-related notifications."] # [doc = ""] # [inline] pub fn set_active (& self , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_active ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , active) ; } } # [doc = "The process notification in which to update animations."] # [doc = ""] # [inline] pub fn set_animation_process_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_animation_process_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "If playing, the current animation; otherwise, the animation last played. When set, would change the animation, but would not play it unless currently playing. See also [member current_animation]."] # [doc = ""] # [inline] pub fn set_assigned_animation (& self , anim : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_assigned_animation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; } } # [doc = "The name of the animation to play when the scene loads."] # [doc = ""] # [inline] pub fn set_autoplay (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_autoplay ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Specifies a blend time (in seconds) between two animations, referenced by their names."] # [doc = ""] # [inline] pub fn set_blend_time (& self , anim_from : impl Into < GodotString > , anim_to : impl Into < GodotString > , sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_blend_time ; let ret = crate :: icalls :: icallptr_void_str_str_f64 (method_bind , self . this . sys () . as_ptr () , anim_from . into () , anim_to . into () , sec) ; } } # [doc = "The name of the currently playing animation. If no animation is playing, the property's value is an empty string. Changing this value does not restart the animation. See [method play] for more information on playing animations.\n**Note**: while this property appears in the inspector, it's not meant to be edited and it's not saved in the scene. This property is mainly used to get the currently playing animation, and internally for animation playback tracks. For more information, see [Animation]."] # [doc = ""] # [inline] pub fn set_current_animation (& self , anim : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_current_animation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; } } # [doc = "The default time in which to blend animations. Ranges from 0 to 4096 with 0.01 precision."] # [doc = ""] # [inline] pub fn set_default_blend_time (& self , sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_default_blend_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , sec) ; } } # [doc = "The call mode to use for Call Method tracks."] # [doc = ""] # [inline] pub fn set_method_call_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_method_call_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The node from which node path references will travel."] # [doc = ""] # [inline] pub fn set_root (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_root ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "The speed scaling ratio. For instance, if this value is 1, then the animation plays at normal speed. If it's 0.5, then it plays at half speed. If it's 2, then it plays at double speed."] # [doc = ""] # [inline] pub fn set_speed_scale (& self , speed : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . set_speed_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , speed) ; } } # [doc = "Stops or pauses the currently playing animation. If `reset` is `true`, the animation position is reset to `0` and the playback speed is reset to `1.0`.\nIf `reset` is `false`, the [member current_animation_position] will be kept and calling [method play] or [method play_backwards] without arguments or with the same animation name as [member assigned_animation] will resume the animation.\n# Default Arguments\n* `reset` - `true`"] # [doc = ""] # [inline] pub fn stop (& self , reset : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationPlayerMethodTable :: get (get_api ()) . stop ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , reset) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationPlayer { } unsafe impl GodotObject for AnimationPlayer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "AnimationPlayer" } } impl QueueFree for AnimationPlayer { # [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 AnimationPlayer { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationPlayer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for AnimationPlayer { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationPlayer { } impl Instanciable for AnimationPlayer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationPlayer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationPlayerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_animation : * mut sys :: godot_method_bind , pub advance : * mut sys :: godot_method_bind , pub animation_get_next : * mut sys :: godot_method_bind , pub animation_set_next : * mut sys :: godot_method_bind , pub clear_caches : * mut sys :: godot_method_bind , pub clear_queue : * mut sys :: godot_method_bind , pub find_animation : * mut sys :: godot_method_bind , pub get_animation : * mut sys :: godot_method_bind , pub get_animation_list : * mut sys :: godot_method_bind , pub get_animation_process_mode : * mut sys :: godot_method_bind , pub get_assigned_animation : * mut sys :: godot_method_bind , pub get_autoplay : * mut sys :: godot_method_bind , pub get_blend_time : * mut sys :: godot_method_bind , pub get_current_animation : * mut sys :: godot_method_bind , pub get_current_animation_length : * mut sys :: godot_method_bind , pub get_current_animation_position : * mut sys :: godot_method_bind , pub get_default_blend_time : * mut sys :: godot_method_bind , pub get_method_call_mode : * mut sys :: godot_method_bind , pub get_playing_speed : * mut sys :: godot_method_bind , pub get_queue : * mut sys :: godot_method_bind , pub get_root : * mut sys :: godot_method_bind , pub get_speed_scale : * mut sys :: godot_method_bind , pub has_animation : * mut sys :: godot_method_bind , pub is_active : * mut sys :: godot_method_bind , pub is_playing : * mut sys :: godot_method_bind , pub play : * mut sys :: godot_method_bind , pub play_backwards : * mut sys :: godot_method_bind , pub queue : * mut sys :: godot_method_bind , pub remove_animation : * mut sys :: godot_method_bind , pub rename_animation : * mut sys :: godot_method_bind , pub seek : * mut sys :: godot_method_bind , pub set_active : * mut sys :: godot_method_bind , pub set_animation_process_mode : * mut sys :: godot_method_bind , pub set_assigned_animation : * mut sys :: godot_method_bind , pub set_autoplay : * mut sys :: godot_method_bind , pub set_blend_time : * mut sys :: godot_method_bind , pub set_current_animation : * mut sys :: godot_method_bind , pub set_default_blend_time : * mut sys :: godot_method_bind , pub set_method_call_mode : * mut sys :: godot_method_bind , pub set_root : * mut sys :: godot_method_bind , pub set_speed_scale : * mut sys :: godot_method_bind , pub stop : * mut sys :: godot_method_bind } impl AnimationPlayerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationPlayerMethodTable = AnimationPlayerMethodTable { class_constructor : None , add_animation : 0 as * mut sys :: godot_method_bind , advance : 0 as * mut sys :: godot_method_bind , animation_get_next : 0 as * mut sys :: godot_method_bind , animation_set_next : 0 as * mut sys :: godot_method_bind , clear_caches : 0 as * mut sys :: godot_method_bind , clear_queue : 0 as * mut sys :: godot_method_bind , find_animation : 0 as * mut sys :: godot_method_bind , get_animation : 0 as * mut sys :: godot_method_bind , get_animation_list : 0 as * mut sys :: godot_method_bind , get_animation_process_mode : 0 as * mut sys :: godot_method_bind , get_assigned_animation : 0 as * mut sys :: godot_method_bind , get_autoplay : 0 as * mut sys :: godot_method_bind , get_blend_time : 0 as * mut sys :: godot_method_bind , get_current_animation : 0 as * mut sys :: godot_method_bind , get_current_animation_length : 0 as * mut sys :: godot_method_bind , get_current_animation_position : 0 as * mut sys :: godot_method_bind , get_default_blend_time : 0 as * mut sys :: godot_method_bind , get_method_call_mode : 0 as * mut sys :: godot_method_bind , get_playing_speed : 0 as * mut sys :: godot_method_bind , get_queue : 0 as * mut sys :: godot_method_bind , get_root : 0 as * mut sys :: godot_method_bind , get_speed_scale : 0 as * mut sys :: godot_method_bind , has_animation : 0 as * mut sys :: godot_method_bind , is_active : 0 as * mut sys :: godot_method_bind , is_playing : 0 as * mut sys :: godot_method_bind , play : 0 as * mut sys :: godot_method_bind , play_backwards : 0 as * mut sys :: godot_method_bind , queue : 0 as * mut sys :: godot_method_bind , remove_animation : 0 as * mut sys :: godot_method_bind , rename_animation : 0 as * mut sys :: godot_method_bind , seek : 0 as * mut sys :: godot_method_bind , set_active : 0 as * mut sys :: godot_method_bind , set_animation_process_mode : 0 as * mut sys :: godot_method_bind , set_assigned_animation : 0 as * mut sys :: godot_method_bind , set_autoplay : 0 as * mut sys :: godot_method_bind , set_blend_time : 0 as * mut sys :: godot_method_bind , set_current_animation : 0 as * mut sys :: godot_method_bind , set_default_blend_time : 0 as * mut sys :: godot_method_bind , set_method_call_mode : 0 as * mut sys :: godot_method_bind , set_root : 0 as * mut sys :: godot_method_bind , set_speed_scale : 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 (|| { AnimationPlayerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationPlayer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_animation = (gd_api . godot_method_bind_get_method) (class_name , "add_animation\0" . as_ptr () as * const c_char) ; table . advance = (gd_api . godot_method_bind_get_method) (class_name , "advance\0" . as_ptr () as * const c_char) ; table . animation_get_next = (gd_api . godot_method_bind_get_method) (class_name , "animation_get_next\0" . as_ptr () as * const c_char) ; table . animation_set_next = (gd_api . godot_method_bind_get_method) (class_name , "animation_set_next\0" . as_ptr () as * const c_char) ; table . clear_caches = (gd_api . godot_method_bind_get_method) (class_name , "clear_caches\0" . as_ptr () as * const c_char) ; table . clear_queue = (gd_api . godot_method_bind_get_method) (class_name , "clear_queue\0" . as_ptr () as * const c_char) ; table . find_animation = (gd_api . godot_method_bind_get_method) (class_name , "find_animation\0" . as_ptr () as * const c_char) ; table . get_animation = (gd_api . godot_method_bind_get_method) (class_name , "get_animation\0" . as_ptr () as * const c_char) ; table . get_animation_list = (gd_api . godot_method_bind_get_method) (class_name , "get_animation_list\0" . as_ptr () as * const c_char) ; table . get_animation_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_animation_process_mode\0" . as_ptr () as * const c_char) ; table . get_assigned_animation = (gd_api . godot_method_bind_get_method) (class_name , "get_assigned_animation\0" . as_ptr () as * const c_char) ; table . get_autoplay = (gd_api . godot_method_bind_get_method) (class_name , "get_autoplay\0" . as_ptr () as * const c_char) ; table . get_blend_time = (gd_api . godot_method_bind_get_method) (class_name , "get_blend_time\0" . as_ptr () as * const c_char) ; table . get_current_animation = (gd_api . godot_method_bind_get_method) (class_name , "get_current_animation\0" . as_ptr () as * const c_char) ; table . get_current_animation_length = (gd_api . godot_method_bind_get_method) (class_name , "get_current_animation_length\0" . as_ptr () as * const c_char) ; table . get_current_animation_position = (gd_api . godot_method_bind_get_method) (class_name , "get_current_animation_position\0" . as_ptr () as * const c_char) ; table . get_default_blend_time = (gd_api . godot_method_bind_get_method) (class_name , "get_default_blend_time\0" . as_ptr () as * const c_char) ; table . get_method_call_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_method_call_mode\0" . as_ptr () as * const c_char) ; table . get_playing_speed = (gd_api . godot_method_bind_get_method) (class_name , "get_playing_speed\0" . as_ptr () as * const c_char) ; table . get_queue = (gd_api . godot_method_bind_get_method) (class_name , "get_queue\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_speed_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_speed_scale\0" . as_ptr () as * const c_char) ; table . has_animation = (gd_api . godot_method_bind_get_method) (class_name , "has_animation\0" . as_ptr () as * const c_char) ; table . is_active = (gd_api . godot_method_bind_get_method) (class_name , "is_active\0" . as_ptr () as * const c_char) ; table . is_playing = (gd_api . godot_method_bind_get_method) (class_name , "is_playing\0" . as_ptr () as * const c_char) ; table . play = (gd_api . godot_method_bind_get_method) (class_name , "play\0" . as_ptr () as * const c_char) ; table . play_backwards = (gd_api . godot_method_bind_get_method) (class_name , "play_backwards\0" . as_ptr () as * const c_char) ; table . queue = (gd_api . godot_method_bind_get_method) (class_name , "queue\0" . as_ptr () as * const c_char) ; table . remove_animation = (gd_api . godot_method_bind_get_method) (class_name , "remove_animation\0" . as_ptr () as * const c_char) ; table . rename_animation = (gd_api . godot_method_bind_get_method) (class_name , "rename_animation\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 . set_active = (gd_api . godot_method_bind_get_method) (class_name , "set_active\0" . as_ptr () as * const c_char) ; table . set_animation_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_animation_process_mode\0" . as_ptr () as * const c_char) ; table . set_assigned_animation = (gd_api . godot_method_bind_get_method) (class_name , "set_assigned_animation\0" . as_ptr () as * const c_char) ; table . set_autoplay = (gd_api . godot_method_bind_get_method) (class_name , "set_autoplay\0" . as_ptr () as * const c_char) ; table . set_blend_time = (gd_api . godot_method_bind_get_method) (class_name , "set_blend_time\0" . as_ptr () as * const c_char) ; table . set_current_animation = (gd_api . godot_method_bind_get_method) (class_name , "set_current_animation\0" . as_ptr () as * const c_char) ; table . set_default_blend_time = (gd_api . godot_method_bind_get_method) (class_name , "set_default_blend_time\0" . as_ptr () as * const c_char) ; table . set_method_call_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_method_call_mode\0" . as_ptr () as * const c_char) ; table . set_root = (gd_api . godot_method_bind_get_method) (class_name , "set_root\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 . 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-60c8dbcfaf0f3dfc/out/generated.rs:352:9148 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:358:5625 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:364:5861 [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 PinJoint` inherits `Joint` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_pinjoint.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`PinJoint` 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\nPinJoint inherits methods from:\n - [Joint](struct.Joint.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 PinJoint { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Param (pub i64) ; impl Param { pub const BIAS : Param = Param (0i64) ; pub const DAMPING : Param = Param (1i64) ; pub const IMPULSE_CLAMP : Param = Param (2i64) ; } 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 PinJoint { pub const PARAM_BIAS : i64 = 0i64 ; pub const PARAM_DAMPING : i64 = 1i64 ; pub const PARAM_IMPULSE_CLAMP : i64 = 2i64 ; } impl PinJoint { # [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 = PinJointMethodTable :: 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 above 0, this value is the maximum value for an impulse that this Joint produces."] # [doc = ""] # [inline] pub fn param (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PinJointMethodTable :: get (get_api ()) . get_param ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "If above 0, this value is the maximum value for an impulse that this Joint produces."] # [doc = ""] # [inline] pub fn set_param (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PinJointMethodTable :: get (get_api ()) . set_param ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PinJoint { } unsafe impl GodotObject for PinJoint { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "PinJoint" } } impl QueueFree for PinJoint { # [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 PinJoint { type Target = crate :: generated :: joint :: Joint ; # [inline] fn deref (& self) -> & crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PinJoint { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: joint :: Joint > for PinJoint { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for PinJoint { } unsafe impl SubClass < crate :: generated :: node :: Node > for PinJoint { } unsafe impl SubClass < crate :: generated :: object :: Object > for PinJoint { } impl Instanciable for PinJoint { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PinJoint :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PinJointMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_param : * mut sys :: godot_method_bind , pub set_param : * mut sys :: godot_method_bind } impl PinJointMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PinJointMethodTable = PinJointMethodTable { class_constructor : None , get_param : 0 as * mut sys :: godot_method_bind , set_param : 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 (|| { PinJointMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PinJoint\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_param = (gd_api . godot_method_bind_get_method) (class_name , "get_param\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) ; } } } [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-60c8dbcfaf0f3dfc/out/generated.rs:370:3380 [INFO] [stdout] | [INFO] [stdout] 370 | ...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] 370 | # [doc = "`core class Texture3D` inherits `TextureLayered` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_texture3d.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\nTexture3D inherits methods from:\n - [TextureLayered](struct.TextureLayered.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 Texture3D { this : RawObject < Self > , } impl Texture3D { # [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 = Texture3DMethodTable :: 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 Texture3D { } unsafe impl GodotObject for Texture3D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Texture3D" } } impl std :: ops :: Deref for Texture3D { type Target = crate :: generated :: texture_layered :: TextureLayered ; # [inline] fn deref (& self) -> & crate :: generated :: texture_layered :: TextureLayered { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Texture3D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture_layered :: TextureLayered { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture_layered :: TextureLayered > for Texture3D { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Texture3D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Texture3D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Texture3D { } impl Instanciable for Texture3D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Texture3D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Texture3DMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl Texture3DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Texture3DMethodTable = Texture3DMethodTable { 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 (|| { Texture3DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Texture3D\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-60c8dbcfaf0f3dfc/out/generated.rs:376:5298 [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 AudioStreamGenerator` inherits `AudioStream` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audiostreamgenerator.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\nAudioStreamGenerator 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 AudioStreamGenerator { this : RawObject < Self > , } impl AudioStreamGenerator { # [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 = AudioStreamGeneratorMethodTable :: 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 buffer_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorMethodTable :: 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 mix_rate (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorMethodTable :: get (get_api ()) . get_mix_rate ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_buffer_length (& self , seconds : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorMethodTable :: get (get_api ()) . set_buffer_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , seconds) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_mix_rate (& self , hz : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamGeneratorMethodTable :: get (get_api ()) . set_mix_rate ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , hz) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioStreamGenerator { } unsafe impl GodotObject for AudioStreamGenerator { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioStreamGenerator" } } impl std :: ops :: Deref for AudioStreamGenerator { 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 AudioStreamGenerator { # [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 AudioStreamGenerator { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioStreamGenerator { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioStreamGenerator { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioStreamGenerator { } impl Instanciable for AudioStreamGenerator { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioStreamGenerator :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioStreamGeneratorMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_buffer_length : * mut sys :: godot_method_bind , pub get_mix_rate : * mut sys :: godot_method_bind , pub set_buffer_length : * mut sys :: godot_method_bind , pub set_mix_rate : * mut sys :: godot_method_bind } impl AudioStreamGeneratorMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioStreamGeneratorMethodTable = AudioStreamGeneratorMethodTable { class_constructor : None , get_buffer_length : 0 as * mut sys :: godot_method_bind , get_mix_rate : 0 as * mut sys :: godot_method_bind , set_buffer_length : 0 as * mut sys :: godot_method_bind , set_mix_rate : 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 (|| { AudioStreamGeneratorMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioStreamGenerator\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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_mix_rate = (gd_api . godot_method_bind_get_method) (class_name , "get_mix_rate\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) ; table . set_mix_rate = (gd_api . godot_method_bind_get_method) (class_name , "set_mix_rate\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-60c8dbcfaf0f3dfc/out/generated.rs:382:41714 [INFO] [stdout] | [INFO] [stdout] 382 | ... : 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] 382 | # [doc = "`core class CPUParticles` inherits `GeometryInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_cpuparticles.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`CPUParticles` 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\nCPUParticles 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 CPUParticles { 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) ; pub const VIEW_DEPTH : DrawOrder = DrawOrder (2i64) ; } 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 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EmissionShape (pub i64) ; impl EmissionShape { pub const POINT : EmissionShape = EmissionShape (0i64) ; pub const SPHERE : EmissionShape = EmissionShape (1i64) ; pub const BOX : EmissionShape = EmissionShape (2i64) ; pub const POINTS : EmissionShape = EmissionShape (3i64) ; pub const DIRECTED_POINTS : EmissionShape = EmissionShape (4i64) ; pub const MAX : EmissionShape = EmissionShape (5i64) ; } impl From < i64 > for EmissionShape { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EmissionShape > for i64 { # [inline] fn from (v : EmissionShape) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Flags (pub i64) ; impl Flags { pub const ALIGN_Y_TO_VELOCITY : Flags = Flags (0i64) ; pub const ROTATE_Y : Flags = Flags (1i64) ; pub const DISABLE_Z : Flags = Flags (2i64) ; pub const MAX : Flags = Flags (3i64) ; } 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 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Parameter (pub i64) ; impl Parameter { pub const INITIAL_LINEAR_VELOCITY : Parameter = Parameter (0i64) ; pub const ANGULAR_VELOCITY : Parameter = Parameter (1i64) ; pub const ORBIT_VELOCITY : Parameter = Parameter (2i64) ; pub const LINEAR_ACCEL : Parameter = Parameter (3i64) ; pub const RADIAL_ACCEL : Parameter = Parameter (4i64) ; pub const TANGENTIAL_ACCEL : Parameter = Parameter (5i64) ; pub const DAMPING : Parameter = Parameter (6i64) ; pub const ANGLE : Parameter = Parameter (7i64) ; pub const SCALE : Parameter = Parameter (8i64) ; pub const HUE_VARIATION : Parameter = Parameter (9i64) ; pub const ANIM_SPEED : Parameter = Parameter (10i64) ; pub const ANIM_OFFSET : Parameter = Parameter (11i64) ; pub const MAX : Parameter = Parameter (12i64) ; } impl From < i64 > for Parameter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Parameter > for i64 { # [inline] fn from (v : Parameter) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl CPUParticles { pub const DRAW_ORDER_INDEX : i64 = 0i64 ; pub const DRAW_ORDER_LIFETIME : i64 = 1i64 ; pub const DRAW_ORDER_VIEW_DEPTH : i64 = 2i64 ; pub const EMISSION_SHAPE_BOX : i64 = 2i64 ; pub const EMISSION_SHAPE_DIRECTED_POINTS : i64 = 4i64 ; pub const EMISSION_SHAPE_MAX : i64 = 5i64 ; pub const EMISSION_SHAPE_POINT : i64 = 0i64 ; pub const EMISSION_SHAPE_POINTS : i64 = 3i64 ; pub const EMISSION_SHAPE_SPHERE : i64 = 1i64 ; pub const FLAG_ALIGN_Y_TO_VELOCITY : i64 = 0i64 ; pub const FLAG_DISABLE_Z : i64 = 2i64 ; pub const FLAG_MAX : i64 = 3i64 ; pub const FLAG_ROTATE_Y : i64 = 1i64 ; pub const PARAM_ANGLE : i64 = 7i64 ; pub const PARAM_ANGULAR_VELOCITY : i64 = 1i64 ; pub const PARAM_ANIM_OFFSET : i64 = 11i64 ; pub const PARAM_ANIM_SPEED : i64 = 10i64 ; pub const PARAM_DAMPING : i64 = 6i64 ; pub const PARAM_HUE_VARIATION : i64 = 9i64 ; pub const PARAM_INITIAL_LINEAR_VELOCITY : i64 = 0i64 ; pub const PARAM_LINEAR_ACCEL : i64 = 3i64 ; pub const PARAM_MAX : i64 = 12i64 ; pub const PARAM_ORBIT_VELOCITY : i64 = 2i64 ; pub const PARAM_RADIAL_ACCEL : i64 = 4i64 ; pub const PARAM_SCALE : i64 = 8i64 ; pub const PARAM_TANGENTIAL_ACCEL : i64 = 5i64 ; } impl CPUParticles { # [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 = CPUParticlesMethodTable :: 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 this node's properties to match a given [Particles] node with an assigned [ParticlesMaterial]."] # [doc = ""] # [inline] pub fn convert_from_particles (& self , particles : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . convert_from_particles ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , particles . as_arg_ptr ()) ; } } # [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 = CPUParticlesMethodTable :: get (get_api ()) . get_amount ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Unused for 3D particles."] # [doc = ""] # [inline] pub fn color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Unused for 3D particles."] # [doc = ""] # [inline] pub fn color_ramp (& self) -> Option < Ref < crate :: generated :: gradient :: Gradient , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_color_ramp ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: gradient :: Gradient , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Unit vector specifying the particles' emission direction."] # [doc = ""] # [inline] pub fn direction (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_direction ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Particle draw order. Uses [enum DrawOrder] values."] # [doc = ""] # [inline] pub fn draw_order (& self) -> crate :: generated :: cpu_particles :: DrawOrder { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_draw_order ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: cpu_particles :: DrawOrder (ret) } } # [doc = "The rectangle's extents if [member emission_shape] is set to [constant EMISSION_SHAPE_BOX]."] # [doc = ""] # [inline] pub fn emission_box_extents (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_emission_box_extents ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Sets the [Color]s to modulate particles by when using [constant EMISSION_SHAPE_POINTS] or [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn emission_colors (& self) -> ColorArray { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_emission_colors ; let ret = crate :: icalls :: icallptr_colorarr (method_bind , self . this . sys () . as_ptr ()) ; ColorArray :: from_sys (ret) } } # [doc = "Sets the direction the particles will be emitted in when using [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn emission_normals (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_emission_normals ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = "Sets the initial positions to spawn particles when using [constant EMISSION_SHAPE_POINTS] or [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn emission_points (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_emission_points ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = "Particles will be emitted inside this region. See [enum EmissionShape] for possible values."] # [doc = ""] # [inline] pub fn emission_shape (& self) -> crate :: generated :: cpu_particles :: EmissionShape { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_emission_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: cpu_particles :: EmissionShape (ret) } } # [doc = "The sphere's radius if [enum EmissionShape] is set to [constant EMISSION_SHAPE_SPHERE]."] # [doc = ""] # [inline] pub fn emission_sphere_radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_emission_sphere_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [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 = CPUParticlesMethodTable :: 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 particle system itself."] # [doc = ""] # [inline] pub fn fixed_fps (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_fixed_fps ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of [member spread] in Y/Z plane. A value of `1` restricts particles to X/Z plane."] # [doc = ""] # [inline] pub fn flatness (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_flatness ; let ret = crate :: icalls :: icallptr_f64 (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 = CPUParticlesMethodTable :: get (get_api ()) . get_fractional_delta ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gravity applied to every particle."] # [doc = ""] # [inline] pub fn gravity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_gravity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Amount of time each particle will exist."] # [doc = ""] # [inline] pub fn lifetime (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_lifetime ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Particle lifetime randomness ratio."] # [doc = ""] # [inline] pub fn lifetime_randomness (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_lifetime_randomness ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [Mesh] used for each particle. If `null`, particles will be spheres."] # [doc = ""] # [inline] pub fn mesh (& self) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: 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 = "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 = CPUParticlesMethodTable :: get (get_api ()) . get_one_shot ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Tangential acceleration applied to each particle. Tangential acceleration is perpendicular to the particle's velocity giving the particles a swirling motion."] # [doc = ""] # [inline] pub fn param (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_param ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "Each particle's tangential acceleration will vary along this [Curve]."] # [doc = ""] # [inline] pub fn param_curve (& self , param : i64) -> Option < Ref < crate :: generated :: curve :: Curve , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_param_curve ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: curve :: Curve , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Tangential acceleration randomness ratio."] # [doc = ""] # [inline] pub fn param_randomness (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_param_randomness ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "If `true`, particles rotate around Y axis by [member angle]."] # [doc = ""] # [inline] pub fn particle_flag (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_particle_flag ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; 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 = CPUParticlesMethodTable :: get (get_api ()) . get_pre_process_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Emission lifetime randomness ratio."] # [doc = ""] # [inline] pub fn randomness_ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: 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 = CPUParticlesMethodTable :: get (get_api ()) . get_speed_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Each particle's initial direction range from `+spread` to `-spread` degrees. Applied to X/Z plane and Y/Z planes."] # [doc = ""] # [inline] pub fn spread (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . get_spread ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [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 = CPUParticlesMethodTable :: get (get_api ()) . get_use_local_coordinates ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, particles are being emitted."] # [doc = ""] # [inline] pub fn is_emitting (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . is_emitting ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Restarts the particle emitter."] # [doc = ""] # [inline] pub fn restart (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: 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 = CPUParticlesMethodTable :: get (get_api ()) . set_amount ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Unused for 3D particles."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Unused for 3D particles."] # [doc = ""] # [inline] pub fn set_color_ramp (& self , ramp : impl AsArg < crate :: generated :: gradient :: Gradient >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_color_ramp ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , ramp . as_arg_ptr ()) ; } } # [doc = "Unit vector specifying the particles' emission direction."] # [doc = ""] # [inline] pub fn set_direction (& self , direction : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_direction ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , direction) ; } } # [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 = CPUParticlesMethodTable :: get (get_api ()) . set_draw_order ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , order) ; } } # [doc = "The rectangle's extents if [member emission_shape] is set to [constant EMISSION_SHAPE_BOX]."] # [doc = ""] # [inline] pub fn set_emission_box_extents (& self , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_emission_box_extents ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , extents) ; } } # [doc = "Sets the [Color]s to modulate particles by when using [constant EMISSION_SHAPE_POINTS] or [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn set_emission_colors (& self , array : ColorArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_emission_colors ; let ret = crate :: icalls :: icallptr_void_colorarr (method_bind , self . this . sys () . as_ptr () , array) ; } } # [doc = "Sets the direction the particles will be emitted in when using [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn set_emission_normals (& self , array : Vector3Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_emission_normals ; let ret = crate :: icalls :: icallptr_void_vec3arr (method_bind , self . this . sys () . as_ptr () , array) ; } } # [doc = "Sets the initial positions to spawn particles when using [constant EMISSION_SHAPE_POINTS] or [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn set_emission_points (& self , array : Vector3Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_emission_points ; let ret = crate :: icalls :: icallptr_void_vec3arr (method_bind , self . this . sys () . as_ptr () , array) ; } } # [doc = "Particles will be emitted inside this region. See [enum EmissionShape] for possible values."] # [doc = ""] # [inline] pub fn set_emission_shape (& self , shape : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_emission_shape ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , shape) ; } } # [doc = "The sphere's radius if [enum EmissionShape] is set to [constant EMISSION_SHAPE_SPHERE]."] # [doc = ""] # [inline] pub fn set_emission_sphere_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_emission_sphere_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [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 = CPUParticlesMethodTable :: 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 = CPUParticlesMethodTable :: 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 particle system itself."] # [doc = ""] # [inline] pub fn set_fixed_fps (& self , fps : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_fixed_fps ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , fps) ; } } # [doc = "Amount of [member spread] in Y/Z plane. A value of `1` restricts particles to X/Z plane."] # [doc = ""] # [inline] pub fn set_flatness (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_flatness ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [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 = CPUParticlesMethodTable :: get (get_api ()) . set_fractional_delta ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Gravity applied to every particle."] # [doc = ""] # [inline] pub fn set_gravity (& self , accel_vec : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_gravity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , accel_vec) ; } } # [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 = CPUParticlesMethodTable :: get (get_api ()) . set_lifetime ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , secs) ; } } # [doc = "Particle lifetime randomness ratio."] # [doc = ""] # [inline] pub fn set_lifetime_randomness (& self , random : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_lifetime_randomness ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , random) ; } } # [doc = "The [Mesh] used for each particle. If `null`, particles will be spheres."] # [doc = ""] # [inline] pub fn set_mesh (& self , mesh : impl AsArg < crate :: generated :: mesh :: Mesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_mesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , mesh . 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 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_one_shot ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Tangential acceleration applied to each particle. Tangential acceleration is perpendicular to the particle's velocity giving the particles a swirling motion."] # [doc = ""] # [inline] pub fn set_param (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_param ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } # [doc = "Each particle's tangential acceleration will vary along this [Curve]."] # [doc = ""] # [inline] pub fn set_param_curve (& self , param : i64 , curve : impl AsArg < crate :: generated :: curve :: Curve >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_param_curve ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , param , curve . as_arg_ptr ()) ; } } # [doc = "Tangential acceleration randomness ratio."] # [doc = ""] # [inline] pub fn set_param_randomness (& self , param : i64 , randomness : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_param_randomness ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , randomness) ; } } # [doc = "If `true`, particles rotate around Y axis by [member angle]."] # [doc = ""] # [inline] pub fn set_particle_flag (& self , flag : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_particle_flag ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , enable) ; } } # [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 = CPUParticlesMethodTable :: get (get_api ()) . set_pre_process_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , secs) ; } } # [doc = "Emission lifetime randomness ratio."] # [doc = ""] # [inline] pub fn set_randomness_ratio (& self , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: 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 = CPUParticlesMethodTable :: get (get_api ()) . set_speed_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Each particle's initial direction range from `+spread` to `-spread` degrees. Applied to X/Z plane and Y/Z planes."] # [doc = ""] # [inline] pub fn set_spread (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CPUParticlesMethodTable :: get (get_api ()) . set_spread ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [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 = CPUParticlesMethodTable :: get (get_api ()) . set_use_local_coordinates ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CPUParticles { } unsafe impl GodotObject for CPUParticles { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CPUParticles" } } impl QueueFree for CPUParticles { # [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 CPUParticles { 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 CPUParticles { # [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 CPUParticles { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for CPUParticles { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CPUParticles { } unsafe impl SubClass < crate :: generated :: node :: Node > for CPUParticles { } unsafe impl SubClass < crate :: generated :: object :: Object > for CPUParticles { } impl Instanciable for CPUParticles { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CPUParticles :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CPUParticlesMethodTable { pub class_constructor : sys :: godot_class_constructor , pub convert_from_particles : * mut sys :: godot_method_bind , pub get_amount : * mut sys :: godot_method_bind , pub get_color : * mut sys :: godot_method_bind , pub get_color_ramp : * mut sys :: godot_method_bind , pub get_direction : * mut sys :: godot_method_bind , pub get_draw_order : * mut sys :: godot_method_bind , pub get_emission_box_extents : * mut sys :: godot_method_bind , pub get_emission_colors : * mut sys :: godot_method_bind , pub get_emission_normals : * mut sys :: godot_method_bind , pub get_emission_points : * mut sys :: godot_method_bind , pub get_emission_shape : * mut sys :: godot_method_bind , pub get_emission_sphere_radius : * 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_flatness : * mut sys :: godot_method_bind , pub get_fractional_delta : * mut sys :: godot_method_bind , pub get_gravity : * mut sys :: godot_method_bind , pub get_lifetime : * mut sys :: godot_method_bind , pub get_lifetime_randomness : * mut sys :: godot_method_bind , pub get_mesh : * mut sys :: godot_method_bind , pub get_one_shot : * mut sys :: godot_method_bind , pub get_param : * mut sys :: godot_method_bind , pub get_param_curve : * mut sys :: godot_method_bind , pub get_param_randomness : * mut sys :: godot_method_bind , pub get_particle_flag : * mut sys :: godot_method_bind , pub get_pre_process_time : * 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_spread : * mut sys :: godot_method_bind , pub get_use_local_coordinates : * 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_color : * mut sys :: godot_method_bind , pub set_color_ramp : * mut sys :: godot_method_bind , pub set_direction : * mut sys :: godot_method_bind , pub set_draw_order : * mut sys :: godot_method_bind , pub set_emission_box_extents : * mut sys :: godot_method_bind , pub set_emission_colors : * mut sys :: godot_method_bind , pub set_emission_normals : * mut sys :: godot_method_bind , pub set_emission_points : * mut sys :: godot_method_bind , pub set_emission_shape : * mut sys :: godot_method_bind , pub set_emission_sphere_radius : * 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_flatness : * mut sys :: godot_method_bind , pub set_fractional_delta : * mut sys :: godot_method_bind , pub set_gravity : * mut sys :: godot_method_bind , pub set_lifetime : * mut sys :: godot_method_bind , pub set_lifetime_randomness : * mut sys :: godot_method_bind , pub set_mesh : * mut sys :: godot_method_bind , pub set_one_shot : * mut sys :: godot_method_bind , pub set_param : * mut sys :: godot_method_bind , pub set_param_curve : * mut sys :: godot_method_bind , pub set_param_randomness : * mut sys :: godot_method_bind , pub set_particle_flag : * mut sys :: godot_method_bind , pub set_pre_process_time : * 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_spread : * mut sys :: godot_method_bind , pub set_use_local_coordinates : * mut sys :: godot_method_bind } impl CPUParticlesMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CPUParticlesMethodTable = CPUParticlesMethodTable { class_constructor : None , convert_from_particles : 0 as * mut sys :: godot_method_bind , get_amount : 0 as * mut sys :: godot_method_bind , get_color : 0 as * mut sys :: godot_method_bind , get_color_ramp : 0 as * mut sys :: godot_method_bind , get_direction : 0 as * mut sys :: godot_method_bind , get_draw_order : 0 as * mut sys :: godot_method_bind , get_emission_box_extents : 0 as * mut sys :: godot_method_bind , get_emission_colors : 0 as * mut sys :: godot_method_bind , get_emission_normals : 0 as * mut sys :: godot_method_bind , get_emission_points : 0 as * mut sys :: godot_method_bind , get_emission_shape : 0 as * mut sys :: godot_method_bind , get_emission_sphere_radius : 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_flatness : 0 as * mut sys :: godot_method_bind , get_fractional_delta : 0 as * mut sys :: godot_method_bind , get_gravity : 0 as * mut sys :: godot_method_bind , get_lifetime : 0 as * mut sys :: godot_method_bind , get_lifetime_randomness : 0 as * mut sys :: godot_method_bind , get_mesh : 0 as * mut sys :: godot_method_bind , get_one_shot : 0 as * mut sys :: godot_method_bind , get_param : 0 as * mut sys :: godot_method_bind , get_param_curve : 0 as * mut sys :: godot_method_bind , get_param_randomness : 0 as * mut sys :: godot_method_bind , get_particle_flag : 0 as * mut sys :: godot_method_bind , get_pre_process_time : 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_spread : 0 as * mut sys :: godot_method_bind , get_use_local_coordinates : 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_color : 0 as * mut sys :: godot_method_bind , set_color_ramp : 0 as * mut sys :: godot_method_bind , set_direction : 0 as * mut sys :: godot_method_bind , set_draw_order : 0 as * mut sys :: godot_method_bind , set_emission_box_extents : 0 as * mut sys :: godot_method_bind , set_emission_colors : 0 as * mut sys :: godot_method_bind , set_emission_normals : 0 as * mut sys :: godot_method_bind , set_emission_points : 0 as * mut sys :: godot_method_bind , set_emission_shape : 0 as * mut sys :: godot_method_bind , set_emission_sphere_radius : 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_flatness : 0 as * mut sys :: godot_method_bind , set_fractional_delta : 0 as * mut sys :: godot_method_bind , set_gravity : 0 as * mut sys :: godot_method_bind , set_lifetime : 0 as * mut sys :: godot_method_bind , set_lifetime_randomness : 0 as * mut sys :: godot_method_bind , set_mesh : 0 as * mut sys :: godot_method_bind , set_one_shot : 0 as * mut sys :: godot_method_bind , set_param : 0 as * mut sys :: godot_method_bind , set_param_curve : 0 as * mut sys :: godot_method_bind , set_param_randomness : 0 as * mut sys :: godot_method_bind , set_particle_flag : 0 as * mut sys :: godot_method_bind , set_pre_process_time : 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_spread : 0 as * mut sys :: godot_method_bind , set_use_local_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 (|| { CPUParticlesMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CPUParticles\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . convert_from_particles = (gd_api . godot_method_bind_get_method) (class_name , "convert_from_particles\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_color = (gd_api . godot_method_bind_get_method) (class_name , "get_color\0" . as_ptr () as * const c_char) ; table . get_color_ramp = (gd_api . godot_method_bind_get_method) (class_name , "get_color_ramp\0" . as_ptr () as * const c_char) ; table . get_direction = (gd_api . godot_method_bind_get_method) (class_name , "get_direction\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_emission_box_extents = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_box_extents\0" . as_ptr () as * const c_char) ; table . get_emission_colors = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_colors\0" . as_ptr () as * const c_char) ; table . get_emission_normals = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_normals\0" . as_ptr () as * const c_char) ; table . get_emission_points = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_points\0" . as_ptr () as * const c_char) ; table . get_emission_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_shape\0" . as_ptr () as * const c_char) ; table . get_emission_sphere_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_sphere_radius\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_flatness = (gd_api . godot_method_bind_get_method) (class_name , "get_flatness\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_gravity = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity\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_lifetime_randomness = (gd_api . godot_method_bind_get_method) (class_name , "get_lifetime_randomness\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 . get_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "get_one_shot\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_param_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_param_curve\0" . as_ptr () as * const c_char) ; table . get_param_randomness = (gd_api . godot_method_bind_get_method) (class_name , "get_param_randomness\0" . as_ptr () as * const c_char) ; table . get_particle_flag = (gd_api . godot_method_bind_get_method) (class_name , "get_particle_flag\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_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_spread = (gd_api . godot_method_bind_get_method) (class_name , "get_spread\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 . 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_color = (gd_api . godot_method_bind_get_method) (class_name , "set_color\0" . as_ptr () as * const c_char) ; table . set_color_ramp = (gd_api . godot_method_bind_get_method) (class_name , "set_color_ramp\0" . as_ptr () as * const c_char) ; table . set_direction = (gd_api . godot_method_bind_get_method) (class_name , "set_direction\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_emission_box_extents = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_box_extents\0" . as_ptr () as * const c_char) ; table . set_emission_colors = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_colors\0" . as_ptr () as * const c_char) ; table . set_emission_normals = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_normals\0" . as_ptr () as * const c_char) ; table . set_emission_points = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_points\0" . as_ptr () as * const c_char) ; table . set_emission_shape = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_shape\0" . as_ptr () as * const c_char) ; table . set_emission_sphere_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_sphere_radius\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_flatness = (gd_api . godot_method_bind_get_method) (class_name , "set_flatness\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_gravity = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity\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_lifetime_randomness = (gd_api . godot_method_bind_get_method) (class_name , "set_lifetime_randomness\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_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "set_one_shot\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_param_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_param_curve\0" . as_ptr () as * const c_char) ; table . set_param_randomness = (gd_api . godot_method_bind_get_method) (class_name , "set_param_randomness\0" . as_ptr () as * const c_char) ; table . set_particle_flag = (gd_api . godot_method_bind_get_method) (class_name , "set_particle_flag\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_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_spread = (gd_api . godot_method_bind_get_method) (class_name , "set_spread\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) ; } } } [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-60c8dbcfaf0f3dfc/out/generated.rs:388:11831 [INFO] [stdout] | [INFO] [stdout] 388 | ... : 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] 388 | # [doc = "`core class AudioEffectReverb` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectreverb.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\nAudioEffectReverb 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 AudioEffectReverb { this : RawObject < Self > , } impl AudioEffectReverb { # [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 = AudioEffectReverbMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Defines how reflective the imaginary room's walls are. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn damping (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_damping ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Output percent of original sound. At 0, only modified sound is outputted. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn dry (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_dry ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "High-pass filter passes signals with a frequency higher than a certain cutoff frequency and attenuates signals with frequencies lower than the cutoff frequency. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn hpf (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_hpf ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Output percent of predelay. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn predelay_feedback (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_predelay_feedback ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Time between the original signal and the early reflections of the reverb signal, in milliseconds."] # [doc = ""] # [inline] pub fn predelay_msec (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_predelay_msec ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Dimensions of simulated room. Bigger means more echoes. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn room_size (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_room_size ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Widens or narrows the stereo image of the reverb tail. 1 means fully widens. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn spread (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_spread ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Output percent of modified sound. At 0, only original sound is outputted. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn wet (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . get_wet ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Defines how reflective the imaginary room's walls are. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_damping (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . set_damping ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Output percent of original sound. At 0, only modified sound is outputted. 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 = AudioEffectReverbMethodTable :: get (get_api ()) . set_dry ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "High-pass filter passes signals with a frequency higher than a certain cutoff frequency and attenuates signals with frequencies lower than the cutoff frequency. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_hpf (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . set_hpf ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Output percent of predelay. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_predelay_feedback (& self , feedback : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . set_predelay_feedback ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , feedback) ; } } # [doc = "Time between the original signal and the early reflections of the reverb signal, in milliseconds."] # [doc = ""] # [inline] pub fn set_predelay_msec (& self , msec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . set_predelay_msec ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , msec) ; } } # [doc = "Dimensions of simulated room. Bigger means more echoes. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_room_size (& self , size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . set_room_size ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Widens or narrows the stereo image of the reverb tail. 1 means fully widens. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_spread (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: get (get_api ()) . set_spread ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Output percent of modified sound. At 0, only original sound is outputted. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_wet (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectReverbMethodTable :: 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 AudioEffectReverb { } unsafe impl GodotObject for AudioEffectReverb { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectReverb" } } impl std :: ops :: Deref for AudioEffectReverb { 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 AudioEffectReverb { # [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 AudioEffectReverb { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectReverb { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectReverb { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectReverb { } impl Instanciable for AudioEffectReverb { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectReverb :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectReverbMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_damping : * mut sys :: godot_method_bind , pub get_dry : * mut sys :: godot_method_bind , pub get_hpf : * mut sys :: godot_method_bind , pub get_predelay_feedback : * mut sys :: godot_method_bind , pub get_predelay_msec : * mut sys :: godot_method_bind , pub get_room_size : * mut sys :: godot_method_bind , pub get_spread : * mut sys :: godot_method_bind , pub get_wet : * mut sys :: godot_method_bind , pub set_damping : * mut sys :: godot_method_bind , pub set_dry : * mut sys :: godot_method_bind , pub set_hpf : * mut sys :: godot_method_bind , pub set_predelay_feedback : * mut sys :: godot_method_bind , pub set_predelay_msec : * mut sys :: godot_method_bind , pub set_room_size : * mut sys :: godot_method_bind , pub set_spread : * mut sys :: godot_method_bind , pub set_wet : * mut sys :: godot_method_bind } impl AudioEffectReverbMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectReverbMethodTable = AudioEffectReverbMethodTable { class_constructor : None , get_damping : 0 as * mut sys :: godot_method_bind , get_dry : 0 as * mut sys :: godot_method_bind , get_hpf : 0 as * mut sys :: godot_method_bind , get_predelay_feedback : 0 as * mut sys :: godot_method_bind , get_predelay_msec : 0 as * mut sys :: godot_method_bind , get_room_size : 0 as * mut sys :: godot_method_bind , get_spread : 0 as * mut sys :: godot_method_bind , get_wet : 0 as * mut sys :: godot_method_bind , set_damping : 0 as * mut sys :: godot_method_bind , set_dry : 0 as * mut sys :: godot_method_bind , set_hpf : 0 as * mut sys :: godot_method_bind , set_predelay_feedback : 0 as * mut sys :: godot_method_bind , set_predelay_msec : 0 as * mut sys :: godot_method_bind , set_room_size : 0 as * mut sys :: godot_method_bind , set_spread : 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 (|| { AudioEffectReverbMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectReverb\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_damping = (gd_api . godot_method_bind_get_method) (class_name , "get_damping\0" . as_ptr () as * const c_char) ; table . get_dry = (gd_api . godot_method_bind_get_method) (class_name , "get_dry\0" . as_ptr () as * const c_char) ; table . get_hpf = (gd_api . godot_method_bind_get_method) (class_name , "get_hpf\0" . as_ptr () as * const c_char) ; table . get_predelay_feedback = (gd_api . godot_method_bind_get_method) (class_name , "get_predelay_feedback\0" . as_ptr () as * const c_char) ; table . get_predelay_msec = (gd_api . godot_method_bind_get_method) (class_name , "get_predelay_msec\0" . as_ptr () as * const c_char) ; table . get_room_size = (gd_api . godot_method_bind_get_method) (class_name , "get_room_size\0" . as_ptr () as * const c_char) ; table . get_spread = (gd_api . godot_method_bind_get_method) (class_name , "get_spread\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_damping = (gd_api . godot_method_bind_get_method) (class_name , "set_damping\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_hpf = (gd_api . godot_method_bind_get_method) (class_name , "set_hpf\0" . as_ptr () as * const c_char) ; table . set_predelay_feedback = (gd_api . godot_method_bind_get_method) (class_name , "set_predelay_feedback\0" . as_ptr () as * const c_char) ; table . set_predelay_msec = (gd_api . godot_method_bind_get_method) (class_name , "set_predelay_msec\0" . as_ptr () as * const c_char) ; table . set_room_size = (gd_api . godot_method_bind_get_method) (class_name , "set_room_size\0" . as_ptr () as * const c_char) ; table . set_spread = (gd_api . godot_method_bind_get_method) (class_name , "set_spread\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-60c8dbcfaf0f3dfc/out/generated.rs:394:9268 [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 = "`core class WebRTCPeerConnection` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_webrtcpeerconnection.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\nWebRTCPeerConnection 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 WebRTCPeerConnection { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ConnectionState (pub i64) ; impl ConnectionState { pub const NEW : ConnectionState = ConnectionState (0i64) ; pub const CONNECTING : ConnectionState = ConnectionState (1i64) ; pub const CONNECTED : ConnectionState = ConnectionState (2i64) ; pub const DISCONNECTED : ConnectionState = ConnectionState (3i64) ; pub const FAILED : ConnectionState = ConnectionState (4i64) ; pub const CLOSED : ConnectionState = ConnectionState (5i64) ; } impl From < i64 > for ConnectionState { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ConnectionState > for i64 { # [inline] fn from (v : ConnectionState) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl WebRTCPeerConnection { pub const STATE_CLOSED : i64 = 5i64 ; pub const STATE_CONNECTED : i64 = 2i64 ; pub const STATE_CONNECTING : i64 = 1i64 ; pub const STATE_DISCONNECTED : i64 = 3i64 ; pub const STATE_FAILED : i64 = 4i64 ; pub const STATE_NEW : i64 = 0i64 ; } impl WebRTCPeerConnection { # [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 = WebRTCPeerConnectionMethodTable :: 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_ice_candidate (& self , media : impl Into < GodotString > , index : i64 , name : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . add_ice_candidate ; let ret = crate :: icalls :: icallptr_i64_str_i64_str (method_bind , self . this . sys () . as_ptr () , media . into () , index , name . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn close (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . close ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn create_data_channel (& self , label : impl Into < GodotString > , options : Dictionary) -> Option < Ref < crate :: generated :: web_rtc_data_channel :: WebRTCDataChannel , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . create_data_channel ; let ret = crate :: icalls :: icallptr_obj_str_dict (method_bind , self . this . sys () . as_ptr () , label . into () , options) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: web_rtc_data_channel :: WebRTCDataChannel , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn create_offer (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . create_offer ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_connection_state (& self) -> crate :: generated :: web_rtc_peer_connection :: ConnectionState { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . get_connection_state ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: web_rtc_peer_connection :: ConnectionState (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn initialize (& self , configuration : Dictionary) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . initialize ; let ret = crate :: icalls :: icallptr_i64_dict (method_bind , self . this . sys () . as_ptr () , configuration) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn poll (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . poll ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_local_description (& self , _type : impl Into < GodotString > , sdp : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . set_local_description ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , _type . into () , sdp . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_remote_description (& self , _type : impl Into < GodotString > , sdp : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = WebRTCPeerConnectionMethodTable :: get (get_api ()) . set_remote_description ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , _type . into () , sdp . into ()) ; GodotError :: result_from_sys (ret as _) } } } impl gdnative_core :: private :: godot_object :: Sealed for WebRTCPeerConnection { } unsafe impl GodotObject for WebRTCPeerConnection { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "WebRTCPeerConnection" } } impl std :: ops :: Deref for WebRTCPeerConnection { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WebRTCPeerConnection { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for WebRTCPeerConnection { } unsafe impl SubClass < crate :: generated :: object :: Object > for WebRTCPeerConnection { } impl Instanciable for WebRTCPeerConnection { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { WebRTCPeerConnection :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WebRTCPeerConnectionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_ice_candidate : * mut sys :: godot_method_bind , pub close : * mut sys :: godot_method_bind , pub create_data_channel : * mut sys :: godot_method_bind , pub create_offer : * mut sys :: godot_method_bind , pub get_connection_state : * mut sys :: godot_method_bind , pub initialize : * mut sys :: godot_method_bind , pub poll : * mut sys :: godot_method_bind , pub set_local_description : * mut sys :: godot_method_bind , pub set_remote_description : * mut sys :: godot_method_bind } impl WebRTCPeerConnectionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WebRTCPeerConnectionMethodTable = WebRTCPeerConnectionMethodTable { class_constructor : None , add_ice_candidate : 0 as * mut sys :: godot_method_bind , close : 0 as * mut sys :: godot_method_bind , create_data_channel : 0 as * mut sys :: godot_method_bind , create_offer : 0 as * mut sys :: godot_method_bind , get_connection_state : 0 as * mut sys :: godot_method_bind , initialize : 0 as * mut sys :: godot_method_bind , poll : 0 as * mut sys :: godot_method_bind , set_local_description : 0 as * mut sys :: godot_method_bind , set_remote_description : 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 (|| { WebRTCPeerConnectionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WebRTCPeerConnection\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_ice_candidate = (gd_api . godot_method_bind_get_method) (class_name , "add_ice_candidate\0" . as_ptr () as * const c_char) ; table . close = (gd_api . godot_method_bind_get_method) (class_name , "close\0" . as_ptr () as * const c_char) ; table . create_data_channel = (gd_api . godot_method_bind_get_method) (class_name , "create_data_channel\0" . as_ptr () as * const c_char) ; table . create_offer = (gd_api . godot_method_bind_get_method) (class_name , "create_offer\0" . as_ptr () as * const c_char) ; table . get_connection_state = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_state\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 . poll = (gd_api . godot_method_bind_get_method) (class_name , "poll\0" . as_ptr () as * const c_char) ; table . set_local_description = (gd_api . godot_method_bind_get_method) (class_name , "set_local_description\0" . as_ptr () as * const c_char) ; table . set_remote_description = (gd_api . godot_method_bind_get_method) (class_name , "set_remote_description\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-60c8dbcfaf0f3dfc/out/generated.rs:400:11805 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:406:5646 [INFO] [stdout] | [INFO] [stdout] 406 | ... : 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] 406 | # [doc = "`core class GridContainer` inherits `Container` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_gridcontainer.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`GridContainer` 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\nGridContainer 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 GridContainer { this : RawObject < Self > , } impl GridContainer { # [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 = GridContainerMethodTable :: 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 number of columns in the [GridContainer]. If modified, [GridContainer] reorders its Control-derived children to accommodate the new layout."] # [doc = ""] # [inline] pub fn columns (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridContainerMethodTable :: get (get_api ()) . get_columns ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The number of columns in the [GridContainer]. If modified, [GridContainer] reorders its Control-derived children to accommodate the new layout."] # [doc = ""] # [inline] pub fn set_columns (& self , columns : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridContainerMethodTable :: get (get_api ()) . set_columns ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , columns) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for GridContainer { } unsafe impl GodotObject for GridContainer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "GridContainer" } } impl QueueFree for GridContainer { # [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 GridContainer { type Target = crate :: generated :: container :: Container ; # [inline] fn deref (& self) -> & crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GridContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: container :: Container > for GridContainer { } unsafe impl SubClass < crate :: generated :: control :: Control > for GridContainer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for GridContainer { } unsafe impl SubClass < crate :: generated :: node :: Node > for GridContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for GridContainer { } impl Instanciable for GridContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GridContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GridContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_columns : * mut sys :: godot_method_bind , pub set_columns : * mut sys :: godot_method_bind } impl GridContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GridContainerMethodTable = GridContainerMethodTable { class_constructor : None , get_columns : 0 as * mut sys :: godot_method_bind , set_columns : 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 (|| { GridContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GridContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_columns = (gd_api . godot_method_bind_get_method) (class_name , "get_columns\0" . as_ptr () as * const c_char) ; table . set_columns = (gd_api . godot_method_bind_get_method) (class_name , "set_columns\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-60c8dbcfaf0f3dfc/out/generated.rs:412:9738 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:418:5128 [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 SegmentShape2D` inherits `Shape2D` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_segmentshape2d.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\nSegmentShape2D inherits methods from:\n - [Shape2D](struct.Shape2D.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 SegmentShape2D { this : RawObject < Self > , } impl SegmentShape2D { # [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 = SegmentShape2DMethodTable :: 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 segment's first point position."] # [doc = ""] # [inline] pub fn a (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = SegmentShape2DMethodTable :: get (get_api ()) . get_a ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The segment's second point position."] # [doc = ""] # [inline] pub fn b (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = SegmentShape2DMethodTable :: get (get_api ()) . get_b ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The segment's first point position."] # [doc = ""] # [inline] pub fn set_a (& self , a : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SegmentShape2DMethodTable :: get (get_api ()) . set_a ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , a) ; } } # [doc = "The segment's second point position."] # [doc = ""] # [inline] pub fn set_b (& self , b : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SegmentShape2DMethodTable :: get (get_api ()) . set_b ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , b) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SegmentShape2D { } unsafe impl GodotObject for SegmentShape2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "SegmentShape2D" } } impl std :: ops :: Deref for SegmentShape2D { type Target = crate :: generated :: shape_2d :: Shape2D ; # [inline] fn deref (& self) -> & crate :: generated :: shape_2d :: Shape2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SegmentShape2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape_2d :: Shape2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape_2d :: Shape2D > for SegmentShape2D { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for SegmentShape2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for SegmentShape2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for SegmentShape2D { } impl Instanciable for SegmentShape2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SegmentShape2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SegmentShape2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_a : * mut sys :: godot_method_bind , pub get_b : * mut sys :: godot_method_bind , pub set_a : * mut sys :: godot_method_bind , pub set_b : * mut sys :: godot_method_bind } impl SegmentShape2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SegmentShape2DMethodTable = SegmentShape2DMethodTable { class_constructor : None , get_a : 0 as * mut sys :: godot_method_bind , get_b : 0 as * mut sys :: godot_method_bind , set_a : 0 as * mut sys :: godot_method_bind , set_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 (|| { SegmentShape2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SegmentShape2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_a = (gd_api . godot_method_bind_get_method) (class_name , "get_a\0" . as_ptr () as * const c_char) ; table . get_b = (gd_api . godot_method_bind_get_method) (class_name , "get_b\0" . as_ptr () as * const c_char) ; table . set_a = (gd_api . godot_method_bind_get_method) (class_name , "set_a\0" . as_ptr () as * const c_char) ; table . set_b = (gd_api . godot_method_bind_get_method) (class_name , "set_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-60c8dbcfaf0f3dfc/out/generated.rs:424:11978 [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 SpriteFrames` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_spriteframes.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\nSpriteFrames 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 SpriteFrames { this : RawObject < Self > , } impl SpriteFrames { # [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 = SpriteFramesMethodTable :: 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 new animation to the library."] # [doc = ""] # [inline] pub fn add_animation (& self , anim : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . add_animation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; } } # [doc = "Adds a frame to the given animation.\n# Default Arguments\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_frame (& self , anim : impl Into < GodotString > , frame : impl AsArg < crate :: generated :: texture :: Texture > , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . add_frame ; let ret = crate :: icalls :: icallptr_void_str_obj_i64 (method_bind , self . this . sys () . as_ptr () , anim . into () , frame . as_arg_ptr () , at_position) ; } } # [doc = "Removes all frames from the given animation."] # [doc = ""] # [inline] pub fn clear (& self , anim : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; } } # [doc = "Removes all animations. A \"default\" animation will be created."] # [doc = ""] # [inline] pub fn clear_all (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . clear_all ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, the given animation will loop."] # [doc = ""] # [inline] pub fn get_animation_loop (& self , anim : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . get_animation_loop ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; ret as _ } } # [doc = "Returns an array containing the names associated to each animation. Values are placed in alphabetical order."] # [doc = ""] # [inline] pub fn get_animation_names (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . get_animation_names ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "The animation's speed in frames per second."] # [doc = ""] # [inline] pub fn get_animation_speed (& self , anim : impl Into < GodotString >) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . get_animation_speed ; let ret = crate :: icalls :: icallptr_f64_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; ret as _ } } # [doc = "Returns the animation's selected frame."] # [doc = ""] # [inline] pub fn get_frame (& self , anim : impl Into < GodotString > , idx : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . get_frame ; let ret = crate :: icalls :: icallptr_obj_str_i64 (method_bind , self . this . sys () . as_ptr () , anim . into () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of frames in the animation."] # [doc = ""] # [inline] pub fn get_frame_count (& self , anim : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . get_frame_count ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; ret as _ } } # [doc = "If `true`, the named animation exists."] # [doc = ""] # [inline] pub fn has_animation (& self , anim : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . has_animation ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; ret as _ } } # [doc = "Removes the given animation."] # [doc = ""] # [inline] pub fn remove_animation (& self , anim : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . remove_animation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , anim . into ()) ; } } # [doc = "Removes the animation's selected frame."] # [doc = ""] # [inline] pub fn remove_frame (& self , anim : impl Into < GodotString > , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . remove_frame ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , anim . into () , idx) ; } } # [doc = "Changes the animation's name to `newname`."] # [doc = ""] # [inline] pub fn rename_animation (& self , anim : impl Into < GodotString > , newname : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . rename_animation ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , anim . into () , newname . into ()) ; } } # [doc = "If `true`, the animation will loop."] # [doc = ""] # [inline] pub fn set_animation_loop (& self , anim : impl Into < GodotString > , _loop : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . set_animation_loop ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , anim . into () , _loop) ; } } # [doc = "The animation's speed in frames per second."] # [doc = ""] # [inline] pub fn set_animation_speed (& self , anim : impl Into < GodotString > , speed : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . set_animation_speed ; let ret = crate :: icalls :: icallptr_void_str_f64 (method_bind , self . this . sys () . as_ptr () , anim . into () , speed) ; } } # [doc = "Sets the texture of the given frame."] # [doc = ""] # [inline] pub fn set_frame (& self , anim : impl Into < GodotString > , idx : i64 , txt : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteFramesMethodTable :: get (get_api ()) . set_frame ; let ret = crate :: icalls :: icallptr_void_str_i64_obj (method_bind , self . this . sys () . as_ptr () , anim . into () , idx , txt . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SpriteFrames { } unsafe impl GodotObject for SpriteFrames { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "SpriteFrames" } } impl std :: ops :: Deref for SpriteFrames { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SpriteFrames { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for SpriteFrames { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for SpriteFrames { } unsafe impl SubClass < crate :: generated :: object :: Object > for SpriteFrames { } impl Instanciable for SpriteFrames { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SpriteFrames :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SpriteFramesMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_animation : * mut sys :: godot_method_bind , pub add_frame : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub clear_all : * mut sys :: godot_method_bind , pub get_animation_loop : * mut sys :: godot_method_bind , pub get_animation_names : * mut sys :: godot_method_bind , pub get_animation_speed : * mut sys :: godot_method_bind , pub get_frame : * mut sys :: godot_method_bind , pub get_frame_count : * mut sys :: godot_method_bind , pub has_animation : * mut sys :: godot_method_bind , pub remove_animation : * mut sys :: godot_method_bind , pub remove_frame : * mut sys :: godot_method_bind , pub rename_animation : * mut sys :: godot_method_bind , pub set_animation_loop : * mut sys :: godot_method_bind , pub set_animation_speed : * mut sys :: godot_method_bind , pub set_frame : * mut sys :: godot_method_bind } impl SpriteFramesMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SpriteFramesMethodTable = SpriteFramesMethodTable { class_constructor : None , add_animation : 0 as * mut sys :: godot_method_bind , add_frame : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , clear_all : 0 as * mut sys :: godot_method_bind , get_animation_loop : 0 as * mut sys :: godot_method_bind , get_animation_names : 0 as * mut sys :: godot_method_bind , get_animation_speed : 0 as * mut sys :: godot_method_bind , get_frame : 0 as * mut sys :: godot_method_bind , get_frame_count : 0 as * mut sys :: godot_method_bind , has_animation : 0 as * mut sys :: godot_method_bind , remove_animation : 0 as * mut sys :: godot_method_bind , remove_frame : 0 as * mut sys :: godot_method_bind , rename_animation : 0 as * mut sys :: godot_method_bind , set_animation_loop : 0 as * mut sys :: godot_method_bind , set_animation_speed : 0 as * mut sys :: godot_method_bind , set_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 (|| { SpriteFramesMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SpriteFrames\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_animation = (gd_api . godot_method_bind_get_method) (class_name , "add_animation\0" . as_ptr () as * const c_char) ; table . add_frame = (gd_api . godot_method_bind_get_method) (class_name , "add_frame\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 . clear_all = (gd_api . godot_method_bind_get_method) (class_name , "clear_all\0" . as_ptr () as * const c_char) ; table . get_animation_loop = (gd_api . godot_method_bind_get_method) (class_name , "get_animation_loop\0" . as_ptr () as * const c_char) ; table . get_animation_names = (gd_api . godot_method_bind_get_method) (class_name , "get_animation_names\0" . as_ptr () as * const c_char) ; table . get_animation_speed = (gd_api . godot_method_bind_get_method) (class_name , "get_animation_speed\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_frame_count = (gd_api . godot_method_bind_get_method) (class_name , "get_frame_count\0" . as_ptr () as * const c_char) ; table . has_animation = (gd_api . godot_method_bind_get_method) (class_name , "has_animation\0" . as_ptr () as * const c_char) ; table . remove_animation = (gd_api . godot_method_bind_get_method) (class_name , "remove_animation\0" . as_ptr () as * const c_char) ; table . remove_frame = (gd_api . godot_method_bind_get_method) (class_name , "remove_frame\0" . as_ptr () as * const c_char) ; table . rename_animation = (gd_api . godot_method_bind_get_method) (class_name , "rename_animation\0" . as_ptr () as * const c_char) ; table . set_animation_loop = (gd_api . godot_method_bind_get_method) (class_name , "set_animation_loop\0" . as_ptr () as * const c_char) ; table . set_animation_speed = (gd_api . godot_method_bind_get_method) (class_name , "set_animation_speed\0" . as_ptr () as * const c_char) ; table . set_frame = (gd_api . godot_method_bind_get_method) (class_name , "set_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-60c8dbcfaf0f3dfc/out/generated.rs:430:4084 [INFO] [stdout] | [INFO] [stdout] 430 | ...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] 430 | # [doc = "`core class VisualShaderNodeScalarUniform` inherits `VisualShaderNodeUniform` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodescalaruniform.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\nVisualShaderNodeScalarUniform inherits methods from:\n - [VisualShaderNodeUniform](struct.VisualShaderNodeUniform.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 VisualShaderNodeScalarUniform { this : RawObject < Self > , } impl VisualShaderNodeScalarUniform { # [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 = VisualShaderNodeScalarUniformMethodTable :: 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 VisualShaderNodeScalarUniform { } unsafe impl GodotObject for VisualShaderNodeScalarUniform { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeScalarUniform" } } impl std :: ops :: Deref for VisualShaderNodeScalarUniform { type Target = crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeScalarUniform { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform > for VisualShaderNodeScalarUniform { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeScalarUniform { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeScalarUniform { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeScalarUniform { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeScalarUniform { } impl Instanciable for VisualShaderNodeScalarUniform { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeScalarUniform :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeScalarUniformMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeScalarUniformMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeScalarUniformMethodTable = VisualShaderNodeScalarUniformMethodTable { 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 (|| { VisualShaderNodeScalarUniformMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeScalarUniform\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-60c8dbcfaf0f3dfc/out/generated.rs:436:7787 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:442:7376 [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 AudioEffectSpectrumAnalyzer` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectspectrumanalyzer.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\nAudioEffectSpectrumAnalyzer 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 AudioEffectSpectrumAnalyzer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct FftSize (pub i64) ; impl FftSize { pub const _256 : FftSize = FftSize (0i64) ; pub const _512 : FftSize = FftSize (1i64) ; pub const _1024 : FftSize = FftSize (2i64) ; pub const _2048 : FftSize = FftSize (3i64) ; pub const _4096 : FftSize = FftSize (4i64) ; pub const MAX : FftSize = FftSize (5i64) ; } impl From < i64 > for FftSize { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < FftSize > for i64 { # [inline] fn from (v : FftSize) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AudioEffectSpectrumAnalyzer { pub const FFT_SIZE_1024 : i64 = 2i64 ; pub const FFT_SIZE_2048 : i64 = 3i64 ; pub const FFT_SIZE_256 : i64 = 0i64 ; pub const FFT_SIZE_4096 : i64 = 4i64 ; pub const FFT_SIZE_512 : i64 = 1i64 ; pub const FFT_SIZE_MAX : i64 = 5i64 ; } impl AudioEffectSpectrumAnalyzer { # [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 = AudioEffectSpectrumAnalyzerMethodTable :: 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 buffer_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectSpectrumAnalyzerMethodTable :: 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 fft_size (& self) -> crate :: generated :: audio_effect_spectrum_analyzer :: FftSize { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectSpectrumAnalyzerMethodTable :: get (get_api ()) . get_fft_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: audio_effect_spectrum_analyzer :: FftSize (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn tap_back_pos (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectSpectrumAnalyzerMethodTable :: get (get_api ()) . get_tap_back_pos ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_buffer_length (& self , seconds : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectSpectrumAnalyzerMethodTable :: get (get_api ()) . set_buffer_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , seconds) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_fft_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectSpectrumAnalyzerMethodTable :: get (get_api ()) . set_fft_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_tap_back_pos (& self , seconds : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectSpectrumAnalyzerMethodTable :: get (get_api ()) . set_tap_back_pos ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , seconds) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectSpectrumAnalyzer { } unsafe impl GodotObject for AudioEffectSpectrumAnalyzer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectSpectrumAnalyzer" } } impl std :: ops :: Deref for AudioEffectSpectrumAnalyzer { 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 AudioEffectSpectrumAnalyzer { # [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 AudioEffectSpectrumAnalyzer { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectSpectrumAnalyzer { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectSpectrumAnalyzer { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectSpectrumAnalyzer { } impl Instanciable for AudioEffectSpectrumAnalyzer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectSpectrumAnalyzer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectSpectrumAnalyzerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_buffer_length : * mut sys :: godot_method_bind , pub get_fft_size : * mut sys :: godot_method_bind , pub get_tap_back_pos : * mut sys :: godot_method_bind , pub set_buffer_length : * mut sys :: godot_method_bind , pub set_fft_size : * mut sys :: godot_method_bind , pub set_tap_back_pos : * mut sys :: godot_method_bind } impl AudioEffectSpectrumAnalyzerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectSpectrumAnalyzerMethodTable = AudioEffectSpectrumAnalyzerMethodTable { class_constructor : None , get_buffer_length : 0 as * mut sys :: godot_method_bind , get_fft_size : 0 as * mut sys :: godot_method_bind , get_tap_back_pos : 0 as * mut sys :: godot_method_bind , set_buffer_length : 0 as * mut sys :: godot_method_bind , set_fft_size : 0 as * mut sys :: godot_method_bind , set_tap_back_pos : 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 (|| { AudioEffectSpectrumAnalyzerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectSpectrumAnalyzer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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_fft_size = (gd_api . godot_method_bind_get_method) (class_name , "get_fft_size\0" . as_ptr () as * const c_char) ; table . get_tap_back_pos = (gd_api . godot_method_bind_get_method) (class_name , "get_tap_back_pos\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) ; table . set_fft_size = (gd_api . godot_method_bind_get_method) (class_name , "set_fft_size\0" . as_ptr () as * const c_char) ; table . set_tap_back_pos = (gd_api . godot_method_bind_get_method) (class_name , "set_tap_back_pos\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-60c8dbcfaf0f3dfc/out/generated.rs:448:40845 [INFO] [stdout] | [INFO] [stdout] 448 | ... : 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] 448 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:454:33105 [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 = "The base class of most Godot classes."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_object.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`Object` 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 = ""] # [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 Object { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ConnectFlags (pub i64) ; impl ConnectFlags { pub const DEFERRED : ConnectFlags = ConnectFlags (1i64) ; pub const PERSIST : ConnectFlags = ConnectFlags (2i64) ; pub const ONESHOT : ConnectFlags = ConnectFlags (4i64) ; pub const REFERENCE_COUNTED : ConnectFlags = ConnectFlags (8i64) ; } impl From < i64 > for ConnectFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ConnectFlags > for i64 { # [inline] fn from (v : ConnectFlags) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Object { pub const CONNECT_DEFERRED : i64 = 1i64 ; pub const CONNECT_ONESHOT : i64 = 4i64 ; pub const CONNECT_PERSIST : i64 = 2i64 ; pub const CONNECT_REFERENCE_COUNTED : i64 = 8i64 ; pub const NOTIFICATION_POSTINITIALIZE : i64 = 0i64 ; pub const NOTIFICATION_PREDELETE : i64 = 1i64 ; } impl Object { # [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 = ObjectMethodTable :: 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 user-defined `signal`. Arguments are optional, but can be added as an [Array] of dictionaries, each containing `name: String` and `type: int` (see [enum Variant.Type]) entries.\n# Default Arguments\n* `arguments` - `[ ]`"] # [doc = ""] # [inline] pub fn add_user_signal (& self , signal : impl Into < GodotString > , arguments : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . add_user_signal ; let ret = crate :: icalls :: icallptr_void_str_arr (method_bind , self . this . sys () . as_ptr () , signal . into () , arguments) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nCalls the `method` on the object and returns the result. This method supports a variable number of arguments, so parameters are passed as a comma separated list. Example:\n```gdscript\ncall(\"set\", \"position\", Vector2(42.0, 0.0))\n```\n**Note:** In C#, the method name must be specified as snake_case if it is defined by a built-in Godot node. This doesn't apply to user-defined methods where you should use the same convention as in the C# source (typically PascalCase)."] # [doc = "\n# Safety\nThis function bypasses Rust's static type checks (aliasing, thread boundaries, calls to free(), ...)."] # [inline] pub unsafe fn call (& self , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . call ; let ret = crate :: icalls :: icallvarargs__str (method_bind , self . this . sys () . as_ptr () , method . into () , varargs) ; ret } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nCalls the `method` on the object during idle time. This method supports a variable number of arguments, so parameters are passed as a comma separated list. Example:\n```gdscript\ncall_deferred(\"set\", \"position\", Vector2(42.0, 0.0))\n```\n**Note:** In C#, the method name must be specified as snake_case if it is defined by a built-in Godot node. This doesn't apply to user-defined methods where you should use the same convention as in the C# source (typically PascalCase)."] # [doc = "\n# Safety\nThis function bypasses Rust's static type checks (aliasing, thread boundaries, calls to free(), ...)."] # [inline] pub unsafe fn call_deferred (& self , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . call_deferred ; let ret = crate :: icalls :: icallvarargs__str (method_bind , self . this . sys () . as_ptr () , method . into () , varargs) ; ret } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nCalls the `method` on the object and returns the result. Contrarily to [method call], this method does not support a variable number of arguments but expects all parameters to be via a single [Array].\n```gdscript\ncallv(\"set\", [ \"position\", Vector2(42.0, 0.0) ])\n```"] # [doc = "\n# Safety\nThis function bypasses Rust's static type checks (aliasing, thread boundaries, calls to free(), ...)."] # [inline] pub unsafe fn callv (& self , method : impl Into < GodotString > , arg_array : VariantArray) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . callv ; let ret = crate :: icalls :: icallptr_var_str_arr (method_bind , self . this . sys () . as_ptr () , method . into () , arg_array) ; Variant :: from_sys (ret) } } # [doc = "Returns `true` if the object can translate strings. See [method set_message_translation] and [method tr]."] # [doc = ""] # [inline] pub fn can_translate_messages (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . can_translate_messages ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nConnects a `signal` to a `method` on a `target` object. Pass optional `binds` to the call as an [Array] of parameters. These parameters will be passed to the method after any parameter used in the call to [method emit_signal]. Use `flags` to set deferred or one-shot connections. See [enum ConnectFlags] constants.\nA `signal` can only be connected once to a `method`. It will throw an error if already connected, unless the signal was connected with [constant CONNECT_REFERENCE_COUNTED]. To avoid this, first, use [method is_connected] to check for existing connections.\nIf the `target` is destroyed in the game's lifecycle, the connection will be lost.\nExamples:\n```gdscript\nconnect(\"pressed\", self, \"_on_Button_pressed\") # BaseButton signal\nconnect(\"text_entered\", self, \"_on_LineEdit_text_entered\") # LineEdit signal\nconnect(\"hit\", self, \"_on_Player_hit\", [ weapon_type, damage ]) # User-defined signal\n```\nAn example of the relationship between `binds` passed to [method connect] and parameters used when calling [method emit_signal]:\n```gdscript\nconnect(\"hit\", self, \"_on_Player_hit\", [ weapon_type, damage ]) # weapon_type and damage are passed last\nemit_signal(\"hit\", \"Dark lord\", 5) # \"Dark lord\" and 5 are passed first\nfunc _on_Player_hit(hit_by, level, weapon_type, damage):\n print(\"Hit by %s (lvl %d) with weapon %s for %d damage\" % [hit_by, level, weapon_type, damage])\n```\n# Default Arguments\n* `binds` - `[ ]`\n* `flags` - `0`"] # [doc = ""] # [inline] pub fn connect (& self , signal : impl Into < GodotString > , target : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString > , binds : VariantArray , flags : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . connect ; let ret = crate :: icalls :: icallptr_i64_str_obj_str_arr_i64 (method_bind , self . this . sys () . as_ptr () , signal . into () , target . as_arg_ptr () , method . into () , binds , flags) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Disconnects a `signal` from a `method` on the given `target`.\nIf you try to disconnect a connection that does not exist, the method will throw an error. Use [method is_connected] to ensure that the connection exists."] # [doc = ""] # [inline] pub fn disconnect (& self , signal : impl Into < GodotString > , target : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . disconnect ; let ret = crate :: icalls :: icallptr_void_str_obj_str (method_bind , self . this . sys () . as_ptr () , signal . into () , target . as_arg_ptr () , method . into ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nEmits the given `signal`. The signal must exist, so it should be a built-in signal of this class or one of its parent classes, or a user-defined signal. This method supports a variable number of arguments, so parameters are passed as a comma separated list. Example:\n```gdscript\nemit_signal(\"hit\", weapon_type, damage)\nemit_signal(\"game_over\")\n```"] # [doc = ""] # [inline] pub fn emit_signal (& self , signal : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . emit_signal ; let ret = crate :: icalls :: icallvarargs__str (method_bind , self . this . sys () . as_ptr () , signal . into () , varargs) ; ret } } # [doc = "Returns the [Variant] value of the given `property`. If the `property` doesn't exist, this will return `null`.\n**Note:** In C#, the property name must be specified as snake_case if it is defined by a built-in Godot node. This doesn't apply to user-defined properties where you should use the same convention as in the C# source (typically PascalCase)."] # [doc = ""] # [inline] pub fn get (& self , property : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , property . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the object's class as a [String]."] # [doc = ""] # [inline] pub fn get_class (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_class ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns an [Array] of dictionaries with information about signals that are connected to the object.\nEach [Dictionary] contains three String entries:\n- `source` is a reference to the signal emitter.\n- `signal_name` is the name of the connected signal.\n- `method_name` is the name of the method to which the signal is connected."] # [doc = ""] # [inline] pub fn get_incoming_connections (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_incoming_connections ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Gets the object's property indexed by the given [NodePath]. The node path should be relative to the current object and can use the colon character (`:`) to access nested properties. Examples: `\"position:x\"` or `\"material:next_pass:blend_mode\"`."] # [doc = ""] # [inline] pub fn get_indexed (& self , property : impl Into < NodePath >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_indexed ; let ret = crate :: icalls :: icallptr_var_nodepath (method_bind , self . this . sys () . as_ptr () , property . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the object's unique instance ID.\nThis ID can be saved in [EncodedObjectAsID], and can be used to retrieve the object instance with [method @GDScript.instance_from_id]."] # [doc = ""] # [inline] pub fn get_instance_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_instance_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the object's metadata entry for the given `name`."] # [doc = ""] # [inline] pub fn get_meta (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_meta ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the object's metadata as a [PoolStringArray]."] # [doc = ""] # [inline] pub fn get_meta_list (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_meta_list ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the object's methods and their signatures as an [Array]."] # [doc = ""] # [inline] pub fn get_method_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_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 object's property list as an [Array] of dictionaries.\nEach property's [Dictionary] contain at least `name: String` and `type: int` (see [enum Variant.Type]) entries. Optionally, it can also include `hint: int` (see [enum PropertyHint]), `hint_string: String`, and `usage: int` (see [enum PropertyUsageFlags])."] # [doc = ""] # [inline] pub fn get_property_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_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 object's [Script] instance, or `null` if none is assigned."] # [doc = ""] # [inline] pub fn get_script (& self) -> Option < Ref < crate :: generated :: reference :: Reference , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_script ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: reference :: Reference , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns an [Array] of connections for the given `signal`."] # [doc = ""] # [inline] pub fn get_signal_connection_list (& self , signal : impl Into < GodotString >) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_signal_connection_list ; let ret = crate :: icalls :: icallvar__str (method_bind , self . this . sys () . as_ptr () , signal . into ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the list of signals as an [Array] of dictionaries."] # [doc = ""] # [inline] pub fn get_signal_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . get_signal_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns `true` if a metadata entry is found with the given `name`."] # [doc = ""] # [inline] pub fn has_meta (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . has_meta ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if the object contains the given `method`."] # [doc = ""] # [inline] pub fn has_method (& self , method : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . has_method ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , method . into ()) ; ret as _ } } # [doc = "Returns `true` if the given `signal` exists."] # [doc = ""] # [inline] pub fn has_signal (& self , signal : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . has_signal ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , signal . into ()) ; ret as _ } } # [doc = "Returns `true` if the given user-defined `signal` exists. Only signals added using [method add_user_signal] are taken into account."] # [doc = ""] # [inline] pub fn has_user_signal (& self , signal : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . has_user_signal ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , signal . into ()) ; ret as _ } } # [doc = "Returns `true` if signal emission blocking is enabled."] # [doc = ""] # [inline] pub fn is_blocking_signals (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . is_blocking_signals ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the object inherits from the given `class`."] # [doc = ""] # [inline] pub fn is_class (& self , class : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . is_class ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , class . into ()) ; ret as _ } } # [doc = "Returns `true` if a connection exists for a given `signal`, `target`, and `method`."] # [doc = ""] # [inline] pub fn is_connected (& self , signal : impl Into < GodotString > , target : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . is_connected ; let ret = crate :: icalls :: icallptr_bool_str_obj_str (method_bind , self . this . sys () . as_ptr () , signal . into () , target . as_arg_ptr () , method . into ()) ; ret as _ } } # [doc = "Returns `true` if the [method Node.queue_free] method was called for the object."] # [doc = ""] # [inline] pub fn is_queued_for_deletion (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . is_queued_for_deletion ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Send a given notification to the object, which will also trigger a call to the [method _notification] method of all classes that the object inherits from.\nIf `reversed` is `true`, [method _notification] is called first on the object's own class, and then up to its successive parent classes. If `reversed` is `false`, [method _notification] is called first on the highest ancestor ([Object] itself), and then down to its successive inheriting classes.\n# Default Arguments\n* `reversed` - `false`"] # [doc = ""] # [inline] pub fn notification (& self , what : i64 , reversed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . notification ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , what , reversed) ; } } # [doc = "Notify the editor that the property list has changed, so that editor plugins can take the new values into account. Does nothing on export builds."] # [doc = ""] # [inline] pub fn property_list_changed_notify (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . property_list_changed_notify ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes a given entry from the object's metadata. See also [method set_meta]."] # [doc = ""] # [inline] pub fn remove_meta (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . remove_meta ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Assigns a new value to the given property. If the `property` does not exist, nothing will happen.\n**Note:** In C#, the property name must be specified as snake_case if it is defined by a built-in Godot node. This doesn't apply to user-defined properties where you should use the same convention as in the C# source (typically PascalCase)."] # [doc = ""] # [inline] pub fn set (& self , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . set ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , property . into () , value . owned_to_variant ()) ; } } # [doc = "If set to `true`, signal emission is blocked."] # [doc = ""] # [inline] pub fn set_block_signals (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . set_block_signals ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Assigns a new value to the given property, after the current frame's physics step. This is equivalent to calling [method set] via [method call_deferred], i.e. `call_deferred(\"set\", property, value)`.\n**Note:** In C#, the property name must be specified as snake_case if it is defined by a built-in Godot node. This doesn't apply to user-defined properties where you should use the same convention as in the C# source (typically PascalCase)."] # [doc = ""] # [inline] pub fn set_deferred (& self , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . set_deferred ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , property . into () , value . owned_to_variant ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nAssigns a new value to the property identified by the [NodePath]. The node path should be relative to the current object and can use the colon character (`:`) to access nested properties. Example:\n```gdscript\nset_indexed(\"position\", Vector2(42, 0))\nset_indexed(\"position:y\", -10)\nprint(position) # (42, -10)\n```"] # [doc = ""] # [inline] pub fn set_indexed (& self , property : impl Into < NodePath > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . set_indexed ; let ret = crate :: icalls :: icallptr_void_nodepath_var (method_bind , self . this . sys () . as_ptr () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Defines whether the object can translate strings (with calls to [method tr]). Enabled by default."] # [doc = ""] # [inline] pub fn set_message_translation (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . set_message_translation ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Adds, changes or removes a given entry in the object's metadata. Metadata are serialized and can take any [Variant] value.\nTo remove a given entry from the object's metadata, use [method remove_meta]. Metadata is also removed if its value is set to `null`. This means you can also use `set_meta(\"name\", null)` to remove metadata for `\"name\"`."] # [doc = ""] # [inline] pub fn set_meta (& self , name : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . set_meta ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , name . into () , value . owned_to_variant ()) ; } } # [doc = "Assigns a script to the object. Each object can have a single script assigned to it, which are used to extend its functionality.\nIf the object already had a script, the previous script instance will be freed and its variables and state will be lost. The new script's [method _init] method will be called."] # [doc = ""] # [inline] pub fn set_script (& self , script : impl AsArg < crate :: generated :: reference :: Reference >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . set_script ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , script . as_arg_ptr ()) ; } } # [doc = "Returns a [String] representing the object. If not overridden, defaults to `\"[ClassName:RID]\"`.\nOverride the method [method _to_string] to customize the [String] representation."] # [doc = ""] # [inline] pub fn to_string (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . to_string ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Translates a message using translation catalogs configured in the Project Settings.\nOnly works if message translation is enabled (which it is by default), otherwise it returns the `message` unchanged. See [method set_message_translation]."] # [doc = ""] # [inline] pub fn tr (& self , message : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ObjectMethodTable :: get (get_api ()) . tr ; 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 Object { } unsafe impl GodotObject for Object { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Object" } } impl Instanciable for Object { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Object :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ObjectMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_user_signal : * mut sys :: godot_method_bind , pub call : * mut sys :: godot_method_bind , pub call_deferred : * mut sys :: godot_method_bind , pub callv : * mut sys :: godot_method_bind , pub can_translate_messages : * mut sys :: godot_method_bind , pub connect : * mut sys :: godot_method_bind , pub disconnect : * mut sys :: godot_method_bind , pub emit_signal : * mut sys :: godot_method_bind , pub get : * mut sys :: godot_method_bind , pub get_class : * mut sys :: godot_method_bind , pub get_incoming_connections : * mut sys :: godot_method_bind , pub get_indexed : * mut sys :: godot_method_bind , pub get_instance_id : * mut sys :: godot_method_bind , pub get_meta : * mut sys :: godot_method_bind , pub get_meta_list : * mut sys :: godot_method_bind , pub get_method_list : * mut sys :: godot_method_bind , pub get_property_list : * mut sys :: godot_method_bind , pub get_script : * mut sys :: godot_method_bind , pub get_signal_connection_list : * mut sys :: godot_method_bind , pub get_signal_list : * mut sys :: godot_method_bind , pub has_meta : * mut sys :: godot_method_bind , pub has_method : * mut sys :: godot_method_bind , pub has_signal : * mut sys :: godot_method_bind , pub has_user_signal : * mut sys :: godot_method_bind , pub is_blocking_signals : * mut sys :: godot_method_bind , pub is_class : * mut sys :: godot_method_bind , pub is_connected : * mut sys :: godot_method_bind , pub is_queued_for_deletion : * mut sys :: godot_method_bind , pub notification : * mut sys :: godot_method_bind , pub property_list_changed_notify : * mut sys :: godot_method_bind , pub remove_meta : * mut sys :: godot_method_bind , pub set : * mut sys :: godot_method_bind , pub set_block_signals : * mut sys :: godot_method_bind , pub set_deferred : * mut sys :: godot_method_bind , pub set_indexed : * mut sys :: godot_method_bind , pub set_message_translation : * mut sys :: godot_method_bind , pub set_meta : * mut sys :: godot_method_bind , pub set_script : * mut sys :: godot_method_bind , pub to_string : * mut sys :: godot_method_bind , pub tr : * mut sys :: godot_method_bind } impl ObjectMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ObjectMethodTable = ObjectMethodTable { class_constructor : None , add_user_signal : 0 as * mut sys :: godot_method_bind , call : 0 as * mut sys :: godot_method_bind , call_deferred : 0 as * mut sys :: godot_method_bind , callv : 0 as * mut sys :: godot_method_bind , can_translate_messages : 0 as * mut sys :: godot_method_bind , connect : 0 as * mut sys :: godot_method_bind , disconnect : 0 as * mut sys :: godot_method_bind , emit_signal : 0 as * mut sys :: godot_method_bind , get : 0 as * mut sys :: godot_method_bind , get_class : 0 as * mut sys :: godot_method_bind , get_incoming_connections : 0 as * mut sys :: godot_method_bind , get_indexed : 0 as * mut sys :: godot_method_bind , get_instance_id : 0 as * mut sys :: godot_method_bind , get_meta : 0 as * mut sys :: godot_method_bind , get_meta_list : 0 as * mut sys :: godot_method_bind , get_method_list : 0 as * mut sys :: godot_method_bind , get_property_list : 0 as * mut sys :: godot_method_bind , get_script : 0 as * mut sys :: godot_method_bind , get_signal_connection_list : 0 as * mut sys :: godot_method_bind , get_signal_list : 0 as * mut sys :: godot_method_bind , has_meta : 0 as * mut sys :: godot_method_bind , has_method : 0 as * mut sys :: godot_method_bind , has_signal : 0 as * mut sys :: godot_method_bind , has_user_signal : 0 as * mut sys :: godot_method_bind , is_blocking_signals : 0 as * mut sys :: godot_method_bind , is_class : 0 as * mut sys :: godot_method_bind , is_connected : 0 as * mut sys :: godot_method_bind , is_queued_for_deletion : 0 as * mut sys :: godot_method_bind , notification : 0 as * mut sys :: godot_method_bind , property_list_changed_notify : 0 as * mut sys :: godot_method_bind , remove_meta : 0 as * mut sys :: godot_method_bind , set : 0 as * mut sys :: godot_method_bind , set_block_signals : 0 as * mut sys :: godot_method_bind , set_deferred : 0 as * mut sys :: godot_method_bind , set_indexed : 0 as * mut sys :: godot_method_bind , set_message_translation : 0 as * mut sys :: godot_method_bind , set_meta : 0 as * mut sys :: godot_method_bind , set_script : 0 as * mut sys :: godot_method_bind , to_string : 0 as * mut sys :: godot_method_bind , tr : 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 (|| { ObjectMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Object\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_user_signal = (gd_api . godot_method_bind_get_method) (class_name , "add_user_signal\0" . as_ptr () as * const c_char) ; table . call = (gd_api . godot_method_bind_get_method) (class_name , "call\0" . as_ptr () as * const c_char) ; table . call_deferred = (gd_api . godot_method_bind_get_method) (class_name , "call_deferred\0" . as_ptr () as * const c_char) ; table . callv = (gd_api . godot_method_bind_get_method) (class_name , "callv\0" . as_ptr () as * const c_char) ; table . can_translate_messages = (gd_api . godot_method_bind_get_method) (class_name , "can_translate_messages\0" . as_ptr () as * const c_char) ; table . connect = (gd_api . godot_method_bind_get_method) (class_name , "connect\0" . as_ptr () as * const c_char) ; table . disconnect = (gd_api . godot_method_bind_get_method) (class_name , "disconnect\0" . as_ptr () as * const c_char) ; table . emit_signal = (gd_api . godot_method_bind_get_method) (class_name , "emit_signal\0" . as_ptr () as * const c_char) ; table . get = (gd_api . godot_method_bind_get_method) (class_name , "get\0" . as_ptr () as * const c_char) ; table . get_class = (gd_api . godot_method_bind_get_method) (class_name , "get_class\0" . as_ptr () as * const c_char) ; table . get_incoming_connections = (gd_api . godot_method_bind_get_method) (class_name , "get_incoming_connections\0" . as_ptr () as * const c_char) ; table . get_indexed = (gd_api . godot_method_bind_get_method) (class_name , "get_indexed\0" . as_ptr () as * const c_char) ; table . get_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "get_instance_id\0" . as_ptr () as * const c_char) ; table . get_meta = (gd_api . godot_method_bind_get_method) (class_name , "get_meta\0" . as_ptr () as * const c_char) ; table . get_meta_list = (gd_api . godot_method_bind_get_method) (class_name , "get_meta_list\0" . as_ptr () as * const c_char) ; table . get_method_list = (gd_api . godot_method_bind_get_method) (class_name , "get_method_list\0" . as_ptr () as * const c_char) ; table . get_property_list = (gd_api . godot_method_bind_get_method) (class_name , "get_property_list\0" . as_ptr () as * const c_char) ; table . get_script = (gd_api . godot_method_bind_get_method) (class_name , "get_script\0" . as_ptr () as * const c_char) ; table . get_signal_connection_list = (gd_api . godot_method_bind_get_method) (class_name , "get_signal_connection_list\0" . as_ptr () as * const c_char) ; table . get_signal_list = (gd_api . godot_method_bind_get_method) (class_name , "get_signal_list\0" . as_ptr () as * const c_char) ; table . has_meta = (gd_api . godot_method_bind_get_method) (class_name , "has_meta\0" . as_ptr () as * const c_char) ; table . has_method = (gd_api . godot_method_bind_get_method) (class_name , "has_method\0" . as_ptr () as * const c_char) ; table . has_signal = (gd_api . godot_method_bind_get_method) (class_name , "has_signal\0" . as_ptr () as * const c_char) ; table . has_user_signal = (gd_api . godot_method_bind_get_method) (class_name , "has_user_signal\0" . as_ptr () as * const c_char) ; table . is_blocking_signals = (gd_api . godot_method_bind_get_method) (class_name , "is_blocking_signals\0" . as_ptr () as * const c_char) ; table . is_class = (gd_api . godot_method_bind_get_method) (class_name , "is_class\0" . as_ptr () as * const c_char) ; table . is_connected = (gd_api . godot_method_bind_get_method) (class_name , "is_connected\0" . as_ptr () as * const c_char) ; table . is_queued_for_deletion = (gd_api . godot_method_bind_get_method) (class_name , "is_queued_for_deletion\0" . as_ptr () as * const c_char) ; table . notification = (gd_api . godot_method_bind_get_method) (class_name , "notification\0" . as_ptr () as * const c_char) ; table . property_list_changed_notify = (gd_api . godot_method_bind_get_method) (class_name , "property_list_changed_notify\0" . as_ptr () as * const c_char) ; table . remove_meta = (gd_api . godot_method_bind_get_method) (class_name , "remove_meta\0" . as_ptr () as * const c_char) ; table . set = (gd_api . godot_method_bind_get_method) (class_name , "set\0" . as_ptr () as * const c_char) ; table . set_block_signals = (gd_api . godot_method_bind_get_method) (class_name , "set_block_signals\0" . as_ptr () as * const c_char) ; table . set_deferred = (gd_api . godot_method_bind_get_method) (class_name , "set_deferred\0" . as_ptr () as * const c_char) ; table . set_indexed = (gd_api . godot_method_bind_get_method) (class_name , "set_indexed\0" . as_ptr () as * const c_char) ; table . set_message_translation = (gd_api . godot_method_bind_get_method) (class_name , "set_message_translation\0" . as_ptr () as * const c_char) ; table . set_meta = (gd_api . godot_method_bind_get_method) (class_name , "set_meta\0" . as_ptr () as * const c_char) ; table . set_script = (gd_api . godot_method_bind_get_method) (class_name , "set_script\0" . as_ptr () as * const c_char) ; table . to_string = (gd_api . godot_method_bind_get_method) (class_name , "to_string\0" . as_ptr () as * const c_char) ; table . tr = (gd_api . godot_method_bind_get_method) (class_name , "tr\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-60c8dbcfaf0f3dfc/out/generated.rs:460:4309 [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 QuadMesh` inherits `PrimitiveMesh` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_quadmesh.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\nQuadMesh 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 QuadMesh { this : RawObject < Self > , } impl QuadMesh { # [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 = QuadMeshMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Size on the X and Y axes."] # [doc = ""] # [inline] pub fn size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = QuadMeshMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Size on the X and Y axes."] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = QuadMeshMethodTable :: 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 QuadMesh { } unsafe impl GodotObject for QuadMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "QuadMesh" } } impl std :: ops :: Deref for QuadMesh { 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 QuadMesh { # [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 QuadMesh { } unsafe impl SubClass < crate :: generated :: mesh :: Mesh > for QuadMesh { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for QuadMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for QuadMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for QuadMesh { } impl Instanciable for QuadMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { QuadMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct QuadMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_size : * mut sys :: godot_method_bind , pub set_size : * mut sys :: godot_method_bind } impl QuadMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : QuadMeshMethodTable = QuadMeshMethodTable { class_constructor : None , get_size : 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 (|| { QuadMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "QuadMesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_size = (gd_api . godot_method_bind_get_method) (class_name , "get_size\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-60c8dbcfaf0f3dfc/out/generated.rs:466:21187 [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 StyleBoxFlat` inherits `StyleBox` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_styleboxflat.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\nStyleBoxFlat 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 StyleBoxFlat { this : RawObject < Self > , } impl StyleBoxFlat { # [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 = StyleBoxFlatMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "This changes the size of the faded ring. Higher values can be used to achieve a \"blurry\" effect."] # [doc = ""] # [inline] pub fn aa_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_aa_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The background color of the stylebox."] # [doc = ""] # [inline] pub fn bg_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_bg_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, the border will fade into the background color."] # [doc = ""] # [inline] pub fn border_blend (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_border_blend ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the color of the border."] # [doc = ""] # [inline] pub fn border_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_border_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Border width for the top border."] # [doc = ""] # [inline] pub fn border_width (& self , margin : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_border_width ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "Returns the smallest border width out of all four borders."] # [doc = ""] # [inline] pub fn get_border_width_min (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_border_width_min ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This sets the amount of vertices used for each corner. Higher values result in rounder corners but take more processing power to compute. When choosing a value, you should take the corner radius ([method set_corner_radius_all]) into account.\nFor corner radii smaller than 10, `4` or `5` should be enough. For corner radii smaller than 30, values between `8` and `12` should be enough.\nA corner detail of `1` will result in chamfered corners instead of rounded corners, which is useful for some artistic effects."] # [doc = ""] # [inline] pub fn corner_detail (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_corner_detail ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The top-right corner's radius. If `0`, the corner is not rounded."] # [doc = ""] # [inline] pub fn corner_radius (& self , corner : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_corner_radius ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , corner) ; ret as _ } } # [doc = "Expands the stylebox outside of the control rect on the top edge. Useful in combination with [member border_width_top] to draw a border outside the control rect."] # [doc = ""] # [inline] pub fn expand_margin (& self , margin : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_expand_margin ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "The color of the shadow. This has no effect if [member shadow_size] is lower than 1."] # [doc = ""] # [inline] pub fn shadow_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_shadow_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The shadow offset in pixels. Adjusts the position of the shadow relatively to the stylebox."] # [doc = ""] # [inline] pub fn shadow_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_shadow_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The shadow size in pixels."] # [doc = ""] # [inline] pub fn shadow_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . get_shadow_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Antialiasing draws a small ring around the edges, which fades to transparency. As a result, edges look much smoother. This is only noticeable when using rounded corners."] # [doc = ""] # [inline] pub fn is_anti_aliased (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . is_anti_aliased ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Toggles drawing of the inner part of the stylebox."] # [doc = ""] # [inline] pub fn is_draw_center_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . is_draw_center_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This changes the size of the faded ring. Higher values can be used to achieve a \"blurry\" effect."] # [doc = ""] # [inline] pub fn set_aa_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_aa_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Antialiasing draws a small ring around the edges, which fades to transparency. As a result, edges look much smoother. This is only noticeable when using rounded corners."] # [doc = ""] # [inline] pub fn set_anti_aliased (& self , anti_aliased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_anti_aliased ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , anti_aliased) ; } } # [doc = "The background color of the stylebox."] # [doc = ""] # [inline] pub fn set_bg_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_bg_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "If `true`, the border will fade into the background color."] # [doc = ""] # [inline] pub fn set_border_blend (& self , blend : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_border_blend ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , blend) ; } } # [doc = "Sets the color of the border."] # [doc = ""] # [inline] pub fn set_border_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_border_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Border width for the top border."] # [doc = ""] # [inline] pub fn set_border_width (& self , margin : i64 , width : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_border_width ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin , width) ; } } # [doc = "Sets the border width to `width` pixels for all margins."] # [doc = ""] # [inline] pub fn set_border_width_all (& self , width : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_border_width_all ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , width) ; } } # [doc = "This sets the amount of vertices used for each corner. Higher values result in rounder corners but take more processing power to compute. When choosing a value, you should take the corner radius ([method set_corner_radius_all]) into account.\nFor corner radii smaller than 10, `4` or `5` should be enough. For corner radii smaller than 30, values between `8` and `12` should be enough.\nA corner detail of `1` will result in chamfered corners instead of rounded corners, which is useful for some artistic effects."] # [doc = ""] # [inline] pub fn set_corner_detail (& self , detail : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_corner_detail ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , detail) ; } } # [doc = "The top-right corner's radius. If `0`, the corner is not rounded."] # [doc = ""] # [inline] pub fn set_corner_radius (& self , corner : i64 , radius : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_corner_radius ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , corner , radius) ; } } # [doc = "Sets the corner radius to `radius` pixels for all corners."] # [doc = ""] # [inline] pub fn set_corner_radius_all (& self , radius : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_corner_radius_all ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = "Sets the corner radius for each corner to `radius_top_left`, `radius_top_right`, `radius_bottom_right`, and `radius_bottom_left` pixels."] # [doc = ""] # [inline] pub fn set_corner_radius_individual (& self , radius_top_left : i64 , radius_top_right : i64 , radius_bottom_right : i64 , radius_bottom_left : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_corner_radius_individual ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , radius_top_left , radius_top_right , radius_bottom_right , radius_bottom_left) ; } } # [doc = "Toggles drawing of the inner part of the stylebox."] # [doc = ""] # [inline] pub fn set_draw_center (& self , draw_center : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_draw_center ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , draw_center) ; } } # [doc = "Expands the stylebox outside of the control rect on the top edge. Useful in combination with [member border_width_top] to draw a border outside the control rect."] # [doc = ""] # [inline] pub fn set_expand_margin (& self , margin : i64 , size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_expand_margin ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , margin , size) ; } } # [doc = "Sets the expand margin to `size` pixels for all margins."] # [doc = ""] # [inline] pub fn set_expand_margin_all (& self , size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_expand_margin_all ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Sets the expand margin for each margin to `size_left`, `size_top`, `size_right`, and `size_bottom` pixels."] # [doc = ""] # [inline] pub fn set_expand_margin_individual (& self , size_left : f64 , size_top : f64 , size_right : f64 , size_bottom : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_expand_margin_individual ; let ret = crate :: icalls :: icallptr_void_f64_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , size_left , size_top , size_right , size_bottom) ; } } # [doc = "The color of the shadow. This has no effect if [member shadow_size] is lower than 1."] # [doc = ""] # [inline] pub fn set_shadow_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_shadow_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The shadow offset in pixels. Adjusts the position of the shadow relatively to the stylebox."] # [doc = ""] # [inline] pub fn set_shadow_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_shadow_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The shadow size in pixels."] # [doc = ""] # [inline] pub fn set_shadow_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxFlatMethodTable :: get (get_api ()) . set_shadow_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for StyleBoxFlat { } unsafe impl GodotObject for StyleBoxFlat { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StyleBoxFlat" } } impl std :: ops :: Deref for StyleBoxFlat { 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 StyleBoxFlat { # [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 StyleBoxFlat { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for StyleBoxFlat { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StyleBoxFlat { } unsafe impl SubClass < crate :: generated :: object :: Object > for StyleBoxFlat { } impl Instanciable for StyleBoxFlat { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StyleBoxFlat :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StyleBoxFlatMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_aa_size : * mut sys :: godot_method_bind , pub get_bg_color : * mut sys :: godot_method_bind , pub get_border_blend : * mut sys :: godot_method_bind , pub get_border_color : * mut sys :: godot_method_bind , pub get_border_width : * mut sys :: godot_method_bind , pub get_border_width_min : * mut sys :: godot_method_bind , pub get_corner_detail : * mut sys :: godot_method_bind , pub get_corner_radius : * mut sys :: godot_method_bind , pub get_expand_margin : * mut sys :: godot_method_bind , pub get_shadow_color : * mut sys :: godot_method_bind , pub get_shadow_offset : * mut sys :: godot_method_bind , pub get_shadow_size : * mut sys :: godot_method_bind , pub is_anti_aliased : * mut sys :: godot_method_bind , pub is_draw_center_enabled : * mut sys :: godot_method_bind , pub set_aa_size : * mut sys :: godot_method_bind , pub set_anti_aliased : * mut sys :: godot_method_bind , pub set_bg_color : * mut sys :: godot_method_bind , pub set_border_blend : * 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_border_width_all : * mut sys :: godot_method_bind , pub set_corner_detail : * mut sys :: godot_method_bind , pub set_corner_radius : * mut sys :: godot_method_bind , pub set_corner_radius_all : * mut sys :: godot_method_bind , pub set_corner_radius_individual : * mut sys :: godot_method_bind , pub set_draw_center : * mut sys :: godot_method_bind , pub set_expand_margin : * mut sys :: godot_method_bind , pub set_expand_margin_all : * mut sys :: godot_method_bind , pub set_expand_margin_individual : * mut sys :: godot_method_bind , pub set_shadow_color : * mut sys :: godot_method_bind , pub set_shadow_offset : * mut sys :: godot_method_bind , pub set_shadow_size : * mut sys :: godot_method_bind } impl StyleBoxFlatMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StyleBoxFlatMethodTable = StyleBoxFlatMethodTable { class_constructor : None , get_aa_size : 0 as * mut sys :: godot_method_bind , get_bg_color : 0 as * mut sys :: godot_method_bind , get_border_blend : 0 as * mut sys :: godot_method_bind , get_border_color : 0 as * mut sys :: godot_method_bind , get_border_width : 0 as * mut sys :: godot_method_bind , get_border_width_min : 0 as * mut sys :: godot_method_bind , get_corner_detail : 0 as * mut sys :: godot_method_bind , get_corner_radius : 0 as * mut sys :: godot_method_bind , get_expand_margin : 0 as * mut sys :: godot_method_bind , get_shadow_color : 0 as * mut sys :: godot_method_bind , get_shadow_offset : 0 as * mut sys :: godot_method_bind , get_shadow_size : 0 as * mut sys :: godot_method_bind , is_anti_aliased : 0 as * mut sys :: godot_method_bind , is_draw_center_enabled : 0 as * mut sys :: godot_method_bind , set_aa_size : 0 as * mut sys :: godot_method_bind , set_anti_aliased : 0 as * mut sys :: godot_method_bind , set_bg_color : 0 as * mut sys :: godot_method_bind , set_border_blend : 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_border_width_all : 0 as * mut sys :: godot_method_bind , set_corner_detail : 0 as * mut sys :: godot_method_bind , set_corner_radius : 0 as * mut sys :: godot_method_bind , set_corner_radius_all : 0 as * mut sys :: godot_method_bind , set_corner_radius_individual : 0 as * mut sys :: godot_method_bind , set_draw_center : 0 as * mut sys :: godot_method_bind , set_expand_margin : 0 as * mut sys :: godot_method_bind , set_expand_margin_all : 0 as * mut sys :: godot_method_bind , set_expand_margin_individual : 0 as * mut sys :: godot_method_bind , set_shadow_color : 0 as * mut sys :: godot_method_bind , set_shadow_offset : 0 as * mut sys :: godot_method_bind , set_shadow_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 (|| { StyleBoxFlatMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StyleBoxFlat\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_aa_size = (gd_api . godot_method_bind_get_method) (class_name , "get_aa_size\0" . as_ptr () as * const c_char) ; table . get_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "get_bg_color\0" . as_ptr () as * const c_char) ; table . get_border_blend = (gd_api . godot_method_bind_get_method) (class_name , "get_border_blend\0" . as_ptr () as * const c_char) ; 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_border_width_min = (gd_api . godot_method_bind_get_method) (class_name , "get_border_width_min\0" . as_ptr () as * const c_char) ; table . get_corner_detail = (gd_api . godot_method_bind_get_method) (class_name , "get_corner_detail\0" . as_ptr () as * const c_char) ; table . get_corner_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_corner_radius\0" . as_ptr () as * const c_char) ; table . get_expand_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_expand_margin\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_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_offset\0" . as_ptr () as * const c_char) ; table . get_shadow_size = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_size\0" . as_ptr () as * const c_char) ; table . is_anti_aliased = (gd_api . godot_method_bind_get_method) (class_name , "is_anti_aliased\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_aa_size = (gd_api . godot_method_bind_get_method) (class_name , "set_aa_size\0" . as_ptr () as * const c_char) ; table . set_anti_aliased = (gd_api . godot_method_bind_get_method) (class_name , "set_anti_aliased\0" . as_ptr () as * const c_char) ; table . set_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "set_bg_color\0" . as_ptr () as * const c_char) ; table . set_border_blend = (gd_api . godot_method_bind_get_method) (class_name , "set_border_blend\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_border_width_all = (gd_api . godot_method_bind_get_method) (class_name , "set_border_width_all\0" . as_ptr () as * const c_char) ; table . set_corner_detail = (gd_api . godot_method_bind_get_method) (class_name , "set_corner_detail\0" . as_ptr () as * const c_char) ; table . set_corner_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_corner_radius\0" . as_ptr () as * const c_char) ; table . set_corner_radius_all = (gd_api . godot_method_bind_get_method) (class_name , "set_corner_radius_all\0" . as_ptr () as * const c_char) ; table . set_corner_radius_individual = (gd_api . godot_method_bind_get_method) (class_name , "set_corner_radius_individual\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_expand_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_expand_margin\0" . as_ptr () as * const c_char) ; table . set_expand_margin_all = (gd_api . godot_method_bind_get_method) (class_name , "set_expand_margin_all\0" . as_ptr () as * const c_char) ; table . set_expand_margin_individual = (gd_api . godot_method_bind_get_method) (class_name , "set_expand_margin_individual\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_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_offset\0" . as_ptr () as * const c_char) ; table . set_shadow_size = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_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-60c8dbcfaf0f3dfc/out/generated.rs:472:13645 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:478:5624 [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 = "`core class CenterContainer` inherits `Container` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_centercontainer.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`CenterContainer` 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\nCenterContainer 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 CenterContainer { this : RawObject < Self > , } impl CenterContainer { # [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 = CenterContainerMethodTable :: 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`, centers children relative to the [CenterContainer]'s top left corner."] # [doc = ""] # [inline] pub fn is_using_top_left (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CenterContainerMethodTable :: get (get_api ()) . is_using_top_left ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, centers children relative to the [CenterContainer]'s top left corner."] # [doc = ""] # [inline] pub fn set_use_top_left (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CenterContainerMethodTable :: get (get_api ()) . set_use_top_left ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CenterContainer { } unsafe impl GodotObject for CenterContainer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CenterContainer" } } impl QueueFree for CenterContainer { # [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 CenterContainer { type Target = crate :: generated :: container :: Container ; # [inline] fn deref (& self) -> & crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CenterContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: container :: Container > for CenterContainer { } unsafe impl SubClass < crate :: generated :: control :: Control > for CenterContainer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for CenterContainer { } unsafe impl SubClass < crate :: generated :: node :: Node > for CenterContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for CenterContainer { } impl Instanciable for CenterContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CenterContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CenterContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub is_using_top_left : * mut sys :: godot_method_bind , pub set_use_top_left : * mut sys :: godot_method_bind } impl CenterContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CenterContainerMethodTable = CenterContainerMethodTable { class_constructor : None , is_using_top_left : 0 as * mut sys :: godot_method_bind , set_use_top_left : 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 (|| { CenterContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CenterContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . is_using_top_left = (gd_api . godot_method_bind_get_method) (class_name , "is_using_top_left\0" . as_ptr () as * const c_char) ; table . set_use_top_left = (gd_api . godot_method_bind_get_method) (class_name , "set_use_top_left\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-60c8dbcfaf0f3dfc/out/generated.rs:484:20850 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:490:5460 [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 VisualShaderNodeExpression` inherits `VisualShaderNodeGroupBase` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodeexpression.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\nVisualShaderNodeExpression inherits methods from:\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 VisualShaderNodeExpression { this : RawObject < Self > , } impl VisualShaderNodeExpression { # [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 = VisualShaderNodeExpressionMethodTable :: 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 expression in Godot Shading Language, which will be injected at the start of the graph's matching shader function (`vertex`, `fragment`, or `light`), and thus cannot be used to declare functions, varyings, uniforms, or global constants."] # [doc = ""] # [inline] pub fn expression (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeExpressionMethodTable :: get (get_api ()) . get_expression ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "An expression in Godot Shading Language, which will be injected at the start of the graph's matching shader function (`vertex`, `fragment`, or `light`), and thus cannot be used to declare functions, varyings, uniforms, or global constants."] # [doc = ""] # [inline] pub fn set_expression (& self , expression : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeExpressionMethodTable :: get (get_api ()) . set_expression ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , expression . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeExpression { } unsafe impl GodotObject for VisualShaderNodeExpression { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeExpression" } } impl std :: ops :: Deref for VisualShaderNodeExpression { type Target = crate :: generated :: visual_shader_node_group_base :: VisualShaderNodeGroupBase ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node_group_base :: VisualShaderNodeGroupBase { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeExpression { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node_group_base :: VisualShaderNodeGroupBase { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node_group_base :: VisualShaderNodeGroupBase > for VisualShaderNodeExpression { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeExpression { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeExpression { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeExpression { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeExpression { } impl Instanciable for VisualShaderNodeExpression { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeExpression :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeExpressionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_expression : * mut sys :: godot_method_bind , pub set_expression : * mut sys :: godot_method_bind } impl VisualShaderNodeExpressionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeExpressionMethodTable = VisualShaderNodeExpressionMethodTable { class_constructor : None , get_expression : 0 as * mut sys :: godot_method_bind , set_expression : 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 (|| { VisualShaderNodeExpressionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeExpression\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_expression = (gd_api . godot_method_bind_get_method) (class_name , "get_expression\0" . as_ptr () as * const c_char) ; table . set_expression = (gd_api . godot_method_bind_get_method) (class_name , "set_expression\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-60c8dbcfaf0f3dfc/out/generated.rs:496:11572 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:502:7732 [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 = "`core class ParallaxLayer` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_parallaxlayer.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`ParallaxLayer` 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\nParallaxLayer 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 ParallaxLayer { this : RawObject < Self > , } impl ParallaxLayer { # [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 = ParallaxLayerMethodTable :: 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 ParallaxLayer's [Texture] mirroring. Useful for creating an infinite scrolling background. If an axis is set to `0`, the [Texture] will not be mirrored."] # [doc = ""] # [inline] pub fn mirroring (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxLayerMethodTable :: get (get_api ()) . get_mirroring ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The ParallaxLayer's offset relative to the parent ParallaxBackground's [member ParallaxBackground.scroll_offset]."] # [doc = ""] # [inline] pub fn motion_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxLayerMethodTable :: get (get_api ()) . get_motion_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Multiplies the ParallaxLayer's motion. If an axis is set to `0`, it will not scroll."] # [doc = ""] # [inline] pub fn motion_scale (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxLayerMethodTable :: get (get_api ()) . get_motion_scale ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The ParallaxLayer's [Texture] mirroring. Useful for creating an infinite scrolling background. If an axis is set to `0`, the [Texture] will not be mirrored."] # [doc = ""] # [inline] pub fn set_mirroring (& self , mirror : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxLayerMethodTable :: get (get_api ()) . set_mirroring ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , mirror) ; } } # [doc = "The ParallaxLayer's offset relative to the parent ParallaxBackground's [member ParallaxBackground.scroll_offset]."] # [doc = ""] # [inline] pub fn set_motion_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxLayerMethodTable :: get (get_api ()) . set_motion_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Multiplies the ParallaxLayer's motion. If an axis is set to `0`, it will not scroll."] # [doc = ""] # [inline] pub fn set_motion_scale (& self , scale : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxLayerMethodTable :: get (get_api ()) . set_motion_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , scale) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ParallaxLayer { } unsafe impl GodotObject for ParallaxLayer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ParallaxLayer" } } impl QueueFree for ParallaxLayer { # [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 ParallaxLayer { 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 ParallaxLayer { # [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 ParallaxLayer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ParallaxLayer { } unsafe impl SubClass < crate :: generated :: node :: Node > for ParallaxLayer { } unsafe impl SubClass < crate :: generated :: object :: Object > for ParallaxLayer { } impl Instanciable for ParallaxLayer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ParallaxLayer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ParallaxLayerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_mirroring : * mut sys :: godot_method_bind , pub get_motion_offset : * mut sys :: godot_method_bind , pub get_motion_scale : * mut sys :: godot_method_bind , pub set_mirroring : * mut sys :: godot_method_bind , pub set_motion_offset : * mut sys :: godot_method_bind , pub set_motion_scale : * mut sys :: godot_method_bind } impl ParallaxLayerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ParallaxLayerMethodTable = ParallaxLayerMethodTable { class_constructor : None , get_mirroring : 0 as * mut sys :: godot_method_bind , get_motion_offset : 0 as * mut sys :: godot_method_bind , get_motion_scale : 0 as * mut sys :: godot_method_bind , set_mirroring : 0 as * mut sys :: godot_method_bind , set_motion_offset : 0 as * mut sys :: godot_method_bind , set_motion_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 (|| { ParallaxLayerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ParallaxLayer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_mirroring = (gd_api . godot_method_bind_get_method) (class_name , "get_mirroring\0" . as_ptr () as * const c_char) ; table . get_motion_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_motion_offset\0" . as_ptr () as * const c_char) ; table . get_motion_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_motion_scale\0" . as_ptr () as * const c_char) ; table . set_mirroring = (gd_api . godot_method_bind_get_method) (class_name , "set_mirroring\0" . as_ptr () as * const c_char) ; table . set_motion_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_motion_offset\0" . as_ptr () as * const c_char) ; table . set_motion_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_motion_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-60c8dbcfaf0f3dfc/out/generated.rs:508:3641 [INFO] [stdout] | [INFO] [stdout] 508 | ...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] 508 | # [doc = "`core class AudioEffectEQ10` inherits `AudioEffectEQ` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffecteq10.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\nAudioEffectEQ10 inherits methods from:\n - [AudioEffectEQ](struct.AudioEffectEQ.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 AudioEffectEQ10 { this : RawObject < Self > , } impl AudioEffectEQ10 { # [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 = AudioEffectEQ10MethodTable :: 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 AudioEffectEQ10 { } unsafe impl GodotObject for AudioEffectEQ10 { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectEQ10" } } impl std :: ops :: Deref for AudioEffectEQ10 { type Target = crate :: generated :: audio_effect_eq :: AudioEffectEQ ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect_eq :: AudioEffectEQ { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectEQ10 { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect_eq :: AudioEffectEQ { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect_eq :: AudioEffectEQ > for AudioEffectEQ10 { } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectEQ10 { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectEQ10 { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectEQ10 { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectEQ10 { } impl Instanciable for AudioEffectEQ10 { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectEQ10 :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectEQ10MethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AudioEffectEQ10MethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectEQ10MethodTable = AudioEffectEQ10MethodTable { 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 (|| { AudioEffectEQ10MethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectEQ10\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-60c8dbcfaf0f3dfc/out/generated.rs:514:7903 [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 AudioEffectFilter` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectfilter.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\nAudioEffectFilter 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 AudioEffectFilter { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct FilterDb (pub i64) ; impl FilterDb { pub const _6DB : FilterDb = FilterDb (0i64) ; pub const _12DB : FilterDb = FilterDb (1i64) ; pub const _18DB : FilterDb = FilterDb (2i64) ; pub const _24DB : FilterDb = FilterDb (3i64) ; } impl From < i64 > for FilterDb { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < FilterDb > for i64 { # [inline] fn from (v : FilterDb) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AudioEffectFilter { pub const FILTER_12DB : i64 = 1i64 ; pub const FILTER_18DB : i64 = 2i64 ; pub const FILTER_24DB : i64 = 3i64 ; pub const FILTER_6DB : i64 = 0i64 ; } impl AudioEffectFilter { # [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 = AudioEffectFilterMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Threshold frequency for the filter, in Hz."] # [doc = ""] # [inline] pub fn cutoff (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . get_cutoff ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn db (& self) -> crate :: generated :: audio_effect_filter :: FilterDb { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . get_db ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: audio_effect_filter :: FilterDb (ret) } } # [doc = "Gain amount of the frequencies after the filter."] # [doc = ""] # [inline] pub fn gain (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . get_gain ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of boost in the frequency range near the cutoff frequency."] # [doc = ""] # [inline] pub fn resonance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . get_resonance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Threshold frequency for the filter, in Hz."] # [doc = ""] # [inline] pub fn set_cutoff (& self , freq : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . set_cutoff ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , freq) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_db (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . set_db ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Gain amount of the frequencies after the filter."] # [doc = ""] # [inline] pub fn set_gain (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . set_gain ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Amount of boost in the frequency range near the cutoff frequency."] # [doc = ""] # [inline] pub fn set_resonance (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectFilterMethodTable :: get (get_api ()) . set_resonance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectFilter { } unsafe impl GodotObject for AudioEffectFilter { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectFilter" } } impl std :: ops :: Deref for AudioEffectFilter { 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 AudioEffectFilter { # [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 AudioEffectFilter { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectFilter { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectFilter { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectFilter { } impl Instanciable for AudioEffectFilter { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectFilter :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectFilterMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_cutoff : * mut sys :: godot_method_bind , pub get_db : * mut sys :: godot_method_bind , pub get_gain : * mut sys :: godot_method_bind , pub get_resonance : * mut sys :: godot_method_bind , pub set_cutoff : * mut sys :: godot_method_bind , pub set_db : * mut sys :: godot_method_bind , pub set_gain : * mut sys :: godot_method_bind , pub set_resonance : * mut sys :: godot_method_bind } impl AudioEffectFilterMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectFilterMethodTable = AudioEffectFilterMethodTable { class_constructor : None , get_cutoff : 0 as * mut sys :: godot_method_bind , get_db : 0 as * mut sys :: godot_method_bind , get_gain : 0 as * mut sys :: godot_method_bind , get_resonance : 0 as * mut sys :: godot_method_bind , set_cutoff : 0 as * mut sys :: godot_method_bind , set_db : 0 as * mut sys :: godot_method_bind , set_gain : 0 as * mut sys :: godot_method_bind , set_resonance : 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 (|| { AudioEffectFilterMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectFilter\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_cutoff = (gd_api . godot_method_bind_get_method) (class_name , "get_cutoff\0" . as_ptr () as * const c_char) ; table . get_db = (gd_api . godot_method_bind_get_method) (class_name , "get_db\0" . as_ptr () as * const c_char) ; table . get_gain = (gd_api . godot_method_bind_get_method) (class_name , "get_gain\0" . as_ptr () as * const c_char) ; table . get_resonance = (gd_api . godot_method_bind_get_method) (class_name , "get_resonance\0" . as_ptr () as * const c_char) ; table . set_cutoff = (gd_api . godot_method_bind_get_method) (class_name , "set_cutoff\0" . as_ptr () as * const c_char) ; table . set_db = (gd_api . godot_method_bind_get_method) (class_name , "set_db\0" . as_ptr () as * const c_char) ; table . set_gain = (gd_api . godot_method_bind_get_method) (class_name , "set_gain\0" . as_ptr () as * const c_char) ; table . set_resonance = (gd_api . godot_method_bind_get_method) (class_name , "set_resonance\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-60c8dbcfaf0f3dfc/out/generated.rs:520:7986 [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 = "`tools class EditorExportPlugin` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorexportplugin.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\nEditorExportPlugin 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 EditorExportPlugin { this : RawObject < Self > , } impl EditorExportPlugin { # [doc = ""] # [doc = ""] # [inline] pub fn add_file (& self , path : impl Into < GodotString > , file : ByteArray , remap : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_file ; let ret = crate :: icalls :: icallptr_void_str_bytearr_bool (method_bind , self . this . sys () . as_ptr () , path . into () , file , remap) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_ios_bundle_file (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_ios_bundle_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_ios_cpp_code (& self , code : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_ios_cpp_code ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , code . into ()) ; } } # [doc = "Adds a dynamic library (*.dylib, *.framework) to Linking Phase in iOS's Xcode project and embeds it into resulting binary.\n**Note:** For static libraries (*.a) works in same way as [method add_ios_framework].\nThis method should not be used for System libraries as they are already present on the device."] # [doc = ""] # [inline] pub fn add_ios_embedded_framework (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_ios_embedded_framework ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "Adds a static library (*.a) or dynamic library (*.dylib, *.framework) to Linking Phase in iOS's Xcode project."] # [doc = ""] # [inline] pub fn add_ios_framework (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_ios_framework ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_ios_linker_flags (& self , flags : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_ios_linker_flags ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , flags . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_ios_plist_content (& self , plist_content : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_ios_plist_content ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , plist_content . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_ios_project_static_lib (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_ios_project_static_lib ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_shared_object (& self , path : impl Into < GodotString > , tags : StringArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . add_shared_object ; let ret = crate :: icalls :: icallptr_void_str_strarr (method_bind , self . this . sys () . as_ptr () , path . into () , tags) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn skip (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorExportPluginMethodTable :: get (get_api ()) . skip ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorExportPlugin { } unsafe impl GodotObject for EditorExportPlugin { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "EditorExportPlugin" } } impl std :: ops :: Deref for EditorExportPlugin { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorExportPlugin { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for EditorExportPlugin { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorExportPlugin { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorExportPluginMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_file : * mut sys :: godot_method_bind , pub add_ios_bundle_file : * mut sys :: godot_method_bind , pub add_ios_cpp_code : * mut sys :: godot_method_bind , pub add_ios_embedded_framework : * mut sys :: godot_method_bind , pub add_ios_framework : * mut sys :: godot_method_bind , pub add_ios_linker_flags : * mut sys :: godot_method_bind , pub add_ios_plist_content : * mut sys :: godot_method_bind , pub add_ios_project_static_lib : * mut sys :: godot_method_bind , pub add_shared_object : * mut sys :: godot_method_bind , pub skip : * mut sys :: godot_method_bind } impl EditorExportPluginMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorExportPluginMethodTable = EditorExportPluginMethodTable { class_constructor : None , add_file : 0 as * mut sys :: godot_method_bind , add_ios_bundle_file : 0 as * mut sys :: godot_method_bind , add_ios_cpp_code : 0 as * mut sys :: godot_method_bind , add_ios_embedded_framework : 0 as * mut sys :: godot_method_bind , add_ios_framework : 0 as * mut sys :: godot_method_bind , add_ios_linker_flags : 0 as * mut sys :: godot_method_bind , add_ios_plist_content : 0 as * mut sys :: godot_method_bind , add_ios_project_static_lib : 0 as * mut sys :: godot_method_bind , add_shared_object : 0 as * mut sys :: godot_method_bind , skip : 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 (|| { EditorExportPluginMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorExportPlugin\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 . add_ios_bundle_file = (gd_api . godot_method_bind_get_method) (class_name , "add_ios_bundle_file\0" . as_ptr () as * const c_char) ; table . add_ios_cpp_code = (gd_api . godot_method_bind_get_method) (class_name , "add_ios_cpp_code\0" . as_ptr () as * const c_char) ; table . add_ios_embedded_framework = (gd_api . godot_method_bind_get_method) (class_name , "add_ios_embedded_framework\0" . as_ptr () as * const c_char) ; table . add_ios_framework = (gd_api . godot_method_bind_get_method) (class_name , "add_ios_framework\0" . as_ptr () as * const c_char) ; table . add_ios_linker_flags = (gd_api . godot_method_bind_get_method) (class_name , "add_ios_linker_flags\0" . as_ptr () as * const c_char) ; table . add_ios_plist_content = (gd_api . godot_method_bind_get_method) (class_name , "add_ios_plist_content\0" . as_ptr () as * const c_char) ; table . add_ios_project_static_lib = (gd_api . godot_method_bind_get_method) (class_name , "add_ios_project_static_lib\0" . as_ptr () as * const c_char) ; table . add_shared_object = (gd_api . godot_method_bind_get_method) (class_name , "add_shared_object\0" . as_ptr () as * const c_char) ; table . skip = (gd_api . godot_method_bind_get_method) (class_name , "skip\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-60c8dbcfaf0f3dfc/out/generated.rs:526:17552 [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 CSGPolygon` inherits `CSGPrimitive` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_csgpolygon.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`CSGPolygon` 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\nCSGPolygon inherits methods from:\n - [CSGPrimitive](struct.CSGPrimitive.html)\n - [CSGShape](struct.CSGShape.html)\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 CSGPolygon { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Mode (pub i64) ; impl Mode { pub const DEPTH : Mode = Mode (0i64) ; pub const SPIN : Mode = Mode (1i64) ; pub const PATH : Mode = Mode (2i64) ; } 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 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PathRotation (pub i64) ; impl PathRotation { pub const POLYGON : PathRotation = PathRotation (0i64) ; pub const PATH : PathRotation = PathRotation (1i64) ; pub const PATH_FOLLOW : PathRotation = PathRotation (2i64) ; } impl From < i64 > for PathRotation { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PathRotation > for i64 { # [inline] fn from (v : PathRotation) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl CSGPolygon { pub const MODE_DEPTH : i64 = 0i64 ; pub const MODE_PATH : i64 = 2i64 ; pub const MODE_SPIN : i64 = 1i64 ; pub const PATH_ROTATION_PATH : i64 = 1i64 ; pub const PATH_ROTATION_PATH_FOLLOW : i64 = 2i64 ; pub const PATH_ROTATION_POLYGON : i64 = 0i64 ; } impl CSGPolygon { # [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 = CSGPolygonMethodTable :: 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 depth (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_depth ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn material (& self) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_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 = ""] # [doc = ""] # [inline] pub fn mode (& self) -> crate :: generated :: csg_polygon :: Mode { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: csg_polygon :: Mode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn path_interval (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_path_interval ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn path_node (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_path_node ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn path_rotation (& self) -> crate :: generated :: csg_polygon :: PathRotation { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_path_rotation ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: csg_polygon :: PathRotation (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn polygon (& self) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: 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 smooth_faces (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_smooth_faces ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn spin_degrees (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_spin_degrees ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn spin_sides (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . get_spin_sides ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_path_continuous_u (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . is_path_continuous_u ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_path_joined (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . is_path_joined ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_path_local (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . is_path_local ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_depth (& self , depth : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_depth ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , depth) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_material (& self , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_material ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , material . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_path_continuous_u (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_path_continuous_u ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_path_interval (& self , distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_path_interval ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , distance) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_path_joined (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_path_joined ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_path_local (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_path_local ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_path_node (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_path_node ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_path_rotation (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_path_rotation ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_polygon (& self , polygon : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: 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_smooth_faces (& self , smooth_faces : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_smooth_faces ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , smooth_faces) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_spin_degrees (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_spin_degrees ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_spin_sides (& self , spin_sides : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGPolygonMethodTable :: get (get_api ()) . set_spin_sides ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , spin_sides) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CSGPolygon { } unsafe impl GodotObject for CSGPolygon { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CSGPolygon" } } impl QueueFree for CSGPolygon { # [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 CSGPolygon { type Target = crate :: generated :: csg_primitive :: CSGPrimitive ; # [inline] fn deref (& self) -> & crate :: generated :: csg_primitive :: CSGPrimitive { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CSGPolygon { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: csg_primitive :: CSGPrimitive { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: csg_primitive :: CSGPrimitive > for CSGPolygon { } unsafe impl SubClass < crate :: generated :: csg_shape :: CSGShape > for CSGPolygon { } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for CSGPolygon { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for CSGPolygon { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CSGPolygon { } unsafe impl SubClass < crate :: generated :: node :: Node > for CSGPolygon { } unsafe impl SubClass < crate :: generated :: object :: Object > for CSGPolygon { } impl Instanciable for CSGPolygon { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CSGPolygon :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CSGPolygonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_depth : * mut sys :: godot_method_bind , pub get_material : * mut sys :: godot_method_bind , pub get_mode : * mut sys :: godot_method_bind , pub get_path_interval : * mut sys :: godot_method_bind , pub get_path_node : * mut sys :: godot_method_bind , pub get_path_rotation : * mut sys :: godot_method_bind , pub get_polygon : * mut sys :: godot_method_bind , pub get_smooth_faces : * mut sys :: godot_method_bind , pub get_spin_degrees : * mut sys :: godot_method_bind , pub get_spin_sides : * mut sys :: godot_method_bind , pub is_path_continuous_u : * mut sys :: godot_method_bind , pub is_path_joined : * mut sys :: godot_method_bind , pub is_path_local : * mut sys :: godot_method_bind , pub set_depth : * mut sys :: godot_method_bind , pub set_material : * mut sys :: godot_method_bind , pub set_mode : * mut sys :: godot_method_bind , pub set_path_continuous_u : * mut sys :: godot_method_bind , pub set_path_interval : * mut sys :: godot_method_bind , pub set_path_joined : * mut sys :: godot_method_bind , pub set_path_local : * mut sys :: godot_method_bind , pub set_path_node : * mut sys :: godot_method_bind , pub set_path_rotation : * mut sys :: godot_method_bind , pub set_polygon : * mut sys :: godot_method_bind , pub set_smooth_faces : * mut sys :: godot_method_bind , pub set_spin_degrees : * mut sys :: godot_method_bind , pub set_spin_sides : * mut sys :: godot_method_bind } impl CSGPolygonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CSGPolygonMethodTable = CSGPolygonMethodTable { class_constructor : None , get_depth : 0 as * mut sys :: godot_method_bind , get_material : 0 as * mut sys :: godot_method_bind , get_mode : 0 as * mut sys :: godot_method_bind , get_path_interval : 0 as * mut sys :: godot_method_bind , get_path_node : 0 as * mut sys :: godot_method_bind , get_path_rotation : 0 as * mut sys :: godot_method_bind , get_polygon : 0 as * mut sys :: godot_method_bind , get_smooth_faces : 0 as * mut sys :: godot_method_bind , get_spin_degrees : 0 as * mut sys :: godot_method_bind , get_spin_sides : 0 as * mut sys :: godot_method_bind , is_path_continuous_u : 0 as * mut sys :: godot_method_bind , is_path_joined : 0 as * mut sys :: godot_method_bind , is_path_local : 0 as * mut sys :: godot_method_bind , set_depth : 0 as * mut sys :: godot_method_bind , set_material : 0 as * mut sys :: godot_method_bind , set_mode : 0 as * mut sys :: godot_method_bind , set_path_continuous_u : 0 as * mut sys :: godot_method_bind , set_path_interval : 0 as * mut sys :: godot_method_bind , set_path_joined : 0 as * mut sys :: godot_method_bind , set_path_local : 0 as * mut sys :: godot_method_bind , set_path_node : 0 as * mut sys :: godot_method_bind , set_path_rotation : 0 as * mut sys :: godot_method_bind , set_polygon : 0 as * mut sys :: godot_method_bind , set_smooth_faces : 0 as * mut sys :: godot_method_bind , set_spin_degrees : 0 as * mut sys :: godot_method_bind , set_spin_sides : 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 (|| { CSGPolygonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CSGPolygon\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_depth = (gd_api . godot_method_bind_get_method) (class_name , "get_depth\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) ; table . get_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_mode\0" . as_ptr () as * const c_char) ; table . get_path_interval = (gd_api . godot_method_bind_get_method) (class_name , "get_path_interval\0" . as_ptr () as * const c_char) ; table . get_path_node = (gd_api . godot_method_bind_get_method) (class_name , "get_path_node\0" . as_ptr () as * const c_char) ; table . get_path_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_path_rotation\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_smooth_faces = (gd_api . godot_method_bind_get_method) (class_name , "get_smooth_faces\0" . as_ptr () as * const c_char) ; table . get_spin_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_spin_degrees\0" . as_ptr () as * const c_char) ; table . get_spin_sides = (gd_api . godot_method_bind_get_method) (class_name , "get_spin_sides\0" . as_ptr () as * const c_char) ; table . is_path_continuous_u = (gd_api . godot_method_bind_get_method) (class_name , "is_path_continuous_u\0" . as_ptr () as * const c_char) ; table . is_path_joined = (gd_api . godot_method_bind_get_method) (class_name , "is_path_joined\0" . as_ptr () as * const c_char) ; table . is_path_local = (gd_api . godot_method_bind_get_method) (class_name , "is_path_local\0" . as_ptr () as * const c_char) ; table . set_depth = (gd_api . godot_method_bind_get_method) (class_name , "set_depth\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) ; table . set_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_mode\0" . as_ptr () as * const c_char) ; table . set_path_continuous_u = (gd_api . godot_method_bind_get_method) (class_name , "set_path_continuous_u\0" . as_ptr () as * const c_char) ; table . set_path_interval = (gd_api . godot_method_bind_get_method) (class_name , "set_path_interval\0" . as_ptr () as * const c_char) ; table . set_path_joined = (gd_api . godot_method_bind_get_method) (class_name , "set_path_joined\0" . as_ptr () as * const c_char) ; table . set_path_local = (gd_api . godot_method_bind_get_method) (class_name , "set_path_local\0" . as_ptr () as * const c_char) ; table . set_path_node = (gd_api . godot_method_bind_get_method) (class_name , "set_path_node\0" . as_ptr () as * const c_char) ; table . set_path_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_path_rotation\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_smooth_faces = (gd_api . godot_method_bind_get_method) (class_name , "set_smooth_faces\0" . as_ptr () as * const c_char) ; table . set_spin_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_spin_degrees\0" . as_ptr () as * const c_char) ; table . set_spin_sides = (gd_api . godot_method_bind_get_method) (class_name , "set_spin_sides\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-60c8dbcfaf0f3dfc/out/generated.rs:532:18076 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:538:3393 [INFO] [stdout] | [INFO] [stdout] 538 | ...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] 538 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:544:3889 [INFO] [stdout] | [INFO] [stdout] 544 | ...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] 544 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:550:3927 [INFO] [stdout] | [INFO] [stdout] 550 | ...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] 550 | # [doc = "`core class AudioEffectHighShelfFilter` inherits `AudioEffectFilter` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffecthighshelffilter.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\nAudioEffectHighShelfFilter 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 AudioEffectHighShelfFilter { this : RawObject < Self > , } impl AudioEffectHighShelfFilter { # [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 = AudioEffectHighShelfFilterMethodTable :: 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 AudioEffectHighShelfFilter { } unsafe impl GodotObject for AudioEffectHighShelfFilter { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectHighShelfFilter" } } impl std :: ops :: Deref for AudioEffectHighShelfFilter { 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 AudioEffectHighShelfFilter { # [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 AudioEffectHighShelfFilter { } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectHighShelfFilter { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectHighShelfFilter { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectHighShelfFilter { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectHighShelfFilter { } impl Instanciable for AudioEffectHighShelfFilter { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectHighShelfFilter :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectHighShelfFilterMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AudioEffectHighShelfFilterMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectHighShelfFilterMethodTable = AudioEffectHighShelfFilterMethodTable { 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 (|| { AudioEffectHighShelfFilterMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectHighShelfFilter\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-60c8dbcfaf0f3dfc/out/generated.rs:556:23674 [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 Line2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_line2d.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`Line2D` 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\nLine2D 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 Line2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LineCapMode (pub i64) ; impl LineCapMode { pub const NONE : LineCapMode = LineCapMode (0i64) ; pub const BOX : LineCapMode = LineCapMode (1i64) ; pub const ROUND : LineCapMode = LineCapMode (2i64) ; } impl From < i64 > for LineCapMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LineCapMode > for i64 { # [inline] fn from (v : LineCapMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LineJointMode (pub i64) ; impl LineJointMode { pub const SHARP : LineJointMode = LineJointMode (0i64) ; pub const BEVEL : LineJointMode = LineJointMode (1i64) ; pub const ROUND : LineJointMode = LineJointMode (2i64) ; } impl From < i64 > for LineJointMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LineJointMode > for i64 { # [inline] fn from (v : LineJointMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LineTextureMode (pub i64) ; impl LineTextureMode { pub const NONE : LineTextureMode = LineTextureMode (0i64) ; pub const TILE : LineTextureMode = LineTextureMode (1i64) ; pub const STRETCH : LineTextureMode = LineTextureMode (2i64) ; } impl From < i64 > for LineTextureMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LineTextureMode > for i64 { # [inline] fn from (v : LineTextureMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Line2D { pub const LINE_CAP_BOX : i64 = 1i64 ; pub const LINE_CAP_NONE : i64 = 0i64 ; pub const LINE_CAP_ROUND : i64 = 2i64 ; pub const LINE_JOINT_BEVEL : i64 = 1i64 ; pub const LINE_JOINT_ROUND : i64 = 2i64 ; pub const LINE_JOINT_SHARP : i64 = 0i64 ; pub const LINE_TEXTURE_NONE : i64 = 0i64 ; pub const LINE_TEXTURE_STRETCH : i64 = 2i64 ; pub const LINE_TEXTURE_TILE : i64 = 1i64 ; } impl Line2D { # [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 = Line2DMethodTable :: 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 at the `position`. Appends the point at the end of the line.\nIf `at_position` is given, the point is inserted before the point number `at_position`, moving that point (and every point after) after the inserted point. If `at_position` is not given, or is an illegal value (`at_position < 0` or `at_position >= [method get_point_count]`), the point will be appended at the end of the point list.\n# Default Arguments\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_point (& self , position : Vector2 , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . add_point ; let ret = crate :: icalls :: icallptr_void_vec2_i64 (method_bind , self . this . sys () . as_ptr () , position , at_position) ; } } # [doc = "Removes all points from the line."] # [doc = ""] # [inline] pub fn clear_points (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . clear_points ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, the line's border will be anti-aliased."] # [doc = ""] # [inline] pub fn antialiased (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_antialiased ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Controls the style of the line's first point. Use [enum LineCapMode] constants."] # [doc = ""] # [inline] pub fn begin_cap_mode (& self) -> crate :: generated :: line_2d :: LineCapMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_begin_cap_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: line_2d :: LineCapMode (ret) } } # [doc = "The line's width varies with the curve. The original width is simply multiply by the value of the Curve."] # [doc = ""] # [inline] pub fn curve (& self) -> Option < Ref < crate :: generated :: curve :: Curve , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: 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 :: Curve , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The line's color. Will not be used if a gradient is set."] # [doc = ""] # [inline] pub fn default_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_default_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Controls the style of the line's last point. Use [enum LineCapMode] constants."] # [doc = ""] # [inline] pub fn end_cap_mode (& self) -> crate :: generated :: line_2d :: LineCapMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_end_cap_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: line_2d :: LineCapMode (ret) } } # [doc = "The gradient is drawn through the whole line from start to finish. The default color will not be used if a gradient is set."] # [doc = ""] # [inline] pub fn gradient (& self) -> Option < Ref < crate :: generated :: gradient :: Gradient , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_gradient ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: gradient :: Gradient , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The style for the points between the start and the end."] # [doc = ""] # [inline] pub fn joint_mode (& self) -> crate :: generated :: line_2d :: LineJointMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_joint_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: line_2d :: LineJointMode (ret) } } # [doc = "Returns the Line2D's amount of points."] # [doc = ""] # [inline] pub fn get_point_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_point_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns point `i`'s position."] # [doc = ""] # [inline] pub fn get_point_position (& self , i : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_point_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , i) ; mem :: transmute (ret) } } # [doc = "The points that form the lines. The line is drawn between every point set in this array. Points are interpreted as local vectors."] # [doc = ""] # [inline] pub fn points (& self) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_points ; let ret = crate :: icalls :: icallptr_vec2arr (method_bind , self . this . sys () . as_ptr ()) ; Vector2Array :: from_sys (ret) } } # [doc = "The smoothness of the rounded joints and caps. This is only used if a cap or joint is set as round."] # [doc = ""] # [inline] pub fn round_precision (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_round_precision ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The direction difference in radians between vector points. This value is only used if `joint mode` is set to [constant LINE_JOINT_SHARP]."] # [doc = ""] # [inline] pub fn sharp_limit (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_sharp_limit ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The texture used for the line's texture. Uses `texture_mode` for drawing style."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: 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 style to render the `texture` on the line. Use [enum LineTextureMode] constants."] # [doc = ""] # [inline] pub fn texture_mode (& self) -> crate :: generated :: line_2d :: LineTextureMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_texture_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: line_2d :: LineTextureMode (ret) } } # [doc = "The line's width."] # [doc = ""] # [inline] pub fn width (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . get_width ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes the point at index `i` from the line."] # [doc = ""] # [inline] pub fn remove_point (& self , i : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . remove_point ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , i) ; } } # [doc = "If `true`, the line's border will be anti-aliased."] # [doc = ""] # [inline] pub fn set_antialiased (& self , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_antialiased ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , antialiased) ; } } # [doc = "Controls the style of the line's first point. Use [enum LineCapMode] constants."] # [doc = ""] # [inline] pub fn set_begin_cap_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_begin_cap_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The line's width varies with the curve. The original width is simply multiply by the value of the Curve."] # [doc = ""] # [inline] pub fn set_curve (& self , curve : impl AsArg < crate :: generated :: curve :: Curve >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_curve ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , curve . as_arg_ptr ()) ; } } # [doc = "The line's color. Will not be used if a gradient is set."] # [doc = ""] # [inline] pub fn set_default_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_default_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Controls the style of the line's last point. Use [enum LineCapMode] constants."] # [doc = ""] # [inline] pub fn set_end_cap_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_end_cap_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The gradient is drawn through the whole line from start to finish. The default color will not be used if a gradient is set."] # [doc = ""] # [inline] pub fn set_gradient (& self , color : impl AsArg < crate :: generated :: gradient :: Gradient >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_gradient ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , color . as_arg_ptr ()) ; } } # [doc = "The style for the points between the start and the end."] # [doc = ""] # [inline] pub fn set_joint_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_joint_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Overwrites the position in point `i` with the supplied `position`."] # [doc = ""] # [inline] pub fn set_point_position (& self , i : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_point_position ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , i , position) ; } } # [doc = "The points that form the lines. The line is drawn between every point set in this array. Points are interpreted as local vectors."] # [doc = ""] # [inline] pub fn set_points (& self , points : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_points ; let ret = crate :: icalls :: icallptr_void_vec2arr (method_bind , self . this . sys () . as_ptr () , points) ; } } # [doc = "The smoothness of the rounded joints and caps. This is only used if a cap or joint is set as round."] # [doc = ""] # [inline] pub fn set_round_precision (& self , precision : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_round_precision ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , precision) ; } } # [doc = "The direction difference in radians between vector points. This value is only used if `joint mode` is set to [constant LINE_JOINT_SHARP]."] # [doc = ""] # [inline] pub fn set_sharp_limit (& self , limit : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_sharp_limit ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , limit) ; } } # [doc = "The texture used for the line's texture. Uses `texture_mode` for drawing style."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "The style to render the `texture` on the line. Use [enum LineTextureMode] constants."] # [doc = ""] # [inline] pub fn set_texture_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_texture_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The line's width."] # [doc = ""] # [inline] pub fn set_width (& self , width : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Line2DMethodTable :: get (get_api ()) . set_width ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , width) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Line2D { } unsafe impl GodotObject for Line2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Line2D" } } impl QueueFree for Line2D { # [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 Line2D { 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 Line2D { # [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 Line2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Line2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Line2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Line2D { } impl Instanciable for Line2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Line2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Line2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_point : * mut sys :: godot_method_bind , pub clear_points : * mut sys :: godot_method_bind , pub get_antialiased : * mut sys :: godot_method_bind , pub get_begin_cap_mode : * mut sys :: godot_method_bind , pub get_curve : * mut sys :: godot_method_bind , pub get_default_color : * mut sys :: godot_method_bind , pub get_end_cap_mode : * mut sys :: godot_method_bind , pub get_gradient : * mut sys :: godot_method_bind , pub get_joint_mode : * mut sys :: godot_method_bind , pub get_point_count : * mut sys :: godot_method_bind , pub get_point_position : * mut sys :: godot_method_bind , pub get_points : * mut sys :: godot_method_bind , pub get_round_precision : * mut sys :: godot_method_bind , pub get_sharp_limit : * mut sys :: godot_method_bind , pub get_texture : * mut sys :: godot_method_bind , pub get_texture_mode : * mut sys :: godot_method_bind , pub get_width : * mut sys :: godot_method_bind , pub remove_point : * mut sys :: godot_method_bind , pub set_antialiased : * mut sys :: godot_method_bind , pub set_begin_cap_mode : * mut sys :: godot_method_bind , pub set_curve : * mut sys :: godot_method_bind , pub set_default_color : * mut sys :: godot_method_bind , pub set_end_cap_mode : * mut sys :: godot_method_bind , pub set_gradient : * mut sys :: godot_method_bind , pub set_joint_mode : * mut sys :: godot_method_bind , pub set_point_position : * mut sys :: godot_method_bind , pub set_points : * mut sys :: godot_method_bind , pub set_round_precision : * mut sys :: godot_method_bind , pub set_sharp_limit : * mut sys :: godot_method_bind , pub set_texture : * mut sys :: godot_method_bind , pub set_texture_mode : * mut sys :: godot_method_bind , pub set_width : * mut sys :: godot_method_bind } impl Line2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Line2DMethodTable = Line2DMethodTable { class_constructor : None , add_point : 0 as * mut sys :: godot_method_bind , clear_points : 0 as * mut sys :: godot_method_bind , get_antialiased : 0 as * mut sys :: godot_method_bind , get_begin_cap_mode : 0 as * mut sys :: godot_method_bind , get_curve : 0 as * mut sys :: godot_method_bind , get_default_color : 0 as * mut sys :: godot_method_bind , get_end_cap_mode : 0 as * mut sys :: godot_method_bind , get_gradient : 0 as * mut sys :: godot_method_bind , get_joint_mode : 0 as * mut sys :: godot_method_bind , get_point_count : 0 as * mut sys :: godot_method_bind , get_point_position : 0 as * mut sys :: godot_method_bind , get_points : 0 as * mut sys :: godot_method_bind , get_round_precision : 0 as * mut sys :: godot_method_bind , get_sharp_limit : 0 as * mut sys :: godot_method_bind , get_texture : 0 as * mut sys :: godot_method_bind , get_texture_mode : 0 as * mut sys :: godot_method_bind , get_width : 0 as * mut sys :: godot_method_bind , remove_point : 0 as * mut sys :: godot_method_bind , set_antialiased : 0 as * mut sys :: godot_method_bind , set_begin_cap_mode : 0 as * mut sys :: godot_method_bind , set_curve : 0 as * mut sys :: godot_method_bind , set_default_color : 0 as * mut sys :: godot_method_bind , set_end_cap_mode : 0 as * mut sys :: godot_method_bind , set_gradient : 0 as * mut sys :: godot_method_bind , set_joint_mode : 0 as * mut sys :: godot_method_bind , set_point_position : 0 as * mut sys :: godot_method_bind , set_points : 0 as * mut sys :: godot_method_bind , set_round_precision : 0 as * mut sys :: godot_method_bind , set_sharp_limit : 0 as * mut sys :: godot_method_bind , set_texture : 0 as * mut sys :: godot_method_bind , set_texture_mode : 0 as * mut sys :: godot_method_bind , set_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 (|| { Line2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Line2D\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 . clear_points = (gd_api . godot_method_bind_get_method) (class_name , "clear_points\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_begin_cap_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_begin_cap_mode\0" . as_ptr () as * const c_char) ; table . get_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_curve\0" . as_ptr () as * const c_char) ; table . get_default_color = (gd_api . godot_method_bind_get_method) (class_name , "get_default_color\0" . as_ptr () as * const c_char) ; table . get_end_cap_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_end_cap_mode\0" . as_ptr () as * const c_char) ; table . get_gradient = (gd_api . godot_method_bind_get_method) (class_name , "get_gradient\0" . as_ptr () as * const c_char) ; table . get_joint_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_joint_mode\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_position = (gd_api . godot_method_bind_get_method) (class_name , "get_point_position\0" . as_ptr () as * const c_char) ; table . get_points = (gd_api . godot_method_bind_get_method) (class_name , "get_points\0" . as_ptr () as * const c_char) ; table . get_round_precision = (gd_api . godot_method_bind_get_method) (class_name , "get_round_precision\0" . as_ptr () as * const c_char) ; table . get_sharp_limit = (gd_api . godot_method_bind_get_method) (class_name , "get_sharp_limit\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_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_mode\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 . remove_point = (gd_api . godot_method_bind_get_method) (class_name , "remove_point\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_begin_cap_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_begin_cap_mode\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) ; table . set_default_color = (gd_api . godot_method_bind_get_method) (class_name , "set_default_color\0" . as_ptr () as * const c_char) ; table . set_end_cap_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_end_cap_mode\0" . as_ptr () as * const c_char) ; table . set_gradient = (gd_api . godot_method_bind_get_method) (class_name , "set_gradient\0" . as_ptr () as * const c_char) ; table . set_joint_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_joint_mode\0" . as_ptr () as * const c_char) ; table . set_point_position = (gd_api . godot_method_bind_get_method) (class_name , "set_point_position\0" . as_ptr () as * const c_char) ; table . set_points = (gd_api . godot_method_bind_get_method) (class_name , "set_points\0" . as_ptr () as * const c_char) ; table . set_round_precision = (gd_api . godot_method_bind_get_method) (class_name , "set_round_precision\0" . as_ptr () as * const c_char) ; table . set_sharp_limit = (gd_api . godot_method_bind_get_method) (class_name , "set_sharp_limit\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_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_mode\0" . as_ptr () as * const c_char) ; table . set_width = (gd_api . godot_method_bind_get_method) (class_name , "set_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-60c8dbcfaf0f3dfc/out/generated.rs:562:6878 [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 StreamPeerBuffer` inherits `StreamPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_streampeerbuffer.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\nStreamPeerBuffer 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 StreamPeerBuffer { this : RawObject < Self > , } impl StreamPeerBuffer { # [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 = StreamPeerBufferMethodTable :: 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 = StreamPeerBufferMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn duplicate (& self) -> Option < Ref < crate :: generated :: stream_peer_buffer :: StreamPeerBuffer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerBufferMethodTable :: get (get_api ()) . duplicate ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: stream_peer_buffer :: StreamPeerBuffer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn data_array (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerBufferMethodTable :: get (get_api ()) . get_data_array ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_position (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerBufferMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerBufferMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn resize (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerBufferMethodTable :: get (get_api ()) . resize ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn seek (& self , position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerBufferMethodTable :: get (get_api ()) . seek ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_data_array (& self , data : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerBufferMethodTable :: get (get_api ()) . set_data_array ; let ret = crate :: icalls :: icallptr_void_bytearr (method_bind , self . this . sys () . as_ptr () , data) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for StreamPeerBuffer { } unsafe impl GodotObject for StreamPeerBuffer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StreamPeerBuffer" } } impl std :: ops :: Deref for StreamPeerBuffer { 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 StreamPeerBuffer { # [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 StreamPeerBuffer { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StreamPeerBuffer { } unsafe impl SubClass < crate :: generated :: object :: Object > for StreamPeerBuffer { } impl Instanciable for StreamPeerBuffer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StreamPeerBuffer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StreamPeerBufferMethodTable { pub class_constructor : sys :: godot_class_constructor , pub clear : * mut sys :: godot_method_bind , pub duplicate : * mut sys :: godot_method_bind , pub get_data_array : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub get_size : * mut sys :: godot_method_bind , pub resize : * mut sys :: godot_method_bind , pub seek : * mut sys :: godot_method_bind , pub set_data_array : * mut sys :: godot_method_bind } impl StreamPeerBufferMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StreamPeerBufferMethodTable = StreamPeerBufferMethodTable { class_constructor : None , clear : 0 as * mut sys :: godot_method_bind , duplicate : 0 as * mut sys :: godot_method_bind , get_data_array : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , get_size : 0 as * mut sys :: godot_method_bind , resize : 0 as * mut sys :: godot_method_bind , seek : 0 as * mut sys :: godot_method_bind , set_data_array : 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 (|| { StreamPeerBufferMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StreamPeerBuffer\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 . duplicate = (gd_api . godot_method_bind_get_method) (class_name , "duplicate\0" . as_ptr () as * const c_char) ; table . get_data_array = (gd_api . godot_method_bind_get_method) (class_name , "get_data_array\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_size = (gd_api . godot_method_bind_get_method) (class_name , "get_size\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 . seek = (gd_api . godot_method_bind_get_method) (class_name , "seek\0" . as_ptr () as * const c_char) ; table . set_data_array = (gd_api . godot_method_bind_get_method) (class_name , "set_data_array\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-60c8dbcfaf0f3dfc/out/generated.rs:568:3167 [INFO] [stdout] | [INFO] [stdout] 568 | ...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] 568 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:574:3839 [INFO] [stdout] | [INFO] [stdout] 574 | ...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] 574 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:580:14839 [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 = "`core class SkeletonIK` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_skeletonik.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`SkeletonIK` 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\nSkeletonIK 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 SkeletonIK { this : RawObject < Self > , } impl SkeletonIK { # [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 = SkeletonIKMethodTable :: 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 interpolation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_interpolation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn magnet_position (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_magnet_position ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn max_iterations (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_max_iterations ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn min_distance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_min_distance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_parent_skeleton (& self) -> Option < Ref < crate :: generated :: skeleton :: Skeleton , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_parent_skeleton ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: skeleton :: Skeleton , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn root_bone (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_root_bone ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn target_node (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_target_node ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn target_transform (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_target_transform ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn tip_bone (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . get_tip_bone ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_override_tip_basis (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . is_override_tip_basis ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_running (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . is_running ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_using_magnet (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . is_using_magnet ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_interpolation (& self , interpolation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_interpolation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , interpolation) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_magnet_position (& self , local_position : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_magnet_position ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , local_position) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_max_iterations (& self , iterations : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_max_iterations ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , iterations) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_min_distance (& self , min_distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_min_distance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , min_distance) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_override_tip_basis (& self , _override : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_override_tip_basis ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , _override) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_root_bone (& self , root_bone : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_root_bone ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , root_bone . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_target_node (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_target_node ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_target_transform (& self , target : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_target_transform ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , target) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_tip_bone (& self , tip_bone : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_tip_bone ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , tip_bone . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_use_magnet (& self , _use : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . set_use_magnet ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , _use) ; } } # [doc = "\n# Default Arguments\n* `one_time` - `false`"] # [doc = ""] # [inline] pub fn start (& self , one_time : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: get (get_api ()) . start ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , one_time) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn stop (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkeletonIKMethodTable :: 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 SkeletonIK { } unsafe impl GodotObject for SkeletonIK { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "SkeletonIK" } } impl QueueFree for SkeletonIK { # [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 SkeletonIK { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SkeletonIK { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for SkeletonIK { } unsafe impl SubClass < crate :: generated :: object :: Object > for SkeletonIK { } impl Instanciable for SkeletonIK { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SkeletonIK :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SkeletonIKMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_interpolation : * mut sys :: godot_method_bind , pub get_magnet_position : * mut sys :: godot_method_bind , pub get_max_iterations : * mut sys :: godot_method_bind , pub get_min_distance : * mut sys :: godot_method_bind , pub get_parent_skeleton : * mut sys :: godot_method_bind , pub get_root_bone : * mut sys :: godot_method_bind , pub get_target_node : * mut sys :: godot_method_bind , pub get_target_transform : * mut sys :: godot_method_bind , pub get_tip_bone : * mut sys :: godot_method_bind , pub is_override_tip_basis : * mut sys :: godot_method_bind , pub is_running : * mut sys :: godot_method_bind , pub is_using_magnet : * mut sys :: godot_method_bind , pub set_interpolation : * mut sys :: godot_method_bind , pub set_magnet_position : * mut sys :: godot_method_bind , pub set_max_iterations : * mut sys :: godot_method_bind , pub set_min_distance : * mut sys :: godot_method_bind , pub set_override_tip_basis : * mut sys :: godot_method_bind , pub set_root_bone : * mut sys :: godot_method_bind , pub set_target_node : * mut sys :: godot_method_bind , pub set_target_transform : * mut sys :: godot_method_bind , pub set_tip_bone : * mut sys :: godot_method_bind , pub set_use_magnet : * mut sys :: godot_method_bind , pub start : * mut sys :: godot_method_bind , pub stop : * mut sys :: godot_method_bind } impl SkeletonIKMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SkeletonIKMethodTable = SkeletonIKMethodTable { class_constructor : None , get_interpolation : 0 as * mut sys :: godot_method_bind , get_magnet_position : 0 as * mut sys :: godot_method_bind , get_max_iterations : 0 as * mut sys :: godot_method_bind , get_min_distance : 0 as * mut sys :: godot_method_bind , get_parent_skeleton : 0 as * mut sys :: godot_method_bind , get_root_bone : 0 as * mut sys :: godot_method_bind , get_target_node : 0 as * mut sys :: godot_method_bind , get_target_transform : 0 as * mut sys :: godot_method_bind , get_tip_bone : 0 as * mut sys :: godot_method_bind , is_override_tip_basis : 0 as * mut sys :: godot_method_bind , is_running : 0 as * mut sys :: godot_method_bind , is_using_magnet : 0 as * mut sys :: godot_method_bind , set_interpolation : 0 as * mut sys :: godot_method_bind , set_magnet_position : 0 as * mut sys :: godot_method_bind , set_max_iterations : 0 as * mut sys :: godot_method_bind , set_min_distance : 0 as * mut sys :: godot_method_bind , set_override_tip_basis : 0 as * mut sys :: godot_method_bind , set_root_bone : 0 as * mut sys :: godot_method_bind , set_target_node : 0 as * mut sys :: godot_method_bind , set_target_transform : 0 as * mut sys :: godot_method_bind , set_tip_bone : 0 as * mut sys :: godot_method_bind , set_use_magnet : 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 (|| { SkeletonIKMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SkeletonIK\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_interpolation = (gd_api . godot_method_bind_get_method) (class_name , "get_interpolation\0" . as_ptr () as * const c_char) ; table . get_magnet_position = (gd_api . godot_method_bind_get_method) (class_name , "get_magnet_position\0" . as_ptr () as * const c_char) ; table . get_max_iterations = (gd_api . godot_method_bind_get_method) (class_name , "get_max_iterations\0" . as_ptr () as * const c_char) ; table . get_min_distance = (gd_api . godot_method_bind_get_method) (class_name , "get_min_distance\0" . as_ptr () as * const c_char) ; table . get_parent_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "get_parent_skeleton\0" . as_ptr () as * const c_char) ; table . get_root_bone = (gd_api . godot_method_bind_get_method) (class_name , "get_root_bone\0" . as_ptr () as * const c_char) ; table . get_target_node = (gd_api . godot_method_bind_get_method) (class_name , "get_target_node\0" . as_ptr () as * const c_char) ; table . get_target_transform = (gd_api . godot_method_bind_get_method) (class_name , "get_target_transform\0" . as_ptr () as * const c_char) ; table . get_tip_bone = (gd_api . godot_method_bind_get_method) (class_name , "get_tip_bone\0" . as_ptr () as * const c_char) ; table . is_override_tip_basis = (gd_api . godot_method_bind_get_method) (class_name , "is_override_tip_basis\0" . as_ptr () as * const c_char) ; table . is_running = (gd_api . godot_method_bind_get_method) (class_name , "is_running\0" . as_ptr () as * const c_char) ; table . is_using_magnet = (gd_api . godot_method_bind_get_method) (class_name , "is_using_magnet\0" . as_ptr () as * const c_char) ; table . set_interpolation = (gd_api . godot_method_bind_get_method) (class_name , "set_interpolation\0" . as_ptr () as * const c_char) ; table . set_magnet_position = (gd_api . godot_method_bind_get_method) (class_name , "set_magnet_position\0" . as_ptr () as * const c_char) ; table . set_max_iterations = (gd_api . godot_method_bind_get_method) (class_name , "set_max_iterations\0" . as_ptr () as * const c_char) ; table . set_min_distance = (gd_api . godot_method_bind_get_method) (class_name , "set_min_distance\0" . as_ptr () as * const c_char) ; table . set_override_tip_basis = (gd_api . godot_method_bind_get_method) (class_name , "set_override_tip_basis\0" . as_ptr () as * const c_char) ; table . set_root_bone = (gd_api . godot_method_bind_get_method) (class_name , "set_root_bone\0" . as_ptr () as * const c_char) ; table . set_target_node = (gd_api . godot_method_bind_get_method) (class_name , "set_target_node\0" . as_ptr () as * const c_char) ; table . set_target_transform = (gd_api . godot_method_bind_get_method) (class_name , "set_target_transform\0" . as_ptr () as * const c_char) ; table . set_tip_bone = (gd_api . godot_method_bind_get_method) (class_name , "set_tip_bone\0" . as_ptr () as * const c_char) ; table . set_use_magnet = (gd_api . godot_method_bind_get_method) (class_name , "set_use_magnet\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-60c8dbcfaf0f3dfc/out/generated.rs:586:6196 [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 singleton class CameraServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_cameraserver.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\nCameraServer 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 CameraServer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct FeedImage (pub i64) ; impl FeedImage { pub const RGBA_IMAGE : FeedImage = FeedImage (0i64) ; pub const Y_IMAGE : FeedImage = FeedImage (0i64) ; pub const YCBCR_IMAGE : FeedImage = FeedImage (0i64) ; pub const CBCR_IMAGE : FeedImage = FeedImage (1i64) ; } impl From < i64 > for FeedImage { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < FeedImage > for i64 { # [inline] fn from (v : FeedImage) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl CameraServer { pub const FEED_CBCR_IMAGE : i64 = 1i64 ; pub const FEED_RGBA_IMAGE : i64 = 0i64 ; pub const FEED_YCBCR_IMAGE : i64 = 0i64 ; pub const FEED_Y_IMAGE : i64 = 0i64 ; } impl CameraServer { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("CameraServer\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 camera feed to the camera server."] # [doc = ""] # [inline] pub fn add_feed (& self , feed : impl AsArg < crate :: generated :: camera_feed :: CameraFeed >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CameraServerMethodTable :: get (get_api ()) . add_feed ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , feed . as_arg_ptr ()) ; } } # [doc = "Returns an array of [CameraFeed]s."] # [doc = ""] # [inline] pub fn feeds (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = CameraServerMethodTable :: get (get_api ()) . feeds ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the [CameraFeed] with this id."] # [doc = ""] # [inline] pub fn get_feed (& self , index : i64) -> Option < Ref < crate :: generated :: camera_feed :: CameraFeed , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CameraServerMethodTable :: get (get_api ()) . get_feed ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , index) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: camera_feed :: CameraFeed , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of [CameraFeed]s registered."] # [doc = ""] # [inline] pub fn get_feed_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CameraServerMethodTable :: get (get_api ()) . get_feed_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes a [CameraFeed]."] # [doc = ""] # [inline] pub fn remove_feed (& self , feed : impl AsArg < crate :: generated :: camera_feed :: CameraFeed >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CameraServerMethodTable :: get (get_api ()) . remove_feed ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , feed . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CameraServer { } unsafe impl GodotObject for CameraServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CameraServer" } } impl std :: ops :: Deref for CameraServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CameraServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for CameraServer { } unsafe impl Send for CameraServer { } unsafe impl Sync for CameraServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CameraServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_feed : * mut sys :: godot_method_bind , pub feeds : * mut sys :: godot_method_bind , pub get_feed : * mut sys :: godot_method_bind , pub get_feed_count : * mut sys :: godot_method_bind , pub remove_feed : * mut sys :: godot_method_bind } impl CameraServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CameraServerMethodTable = CameraServerMethodTable { class_constructor : None , add_feed : 0 as * mut sys :: godot_method_bind , feeds : 0 as * mut sys :: godot_method_bind , get_feed : 0 as * mut sys :: godot_method_bind , get_feed_count : 0 as * mut sys :: godot_method_bind , remove_feed : 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 (|| { CameraServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CameraServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_feed = (gd_api . godot_method_bind_get_method) (class_name , "add_feed\0" . as_ptr () as * const c_char) ; table . feeds = (gd_api . godot_method_bind_get_method) (class_name , "feeds\0" . as_ptr () as * const c_char) ; table . get_feed = (gd_api . godot_method_bind_get_method) (class_name , "get_feed\0" . as_ptr () as * const c_char) ; table . get_feed_count = (gd_api . godot_method_bind_get_method) (class_name , "get_feed_count\0" . as_ptr () as * const c_char) ; table . remove_feed = (gd_api . godot_method_bind_get_method) (class_name , "remove_feed\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-60c8dbcfaf0f3dfc/out/generated.rs:592:4298 [INFO] [stdout] | [INFO] [stdout] 592 | ...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] 592 | # [doc = "`core class ARVRCamera` inherits `Camera` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_arvrcamera.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`ARVRCamera` 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\nARVRCamera 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 ARVRCamera { this : RawObject < Self > , } impl ARVRCamera { # [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 = ARVRCameraMethodTable :: 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 ARVRCamera { } unsafe impl GodotObject for ARVRCamera { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ARVRCamera" } } impl QueueFree for ARVRCamera { # [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 ARVRCamera { type Target = crate :: generated :: camera :: Camera ; # [inline] fn deref (& self) -> & crate :: generated :: camera :: Camera { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ARVRCamera { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: camera :: Camera { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: camera :: Camera > for ARVRCamera { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ARVRCamera { } unsafe impl SubClass < crate :: generated :: node :: Node > for ARVRCamera { } unsafe impl SubClass < crate :: generated :: object :: Object > for ARVRCamera { } impl Instanciable for ARVRCamera { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ARVRCamera :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ARVRCameraMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl ARVRCameraMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ARVRCameraMethodTable = ARVRCameraMethodTable { 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 (|| { ARVRCameraMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ARVRCamera\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-60c8dbcfaf0f3dfc/out/generated.rs:598:10854 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:604:18993 [INFO] [stdout] | [INFO] [stdout] 604 | ... : 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] 604 | # [doc = "`core class AnimationNodeBlendSpace2D` inherits `AnimationRootNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeblendspace2d.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\nAnimationNodeBlendSpace2D 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 AnimationNodeBlendSpace2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BlendMode (pub i64) ; impl BlendMode { pub const INTERPOLATED : BlendMode = BlendMode (0i64) ; pub const DISCRETE : BlendMode = BlendMode (1i64) ; pub const DISCRETE_CARRY : BlendMode = BlendMode (2i64) ; } 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 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationNodeBlendSpace2D { pub const BLEND_MODE_DISCRETE : i64 = 1i64 ; pub const BLEND_MODE_DISCRETE_CARRY : i64 = 2i64 ; pub const BLEND_MODE_INTERPOLATED : i64 = 0i64 ; } impl AnimationNodeBlendSpace2D { # [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 = AnimationNodeBlendSpace2DMethodTable :: 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 new point that represents a `node` at the position set by `pos`. You can insert it at a specific index using the `at_index` argument. If you use the default value for `at_index`, the point is inserted at the end of the blend points array.\n# Default Arguments\n* `at_index` - `-1`"] # [doc = ""] # [inline] pub fn add_blend_point (& self , node : impl AsArg < crate :: generated :: animation_root_node :: AnimationRootNode > , pos : Vector2 , at_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . add_blend_point ; let ret = crate :: icalls :: icallptr_void_obj_vec2_i64 (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr () , pos , at_index) ; } } # [doc = "Creates a new triangle using three points `x`, `y`, and `z`. Triangles can overlap. You can insert the triangle at a specific index using the `at_index` argument. If you use the default value for `at_index`, the point is inserted at the end of the blend points array.\n# Default Arguments\n* `at_index` - `-1`"] # [doc = ""] # [inline] pub fn add_triangle (& self , x : i64 , y : i64 , z : i64 , at_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . add_triangle ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , x , y , z , at_index) ; } } # [doc = "If `true`, the blend space is triangulated automatically. The mesh updates every time you add or remove points with [method add_blend_point] and [method remove_blend_point]."] # [doc = ""] # [inline] pub fn auto_triangles (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_auto_triangles ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Controls the interpolation between animations. See [enum BlendMode] constants."] # [doc = ""] # [inline] pub fn blend_mode (& self) -> crate :: generated :: animation_node_blend_space_2d :: BlendMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_blend_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: animation_node_blend_space_2d :: BlendMode (ret) } } # [doc = "Returns the number of points in the blend space."] # [doc = ""] # [inline] pub fn get_blend_point_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_blend_point_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the [AnimationRootNode] referenced by the point at index `point`."] # [doc = ""] # [inline] pub fn blend_point_node (& self , point : i64) -> Option < Ref < crate :: generated :: animation_root_node :: AnimationRootNode , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_blend_point_node ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , point) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: animation_root_node :: AnimationRootNode , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the position of the point at index `point`."] # [doc = ""] # [inline] pub fn blend_point_position (& self , point : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_blend_point_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , point) ; mem :: transmute (ret) } } # [doc = "The blend space's X and Y axes' upper limit for the points' position. See [method add_blend_point]."] # [doc = ""] # [inline] pub fn max_space (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_max_space ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The blend space's X and Y axes' lower limit for the points' position. See [method add_blend_point]."] # [doc = ""] # [inline] pub fn min_space (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_min_space ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Position increment to snap to when moving a point."] # [doc = ""] # [inline] pub fn snap (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_snap ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the number of triangles in the blend space."] # [doc = ""] # [inline] pub fn get_triangle_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_triangle_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the position of the point at index `point` in the triangle of index `triangle`."] # [doc = ""] # [inline] pub fn get_triangle_point (& self , triangle : i64 , point : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_triangle_point ; let ret = crate :: icalls :: icallptr_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , triangle , point) ; ret as _ } } # [doc = "Name of the blend space's X axis."] # [doc = ""] # [inline] pub fn x_label (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_x_label ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Name of the blend space's Y axis."] # [doc = ""] # [inline] pub fn y_label (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . get_y_label ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Removes the point at index `point` from the blend space."] # [doc = ""] # [inline] pub fn remove_blend_point (& self , point : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . remove_blend_point ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , point) ; } } # [doc = "Removes the triangle at index `triangle` from the blend space."] # [doc = ""] # [inline] pub fn remove_triangle (& self , triangle : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . remove_triangle ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , triangle) ; } } # [doc = "If `true`, the blend space is triangulated automatically. The mesh updates every time you add or remove points with [method add_blend_point] and [method remove_blend_point]."] # [doc = ""] # [inline] pub fn set_auto_triangles (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_auto_triangles ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Controls the interpolation between animations. See [enum BlendMode] constants."] # [doc = ""] # [inline] pub fn set_blend_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_blend_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Changes the [AnimationNode] referenced by the point at index `point`."] # [doc = ""] # [inline] pub fn set_blend_point_node (& self , point : i64 , node : impl AsArg < crate :: generated :: animation_root_node :: AnimationRootNode >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_blend_point_node ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , point , node . as_arg_ptr ()) ; } } # [doc = "Updates the position of the point at index `point` on the blend axis."] # [doc = ""] # [inline] pub fn set_blend_point_position (& self , point : i64 , pos : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_blend_point_position ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , point , pos) ; } } # [doc = "The blend space's X and Y axes' upper limit for the points' position. See [method add_blend_point]."] # [doc = ""] # [inline] pub fn set_max_space (& self , max_space : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_max_space ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , max_space) ; } } # [doc = "The blend space's X and Y axes' lower limit for the points' position. See [method add_blend_point]."] # [doc = ""] # [inline] pub fn set_min_space (& self , min_space : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_min_space ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , min_space) ; } } # [doc = "Position increment to snap to when moving a point."] # [doc = ""] # [inline] pub fn set_snap (& self , snap : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_snap ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , snap) ; } } # [doc = "Name of the blend space's X axis."] # [doc = ""] # [inline] pub fn set_x_label (& self , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_x_label ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , text . into ()) ; } } # [doc = "Name of the blend space's Y axis."] # [doc = ""] # [inline] pub fn set_y_label (& self , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendSpace2DMethodTable :: get (get_api ()) . set_y_label ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , text . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeBlendSpace2D { } unsafe impl GodotObject for AnimationNodeBlendSpace2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeBlendSpace2D" } } impl std :: ops :: Deref for AnimationNodeBlendSpace2D { 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 AnimationNodeBlendSpace2D { # [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 AnimationNodeBlendSpace2D { } unsafe impl SubClass < crate :: generated :: animation_node :: AnimationNode > for AnimationNodeBlendSpace2D { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeBlendSpace2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeBlendSpace2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeBlendSpace2D { } impl Instanciable for AnimationNodeBlendSpace2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeBlendSpace2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeBlendSpace2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_blend_point : * mut sys :: godot_method_bind , pub add_triangle : * mut sys :: godot_method_bind , pub get_auto_triangles : * mut sys :: godot_method_bind , pub get_blend_mode : * mut sys :: godot_method_bind , pub get_blend_point_count : * mut sys :: godot_method_bind , pub get_blend_point_node : * mut sys :: godot_method_bind , pub get_blend_point_position : * mut sys :: godot_method_bind , pub get_max_space : * mut sys :: godot_method_bind , pub get_min_space : * mut sys :: godot_method_bind , pub get_snap : * mut sys :: godot_method_bind , pub get_triangle_count : * mut sys :: godot_method_bind , pub get_triangle_point : * mut sys :: godot_method_bind , pub get_x_label : * mut sys :: godot_method_bind , pub get_y_label : * mut sys :: godot_method_bind , pub remove_blend_point : * mut sys :: godot_method_bind , pub remove_triangle : * mut sys :: godot_method_bind , pub set_auto_triangles : * mut sys :: godot_method_bind , pub set_blend_mode : * mut sys :: godot_method_bind , pub set_blend_point_node : * mut sys :: godot_method_bind , pub set_blend_point_position : * mut sys :: godot_method_bind , pub set_max_space : * mut sys :: godot_method_bind , pub set_min_space : * mut sys :: godot_method_bind , pub set_snap : * mut sys :: godot_method_bind , pub set_x_label : * mut sys :: godot_method_bind , pub set_y_label : * mut sys :: godot_method_bind } impl AnimationNodeBlendSpace2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeBlendSpace2DMethodTable = AnimationNodeBlendSpace2DMethodTable { class_constructor : None , add_blend_point : 0 as * mut sys :: godot_method_bind , add_triangle : 0 as * mut sys :: godot_method_bind , get_auto_triangles : 0 as * mut sys :: godot_method_bind , get_blend_mode : 0 as * mut sys :: godot_method_bind , get_blend_point_count : 0 as * mut sys :: godot_method_bind , get_blend_point_node : 0 as * mut sys :: godot_method_bind , get_blend_point_position : 0 as * mut sys :: godot_method_bind , get_max_space : 0 as * mut sys :: godot_method_bind , get_min_space : 0 as * mut sys :: godot_method_bind , get_snap : 0 as * mut sys :: godot_method_bind , get_triangle_count : 0 as * mut sys :: godot_method_bind , get_triangle_point : 0 as * mut sys :: godot_method_bind , get_x_label : 0 as * mut sys :: godot_method_bind , get_y_label : 0 as * mut sys :: godot_method_bind , remove_blend_point : 0 as * mut sys :: godot_method_bind , remove_triangle : 0 as * mut sys :: godot_method_bind , set_auto_triangles : 0 as * mut sys :: godot_method_bind , set_blend_mode : 0 as * mut sys :: godot_method_bind , set_blend_point_node : 0 as * mut sys :: godot_method_bind , set_blend_point_position : 0 as * mut sys :: godot_method_bind , set_max_space : 0 as * mut sys :: godot_method_bind , set_min_space : 0 as * mut sys :: godot_method_bind , set_snap : 0 as * mut sys :: godot_method_bind , set_x_label : 0 as * mut sys :: godot_method_bind , set_y_label : 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 (|| { AnimationNodeBlendSpace2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeBlendSpace2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_blend_point = (gd_api . godot_method_bind_get_method) (class_name , "add_blend_point\0" . as_ptr () as * const c_char) ; table . add_triangle = (gd_api . godot_method_bind_get_method) (class_name , "add_triangle\0" . as_ptr () as * const c_char) ; table . get_auto_triangles = (gd_api . godot_method_bind_get_method) (class_name , "get_auto_triangles\0" . as_ptr () as * const c_char) ; 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_blend_point_count = (gd_api . godot_method_bind_get_method) (class_name , "get_blend_point_count\0" . as_ptr () as * const c_char) ; table . get_blend_point_node = (gd_api . godot_method_bind_get_method) (class_name , "get_blend_point_node\0" . as_ptr () as * const c_char) ; table . get_blend_point_position = (gd_api . godot_method_bind_get_method) (class_name , "get_blend_point_position\0" . as_ptr () as * const c_char) ; table . get_max_space = (gd_api . godot_method_bind_get_method) (class_name , "get_max_space\0" . as_ptr () as * const c_char) ; table . get_min_space = (gd_api . godot_method_bind_get_method) (class_name , "get_min_space\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 . get_triangle_count = (gd_api . godot_method_bind_get_method) (class_name , "get_triangle_count\0" . as_ptr () as * const c_char) ; table . get_triangle_point = (gd_api . godot_method_bind_get_method) (class_name , "get_triangle_point\0" . as_ptr () as * const c_char) ; table . get_x_label = (gd_api . godot_method_bind_get_method) (class_name , "get_x_label\0" . as_ptr () as * const c_char) ; table . get_y_label = (gd_api . godot_method_bind_get_method) (class_name , "get_y_label\0" . as_ptr () as * const c_char) ; table . remove_blend_point = (gd_api . godot_method_bind_get_method) (class_name , "remove_blend_point\0" . as_ptr () as * const c_char) ; table . remove_triangle = (gd_api . godot_method_bind_get_method) (class_name , "remove_triangle\0" . as_ptr () as * const c_char) ; table . set_auto_triangles = (gd_api . godot_method_bind_get_method) (class_name , "set_auto_triangles\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_blend_point_node = (gd_api . godot_method_bind_get_method) (class_name , "set_blend_point_node\0" . as_ptr () as * const c_char) ; table . set_blend_point_position = (gd_api . godot_method_bind_get_method) (class_name , "set_blend_point_position\0" . as_ptr () as * const c_char) ; table . set_max_space = (gd_api . godot_method_bind_get_method) (class_name , "set_max_space\0" . as_ptr () as * const c_char) ; table . set_min_space = (gd_api . godot_method_bind_get_method) (class_name , "set_min_space\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_x_label = (gd_api . godot_method_bind_get_method) (class_name , "set_x_label\0" . as_ptr () as * const c_char) ; table . set_y_label = (gd_api . godot_method_bind_get_method) (class_name , "set_y_label\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-60c8dbcfaf0f3dfc/out/generated.rs:610:6499 [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 = "`core class PacketPeerStream` inherits `PacketPeer` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_packetpeerstream.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\nPacketPeerStream 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 PacketPeerStream { this : RawObject < Self > , } impl PacketPeerStream { # [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 = PacketPeerStreamMethodTable :: 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 input_buffer_max_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerStreamMethodTable :: get (get_api ()) . get_input_buffer_max_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn output_buffer_max_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerStreamMethodTable :: get (get_api ()) . get_output_buffer_max_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The wrapped [StreamPeer] object."] # [doc = ""] # [inline] pub fn stream_peer (& self) -> Option < Ref < crate :: generated :: stream_peer :: StreamPeer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerStreamMethodTable :: get (get_api ()) . get_stream_peer ; 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 = ""] # [doc = ""] # [inline] pub fn set_input_buffer_max_size (& self , max_size_bytes : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerStreamMethodTable :: get (get_api ()) . set_input_buffer_max_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , max_size_bytes) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_output_buffer_max_size (& self , max_size_bytes : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerStreamMethodTable :: get (get_api ()) . set_output_buffer_max_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , max_size_bytes) ; } } # [doc = "The wrapped [StreamPeer] object."] # [doc = ""] # [inline] pub fn set_stream_peer (& self , peer : impl AsArg < crate :: generated :: stream_peer :: StreamPeer >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PacketPeerStreamMethodTable :: get (get_api ()) . set_stream_peer ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , peer . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PacketPeerStream { } unsafe impl GodotObject for PacketPeerStream { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PacketPeerStream" } } impl std :: ops :: Deref for PacketPeerStream { 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 PacketPeerStream { # [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 PacketPeerStream { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PacketPeerStream { } unsafe impl SubClass < crate :: generated :: object :: Object > for PacketPeerStream { } impl Instanciable for PacketPeerStream { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PacketPeerStream :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PacketPeerStreamMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_input_buffer_max_size : * mut sys :: godot_method_bind , pub get_output_buffer_max_size : * mut sys :: godot_method_bind , pub get_stream_peer : * mut sys :: godot_method_bind , pub set_input_buffer_max_size : * mut sys :: godot_method_bind , pub set_output_buffer_max_size : * mut sys :: godot_method_bind , pub set_stream_peer : * mut sys :: godot_method_bind } impl PacketPeerStreamMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PacketPeerStreamMethodTable = PacketPeerStreamMethodTable { class_constructor : None , get_input_buffer_max_size : 0 as * mut sys :: godot_method_bind , get_output_buffer_max_size : 0 as * mut sys :: godot_method_bind , get_stream_peer : 0 as * mut sys :: godot_method_bind , set_input_buffer_max_size : 0 as * mut sys :: godot_method_bind , set_output_buffer_max_size : 0 as * mut sys :: godot_method_bind , set_stream_peer : 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 (|| { PacketPeerStreamMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PacketPeerStream\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_input_buffer_max_size = (gd_api . godot_method_bind_get_method) (class_name , "get_input_buffer_max_size\0" . as_ptr () as * const c_char) ; table . get_output_buffer_max_size = (gd_api . godot_method_bind_get_method) (class_name , "get_output_buffer_max_size\0" . as_ptr () as * const c_char) ; table . get_stream_peer = (gd_api . godot_method_bind_get_method) (class_name , "get_stream_peer\0" . as_ptr () as * const c_char) ; table . set_input_buffer_max_size = (gd_api . godot_method_bind_get_method) (class_name , "set_input_buffer_max_size\0" . as_ptr () as * const c_char) ; table . set_output_buffer_max_size = (gd_api . godot_method_bind_get_method) (class_name , "set_output_buffer_max_size\0" . as_ptr () as * const c_char) ; table . set_stream_peer = (gd_api . godot_method_bind_get_method) (class_name , "set_stream_peer\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-60c8dbcfaf0f3dfc/out/generated.rs:616:6281 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:622:13904 [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 AnimatedSprite` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animatedsprite.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`AnimatedSprite` 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\nAnimatedSprite 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 AnimatedSprite { this : RawObject < Self > , } impl AnimatedSprite { # [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 = AnimatedSpriteMethodTable :: 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 current animation from the `frames` resource. If this value changes, the `frame` counter is reset."] # [doc = ""] # [inline] pub fn animation (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . get_animation ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The displayed animation frame's index."] # [doc = ""] # [inline] pub fn frame (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . get_frame ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The texture's drawing offset."] # [doc = ""] # [inline] pub fn offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The animation speed is multiplied by this value."] # [doc = ""] # [inline] pub fn speed_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . get_speed_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [SpriteFrames] resource containing the animation(s)."] # [doc = ""] # [inline] pub fn sprite_frames (& self) -> Option < Ref < crate :: generated :: sprite_frames :: SpriteFrames , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . get_sprite_frames ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: sprite_frames :: SpriteFrames , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, texture will be centered."] # [doc = ""] # [inline] pub fn is_centered (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . is_centered ; 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 = AnimatedSpriteMethodTable :: 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 = AnimatedSpriteMethodTable :: get (get_api ()) . is_flipped_v ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if an animation is currently being played."] # [doc = ""] # [inline] pub fn is_playing (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . is_playing ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Plays the animation named `anim`. If no `anim` is provided, the current animation is played. If `backwards` is `true`, the animation will be played in reverse.\n# Default Arguments\n* `anim` - `\"\"`\n* `backwards` - `false`"] # [doc = ""] # [inline] pub fn play (& self , anim : impl Into < GodotString > , backwards : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . play ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , anim . into () , backwards) ; } } # [doc = "The current animation from the `frames` resource. If this value changes, the `frame` counter is reset."] # [doc = ""] # [inline] pub fn set_animation (& self , animation : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_animation ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , animation . into ()) ; } } # [doc = "If `true`, texture will be centered."] # [doc = ""] # [inline] pub fn set_centered (& self , centered : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_centered ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , centered) ; } } # [doc = "If `true`, texture is flipped horizontally."] # [doc = ""] # [inline] pub fn set_flip_h (& self , flip_h : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_flip_h ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , flip_h) ; } } # [doc = "If `true`, texture is flipped vertically."] # [doc = ""] # [inline] pub fn set_flip_v (& self , flip_v : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_flip_v ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , flip_v) ; } } # [doc = "The displayed animation frame's index."] # [doc = ""] # [inline] pub fn set_frame (& self , frame : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_frame ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , frame) ; } } # [doc = "The texture's drawing offset."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The animation speed is multiplied by this value."] # [doc = ""] # [inline] pub fn set_speed_scale (& self , speed_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_speed_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , speed_scale) ; } } # [doc = "The [SpriteFrames] resource containing the animation(s)."] # [doc = ""] # [inline] pub fn set_sprite_frames (& self , sprite_frames : impl AsArg < crate :: generated :: sprite_frames :: SpriteFrames >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: get (get_api ()) . set_sprite_frames ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , sprite_frames . as_arg_ptr ()) ; } } # [doc = "Stops the current animation (does not reset the frame counter)."] # [doc = ""] # [inline] pub fn stop (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimatedSpriteMethodTable :: 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 AnimatedSprite { } unsafe impl GodotObject for AnimatedSprite { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "AnimatedSprite" } } impl QueueFree for AnimatedSprite { # [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 AnimatedSprite { 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 AnimatedSprite { # [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 AnimatedSprite { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for AnimatedSprite { } unsafe impl SubClass < crate :: generated :: node :: Node > for AnimatedSprite { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimatedSprite { } impl Instanciable for AnimatedSprite { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimatedSprite :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimatedSpriteMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_animation : * mut sys :: godot_method_bind , pub get_frame : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_speed_scale : * mut sys :: godot_method_bind , pub get_sprite_frames : * mut sys :: godot_method_bind , pub is_centered : * mut sys :: godot_method_bind , pub is_flipped_h : * mut sys :: godot_method_bind , pub is_flipped_v : * mut sys :: godot_method_bind , pub is_playing : * mut sys :: godot_method_bind , pub play : * mut sys :: godot_method_bind , pub set_animation : * mut sys :: godot_method_bind , pub set_centered : * 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_frame : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_speed_scale : * mut sys :: godot_method_bind , pub set_sprite_frames : * mut sys :: godot_method_bind , pub stop : * mut sys :: godot_method_bind } impl AnimatedSpriteMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimatedSpriteMethodTable = AnimatedSpriteMethodTable { class_constructor : None , get_animation : 0 as * mut sys :: godot_method_bind , get_frame : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_speed_scale : 0 as * mut sys :: godot_method_bind , get_sprite_frames : 0 as * mut sys :: godot_method_bind , is_centered : 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 , is_playing : 0 as * mut sys :: godot_method_bind , play : 0 as * mut sys :: godot_method_bind , set_animation : 0 as * mut sys :: godot_method_bind , set_centered : 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_frame : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_speed_scale : 0 as * mut sys :: godot_method_bind , set_sprite_frames : 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 (|| { AnimatedSpriteMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimatedSprite\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 . get_frame = (gd_api . godot_method_bind_get_method) (class_name , "get_frame\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_speed_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_speed_scale\0" . as_ptr () as * const c_char) ; table . get_sprite_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_sprite_frames\0" . as_ptr () as * const c_char) ; table . is_centered = (gd_api . godot_method_bind_get_method) (class_name , "is_centered\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 . is_playing = (gd_api . godot_method_bind_get_method) (class_name , "is_playing\0" . as_ptr () as * const c_char) ; table . play = (gd_api . godot_method_bind_get_method) (class_name , "play\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) ; table . set_centered = (gd_api . godot_method_bind_get_method) (class_name , "set_centered\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_frame = (gd_api . godot_method_bind_get_method) (class_name , "set_frame\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_speed_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_speed_scale\0" . as_ptr () as * const c_char) ; table . set_sprite_frames = (gd_api . godot_method_bind_get_method) (class_name , "set_sprite_frames\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-60c8dbcfaf0f3dfc/out/generated.rs:628:4116 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:634:4841 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:640:3280 [INFO] [stdout] | [INFO] [stdout] 640 | ...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] 640 | # [doc = "`core class ResourceFormatLoader` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_resourceformatloader.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\nResourceFormatLoader 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 ResourceFormatLoader { this : RawObject < Self > , } impl ResourceFormatLoader { # [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 = ResourceFormatLoaderMethodTable :: 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 ResourceFormatLoader { } unsafe impl GodotObject for ResourceFormatLoader { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ResourceFormatLoader" } } impl std :: ops :: Deref for ResourceFormatLoader { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ResourceFormatLoader { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ResourceFormatLoader { } unsafe impl SubClass < crate :: generated :: object :: Object > for ResourceFormatLoader { } impl Instanciable for ResourceFormatLoader { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ResourceFormatLoader :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ResourceFormatLoaderMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl ResourceFormatLoaderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ResourceFormatLoaderMethodTable = ResourceFormatLoaderMethodTable { 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 (|| { ResourceFormatLoaderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ResourceFormatLoader\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-60c8dbcfaf0f3dfc/out/generated.rs:646:3784 [INFO] [stdout] | [INFO] [stdout] 646 | ...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] 646 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:652:7282 [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 CubeMesh` inherits `PrimitiveMesh` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_cubemesh.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\nCubeMesh 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 CubeMesh { this : RawObject < Self > , } impl CubeMesh { # [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 = CubeMeshMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Size of the cuboid mesh."] # [doc = ""] # [inline] pub fn size (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Number of extra edge loops inserted along the Z axis."] # [doc = ""] # [inline] pub fn subdivide_depth (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . get_subdivide_depth ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of extra edge loops inserted along the Y axis."] # [doc = ""] # [inline] pub fn subdivide_height (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . get_subdivide_height ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of extra edge loops inserted along the X axis."] # [doc = ""] # [inline] pub fn subdivide_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . get_subdivide_width ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Size of the cuboid mesh."] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . set_size ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Number of extra edge loops inserted along the Z axis."] # [doc = ""] # [inline] pub fn set_subdivide_depth (& self , divisions : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . set_subdivide_depth ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , divisions) ; } } # [doc = "Number of extra edge loops inserted along the Y axis."] # [doc = ""] # [inline] pub fn set_subdivide_height (& self , divisions : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . set_subdivide_height ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , divisions) ; } } # [doc = "Number of extra edge loops inserted along the X axis."] # [doc = ""] # [inline] pub fn set_subdivide_width (& self , subdivide : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMeshMethodTable :: get (get_api ()) . set_subdivide_width ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , subdivide) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CubeMesh { } unsafe impl GodotObject for CubeMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CubeMesh" } } impl std :: ops :: Deref for CubeMesh { 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 CubeMesh { # [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 CubeMesh { } unsafe impl SubClass < crate :: generated :: mesh :: Mesh > for CubeMesh { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CubeMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CubeMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for CubeMesh { } impl Instanciable for CubeMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CubeMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CubeMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_size : * mut sys :: godot_method_bind , pub get_subdivide_depth : * mut sys :: godot_method_bind , pub get_subdivide_height : * mut sys :: godot_method_bind , pub get_subdivide_width : * mut sys :: godot_method_bind , pub set_size : * mut sys :: godot_method_bind , pub set_subdivide_depth : * mut sys :: godot_method_bind , pub set_subdivide_height : * mut sys :: godot_method_bind , pub set_subdivide_width : * mut sys :: godot_method_bind } impl CubeMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CubeMeshMethodTable = CubeMeshMethodTable { class_constructor : None , get_size : 0 as * mut sys :: godot_method_bind , get_subdivide_depth : 0 as * mut sys :: godot_method_bind , get_subdivide_height : 0 as * mut sys :: godot_method_bind , get_subdivide_width : 0 as * mut sys :: godot_method_bind , set_size : 0 as * mut sys :: godot_method_bind , set_subdivide_depth : 0 as * mut sys :: godot_method_bind , set_subdivide_height : 0 as * mut sys :: godot_method_bind , set_subdivide_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 (|| { CubeMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CubeMesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_size = (gd_api . godot_method_bind_get_method) (class_name , "get_size\0" . as_ptr () as * const c_char) ; table . get_subdivide_depth = (gd_api . godot_method_bind_get_method) (class_name , "get_subdivide_depth\0" . as_ptr () as * const c_char) ; table . get_subdivide_height = (gd_api . godot_method_bind_get_method) (class_name , "get_subdivide_height\0" . as_ptr () as * const c_char) ; table . get_subdivide_width = (gd_api . godot_method_bind_get_method) (class_name , "get_subdivide_width\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_subdivide_depth = (gd_api . godot_method_bind_get_method) (class_name , "set_subdivide_depth\0" . as_ptr () as * const c_char) ; table . set_subdivide_height = (gd_api . godot_method_bind_get_method) (class_name , "set_subdivide_height\0" . as_ptr () as * const c_char) ; table . set_subdivide_width = (gd_api . godot_method_bind_get_method) (class_name , "set_subdivide_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-60c8dbcfaf0f3dfc/out/generated.rs:658:11051 [INFO] [stdout] | [INFO] [stdout] 658 | ... : 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] 658 | # [doc = "`core class AudioEffectCompressor` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectcompressor.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\nAudioEffectCompressor 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 AudioEffectCompressor { this : RawObject < Self > , } impl AudioEffectCompressor { # [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 = AudioEffectCompressorMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Compressor's reaction time when the signal exceeds the threshold, in microseconds. Value can range from 20 to 2000."] # [doc = ""] # [inline] pub fn attack_us (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . get_attack_us ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gain applied to the output signal."] # [doc = ""] # [inline] pub fn gain (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . get_gain ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Balance between original signal and effect signal. Value can range from 0 (totally dry) to 1 (totally wet)."] # [doc = ""] # [inline] pub fn mix (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . get_mix ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Amount of compression applied to the audio once it passes the threshold level. The higher the ratio, the more the loud parts of the audio will be compressed. Value can range from 1 to 48."] # [doc = ""] # [inline] pub fn ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . get_ratio ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Compressor's delay time to stop reducing the signal after the signal level falls below the threshold, in milliseconds. Value can range from 20 to 2000."] # [doc = ""] # [inline] pub fn release_ms (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . get_release_ms ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Reduce the sound level using another audio bus for threshold detection."] # [doc = ""] # [inline] pub fn sidechain (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . get_sidechain ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The level above which compression is applied to the audio. Value can range from -60 to 0."] # [doc = ""] # [inline] pub fn threshold (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . get_threshold ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Compressor's reaction time when the signal exceeds the threshold, in microseconds. Value can range from 20 to 2000."] # [doc = ""] # [inline] pub fn set_attack_us (& self , attack_us : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . set_attack_us ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , attack_us) ; } } # [doc = "Gain applied to the output signal."] # [doc = ""] # [inline] pub fn set_gain (& self , gain : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . set_gain ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , gain) ; } } # [doc = "Balance between original signal and effect signal. Value can range from 0 (totally dry) to 1 (totally wet)."] # [doc = ""] # [inline] pub fn set_mix (& self , mix : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . set_mix ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mix) ; } } # [doc = "Amount of compression applied to the audio once it passes the threshold level. The higher the ratio, the more the loud parts of the audio will be compressed. Value can range from 1 to 48."] # [doc = ""] # [inline] pub fn set_ratio (& self , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . set_ratio ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ratio) ; } } # [doc = "Compressor's delay time to stop reducing the signal after the signal level falls below the threshold, in milliseconds. Value can range from 20 to 2000."] # [doc = ""] # [inline] pub fn set_release_ms (& self , release_ms : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . set_release_ms ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , release_ms) ; } } # [doc = "Reduce the sound level using another audio bus for threshold detection."] # [doc = ""] # [inline] pub fn set_sidechain (& self , sidechain : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . set_sidechain ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , sidechain . into ()) ; } } # [doc = "The level above which compression is applied to the audio. Value can range from -60 to 0."] # [doc = ""] # [inline] pub fn set_threshold (& self , threshold : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCompressorMethodTable :: get (get_api ()) . set_threshold ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , threshold) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectCompressor { } unsafe impl GodotObject for AudioEffectCompressor { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectCompressor" } } impl std :: ops :: Deref for AudioEffectCompressor { 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 AudioEffectCompressor { # [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 AudioEffectCompressor { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectCompressor { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectCompressor { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectCompressor { } impl Instanciable for AudioEffectCompressor { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectCompressor :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectCompressorMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_attack_us : * mut sys :: godot_method_bind , pub get_gain : * mut sys :: godot_method_bind , pub get_mix : * mut sys :: godot_method_bind , pub get_ratio : * mut sys :: godot_method_bind , pub get_release_ms : * mut sys :: godot_method_bind , pub get_sidechain : * mut sys :: godot_method_bind , pub get_threshold : * mut sys :: godot_method_bind , pub set_attack_us : * mut sys :: godot_method_bind , pub set_gain : * mut sys :: godot_method_bind , pub set_mix : * mut sys :: godot_method_bind , pub set_ratio : * mut sys :: godot_method_bind , pub set_release_ms : * mut sys :: godot_method_bind , pub set_sidechain : * mut sys :: godot_method_bind , pub set_threshold : * mut sys :: godot_method_bind } impl AudioEffectCompressorMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectCompressorMethodTable = AudioEffectCompressorMethodTable { class_constructor : None , get_attack_us : 0 as * mut sys :: godot_method_bind , get_gain : 0 as * mut sys :: godot_method_bind , get_mix : 0 as * mut sys :: godot_method_bind , get_ratio : 0 as * mut sys :: godot_method_bind , get_release_ms : 0 as * mut sys :: godot_method_bind , get_sidechain : 0 as * mut sys :: godot_method_bind , get_threshold : 0 as * mut sys :: godot_method_bind , set_attack_us : 0 as * mut sys :: godot_method_bind , set_gain : 0 as * mut sys :: godot_method_bind , set_mix : 0 as * mut sys :: godot_method_bind , set_ratio : 0 as * mut sys :: godot_method_bind , set_release_ms : 0 as * mut sys :: godot_method_bind , set_sidechain : 0 as * mut sys :: godot_method_bind , set_threshold : 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 (|| { AudioEffectCompressorMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectCompressor\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_attack_us = (gd_api . godot_method_bind_get_method) (class_name , "get_attack_us\0" . as_ptr () as * const c_char) ; table . get_gain = (gd_api . godot_method_bind_get_method) (class_name , "get_gain\0" . as_ptr () as * const c_char) ; table . get_mix = (gd_api . godot_method_bind_get_method) (class_name , "get_mix\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_release_ms = (gd_api . godot_method_bind_get_method) (class_name , "get_release_ms\0" . as_ptr () as * const c_char) ; table . get_sidechain = (gd_api . godot_method_bind_get_method) (class_name , "get_sidechain\0" . as_ptr () as * const c_char) ; table . get_threshold = (gd_api . godot_method_bind_get_method) (class_name , "get_threshold\0" . as_ptr () as * const c_char) ; table . set_attack_us = (gd_api . godot_method_bind_get_method) (class_name , "set_attack_us\0" . as_ptr () as * const c_char) ; table . set_gain = (gd_api . godot_method_bind_get_method) (class_name , "set_gain\0" . as_ptr () as * const c_char) ; table . set_mix = (gd_api . godot_method_bind_get_method) (class_name , "set_mix\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_release_ms = (gd_api . godot_method_bind_get_method) (class_name , "set_release_ms\0" . as_ptr () as * const c_char) ; table . set_sidechain = (gd_api . godot_method_bind_get_method) (class_name , "set_sidechain\0" . as_ptr () as * const c_char) ; table . set_threshold = (gd_api . godot_method_bind_get_method) (class_name , "set_threshold\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-60c8dbcfaf0f3dfc/out/generated.rs:664:10052 [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 = "`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-60c8dbcfaf0f3dfc/out/generated.rs:670:15608 [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 TouchScreenButton` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_touchscreenbutton.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`TouchScreenButton` 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\nTouchScreenButton 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 TouchScreenButton { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct VisibilityMode (pub i64) ; impl VisibilityMode { pub const ALWAYS : VisibilityMode = VisibilityMode (0i64) ; pub const TOUCHSCREEN_ONLY : VisibilityMode = VisibilityMode (1i64) ; } impl From < i64 > for VisibilityMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < VisibilityMode > for i64 { # [inline] fn from (v : VisibilityMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl TouchScreenButton { pub const VISIBILITY_ALWAYS : i64 = 0i64 ; pub const VISIBILITY_TOUCHSCREEN_ONLY : i64 = 1i64 ; } impl TouchScreenButton { # [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 = TouchScreenButtonMethodTable :: 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 action. Actions can be handled with [InputEventAction]."] # [doc = ""] # [inline] pub fn action (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . get_action ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The button's bitmask."] # [doc = ""] # [inline] pub fn bitmask (& self) -> Option < Ref < crate :: generated :: bit_map :: BitMap , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . get_bitmask ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: bit_map :: BitMap , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The button's shape."] # [doc = ""] # [inline] pub fn shape (& self) -> Option < Ref < crate :: generated :: shape_2d :: Shape2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: 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_2d :: Shape2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The button's texture for the normal state."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: 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 button's texture for the pressed state."] # [doc = ""] # [inline] pub fn texture_pressed (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . get_texture_pressed ; 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 button's visibility mode. See [enum VisibilityMode] for possible values."] # [doc = ""] # [inline] pub fn visibility_mode (& self) -> crate :: generated :: touch_screen_button :: VisibilityMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . get_visibility_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: touch_screen_button :: VisibilityMode (ret) } } # [doc = "If `true`, pass-by presses are enabled."] # [doc = ""] # [inline] pub fn is_passby_press_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . is_passby_press_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this button is currently pressed."] # [doc = ""] # [inline] pub fn is_pressed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . is_pressed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the button's shape is centered in the provided texture. If no texture is used, this property has no effect."] # [doc = ""] # [inline] pub fn is_shape_centered (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . is_shape_centered ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the button's shape is visible."] # [doc = ""] # [inline] pub fn is_shape_visible (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . is_shape_visible ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The button's action. Actions can be handled with [InputEventAction]."] # [doc = ""] # [inline] pub fn set_action (& self , action : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_action ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; } } # [doc = "The button's bitmask."] # [doc = ""] # [inline] pub fn set_bitmask (& self , bitmask : impl AsArg < crate :: generated :: bit_map :: BitMap >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_bitmask ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , bitmask . as_arg_ptr ()) ; } } # [doc = "If `true`, pass-by presses are enabled."] # [doc = ""] # [inline] pub fn set_passby_press (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_passby_press ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The button's shape."] # [doc = ""] # [inline] pub fn set_shape (& self , shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_shape ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr ()) ; } } # [doc = "If `true`, the button's shape is centered in the provided texture. If no texture is used, this property has no effect."] # [doc = ""] # [inline] pub fn set_shape_centered (& self , bool : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_shape_centered ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , bool) ; } } # [doc = "If `true`, the button's shape is visible."] # [doc = ""] # [inline] pub fn set_shape_visible (& self , bool : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_shape_visible ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , bool) ; } } # [doc = "The button's texture for the normal state."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "The button's texture for the pressed state."] # [doc = ""] # [inline] pub fn set_texture_pressed (& self , texture_pressed : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_texture_pressed ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture_pressed . as_arg_ptr ()) ; } } # [doc = "The button's visibility mode. See [enum VisibilityMode] for possible values."] # [doc = ""] # [inline] pub fn set_visibility_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TouchScreenButtonMethodTable :: get (get_api ()) . set_visibility_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for TouchScreenButton { } unsafe impl GodotObject for TouchScreenButton { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "TouchScreenButton" } } impl QueueFree for TouchScreenButton { # [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 TouchScreenButton { 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 TouchScreenButton { # [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 TouchScreenButton { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for TouchScreenButton { } unsafe impl SubClass < crate :: generated :: node :: Node > for TouchScreenButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for TouchScreenButton { } impl Instanciable for TouchScreenButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TouchScreenButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TouchScreenButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_action : * mut sys :: godot_method_bind , pub get_bitmask : * mut sys :: godot_method_bind , pub get_shape : * mut sys :: godot_method_bind , pub get_texture : * mut sys :: godot_method_bind , pub get_texture_pressed : * mut sys :: godot_method_bind , pub get_visibility_mode : * mut sys :: godot_method_bind , pub is_passby_press_enabled : * mut sys :: godot_method_bind , pub is_pressed : * mut sys :: godot_method_bind , pub is_shape_centered : * mut sys :: godot_method_bind , pub is_shape_visible : * mut sys :: godot_method_bind , pub set_action : * mut sys :: godot_method_bind , pub set_bitmask : * mut sys :: godot_method_bind , pub set_passby_press : * mut sys :: godot_method_bind , pub set_shape : * mut sys :: godot_method_bind , pub set_shape_centered : * mut sys :: godot_method_bind , pub set_shape_visible : * mut sys :: godot_method_bind , pub set_texture : * mut sys :: godot_method_bind , pub set_texture_pressed : * mut sys :: godot_method_bind , pub set_visibility_mode : * mut sys :: godot_method_bind } impl TouchScreenButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TouchScreenButtonMethodTable = TouchScreenButtonMethodTable { class_constructor : None , get_action : 0 as * mut sys :: godot_method_bind , get_bitmask : 0 as * mut sys :: godot_method_bind , get_shape : 0 as * mut sys :: godot_method_bind , get_texture : 0 as * mut sys :: godot_method_bind , get_texture_pressed : 0 as * mut sys :: godot_method_bind , get_visibility_mode : 0 as * mut sys :: godot_method_bind , is_passby_press_enabled : 0 as * mut sys :: godot_method_bind , is_pressed : 0 as * mut sys :: godot_method_bind , is_shape_centered : 0 as * mut sys :: godot_method_bind , is_shape_visible : 0 as * mut sys :: godot_method_bind , set_action : 0 as * mut sys :: godot_method_bind , set_bitmask : 0 as * mut sys :: godot_method_bind , set_passby_press : 0 as * mut sys :: godot_method_bind , set_shape : 0 as * mut sys :: godot_method_bind , set_shape_centered : 0 as * mut sys :: godot_method_bind , set_shape_visible : 0 as * mut sys :: godot_method_bind , set_texture : 0 as * mut sys :: godot_method_bind , set_texture_pressed : 0 as * mut sys :: godot_method_bind , set_visibility_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 (|| { TouchScreenButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TouchScreenButton\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_bitmask = (gd_api . godot_method_bind_get_method) (class_name , "get_bitmask\0" . as_ptr () as * const c_char) ; table . get_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_shape\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_pressed = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_pressed\0" . as_ptr () as * const c_char) ; table . get_visibility_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_visibility_mode\0" . as_ptr () as * const c_char) ; table . is_passby_press_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_passby_press_enabled\0" . as_ptr () as * const c_char) ; table . is_pressed = (gd_api . godot_method_bind_get_method) (class_name , "is_pressed\0" . as_ptr () as * const c_char) ; table . is_shape_centered = (gd_api . godot_method_bind_get_method) (class_name , "is_shape_centered\0" . as_ptr () as * const c_char) ; table . is_shape_visible = (gd_api . godot_method_bind_get_method) (class_name , "is_shape_visible\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_bitmask = (gd_api . godot_method_bind_get_method) (class_name , "set_bitmask\0" . as_ptr () as * const c_char) ; table . set_passby_press = (gd_api . godot_method_bind_get_method) (class_name , "set_passby_press\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_centered = (gd_api . godot_method_bind_get_method) (class_name , "set_shape_centered\0" . as_ptr () as * const c_char) ; table . set_shape_visible = (gd_api . godot_method_bind_get_method) (class_name , "set_shape_visible\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_pressed = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_pressed\0" . as_ptr () as * const c_char) ; table . set_visibility_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_visibility_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-60c8dbcfaf0f3dfc/out/generated.rs:676:11569 [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 ARVRPositionalTracker` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_arvrpositionaltracker.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`ARVRPositionalTracker` 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\nARVRPositionalTracker 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 ARVRPositionalTracker { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TrackerHand (pub i64) ; impl TrackerHand { pub const HAND_UNKNOWN : TrackerHand = TrackerHand (0i64) ; pub const LEFT_HAND : TrackerHand = TrackerHand (1i64) ; pub const RIGHT_HAND : TrackerHand = TrackerHand (2i64) ; } impl From < i64 > for TrackerHand { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TrackerHand > for i64 { # [inline] fn from (v : TrackerHand) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ARVRPositionalTracker { pub const TRACKER_HAND_UNKNOWN : i64 = 0i64 ; pub const TRACKER_LEFT_HAND : i64 = 1i64 ; pub const TRACKER_RIGHT_HAND : i64 = 2i64 ; } impl ARVRPositionalTracker { # [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 = ARVRPositionalTrackerMethodTable :: 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 hand holding this tracker, if known. See [enum TrackerHand] constants."] # [doc = ""] # [inline] pub fn get_hand (& self) -> crate :: generated :: arvr_positional_tracker :: TrackerHand { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_hand ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: arvr_positional_tracker :: TrackerHand (ret) } } # [doc = "If this is a controller that is being tracked, the controller will also be represented by a joystick entry with this ID."] # [doc = ""] # [inline] pub fn get_joy_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_joy_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the mesh related to a controller or anchor point if one is available."] # [doc = ""] # [inline] pub fn get_mesh (& self) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: 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 = "Returns the controller or anchor point's name if available."] # [doc = ""] # [inline] pub fn get_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: 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 controller's orientation matrix."] # [doc = ""] # [inline] pub fn get_orientation (& self) -> Basis { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_orientation ; let ret = crate :: icalls :: icallptr_basis (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the world-space controller position."] # [doc = ""] # [inline] pub fn get_position (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The degree to which the tracker rumbles. Ranges from `0.0` to `1.0` with precision `.01`."] # [doc = ""] # [inline] pub fn rumble (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_rumble ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the internal tracker ID. This uniquely identifies the tracker per tracker type and matches the ID you need to specify for nodes such as the [ARVRController] and [ARVRAnchor] nodes."] # [doc = ""] # [inline] pub fn get_tracker_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_tracker_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this device tracks orientation."] # [doc = ""] # [inline] pub fn get_tracks_orientation (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_tracks_orientation ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this device tracks position."] # [doc = ""] # [inline] pub fn get_tracks_position (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_tracks_position ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the transform combining this device's orientation and position."] # [doc = ""] # [inline] pub fn get_transform (& self , adjust_by_reference_frame : bool) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_transform ; let ret = crate :: icalls :: icallptr_trans_bool (method_bind , self . this . sys () . as_ptr () , adjust_by_reference_frame) ; mem :: transmute (ret) } } # [doc = "Returns the tracker's type."] # [doc = ""] # [inline] pub fn get_type (& self) -> crate :: generated :: arvr_server :: TrackerType { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . get_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: arvr_server :: TrackerType (ret) } } # [doc = "The degree to which the tracker rumbles. Ranges from `0.0` to `1.0` with precision `.01`."] # [doc = ""] # [inline] pub fn set_rumble (& self , rumble : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRPositionalTrackerMethodTable :: get (get_api ()) . set_rumble ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , rumble) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ARVRPositionalTracker { } unsafe impl GodotObject for ARVRPositionalTracker { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ARVRPositionalTracker" } } impl std :: ops :: Deref for ARVRPositionalTracker { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ARVRPositionalTracker { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for ARVRPositionalTracker { } impl Instanciable for ARVRPositionalTracker { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ARVRPositionalTracker :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ARVRPositionalTrackerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_hand : * mut sys :: godot_method_bind , pub get_joy_id : * mut sys :: godot_method_bind , pub get_mesh : * mut sys :: godot_method_bind , pub get_name : * mut sys :: godot_method_bind , pub get_orientation : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub get_rumble : * mut sys :: godot_method_bind , pub get_tracker_id : * mut sys :: godot_method_bind , pub get_tracks_orientation : * mut sys :: godot_method_bind , pub get_tracks_position : * mut sys :: godot_method_bind , pub get_transform : * mut sys :: godot_method_bind , pub get_type : * mut sys :: godot_method_bind , pub set_rumble : * mut sys :: godot_method_bind } impl ARVRPositionalTrackerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ARVRPositionalTrackerMethodTable = ARVRPositionalTrackerMethodTable { class_constructor : None , get_hand : 0 as * mut sys :: godot_method_bind , get_joy_id : 0 as * mut sys :: godot_method_bind , get_mesh : 0 as * mut sys :: godot_method_bind , get_name : 0 as * mut sys :: godot_method_bind , get_orientation : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , get_rumble : 0 as * mut sys :: godot_method_bind , get_tracker_id : 0 as * mut sys :: godot_method_bind , get_tracks_orientation : 0 as * mut sys :: godot_method_bind , get_tracks_position : 0 as * mut sys :: godot_method_bind , get_transform : 0 as * mut sys :: godot_method_bind , get_type : 0 as * mut sys :: godot_method_bind , set_rumble : 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 (|| { ARVRPositionalTrackerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ARVRPositionalTracker\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_hand = (gd_api . godot_method_bind_get_method) (class_name , "get_hand\0" . as_ptr () as * const c_char) ; table . get_joy_id = (gd_api . godot_method_bind_get_method) (class_name , "get_joy_id\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 . get_name = (gd_api . godot_method_bind_get_method) (class_name , "get_name\0" . as_ptr () as * const c_char) ; table . get_orientation = (gd_api . godot_method_bind_get_method) (class_name , "get_orientation\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_rumble = (gd_api . godot_method_bind_get_method) (class_name , "get_rumble\0" . as_ptr () as * const c_char) ; table . get_tracker_id = (gd_api . godot_method_bind_get_method) (class_name , "get_tracker_id\0" . as_ptr () as * const c_char) ; table . get_tracks_orientation = (gd_api . godot_method_bind_get_method) (class_name , "get_tracks_orientation\0" . as_ptr () as * const c_char) ; table . get_tracks_position = (gd_api . godot_method_bind_get_method) (class_name , "get_tracks_position\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_type = (gd_api . godot_method_bind_get_method) (class_name , "get_type\0" . as_ptr () as * const c_char) ; table . set_rumble = (gd_api . godot_method_bind_get_method) (class_name , "set_rumble\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-60c8dbcfaf0f3dfc/out/generated.rs:682:4743 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:688:15700 [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 MultiplayerAPI` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_multiplayerapi.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\nMultiplayerAPI 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 MultiplayerAPI { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct RpcMode (pub i64) ; impl RpcMode { pub const DISABLED : RpcMode = RpcMode (0i64) ; pub const REMOTE : RpcMode = RpcMode (1i64) ; pub const MASTER : RpcMode = RpcMode (2i64) ; pub const PUPPET : RpcMode = RpcMode (3i64) ; pub const SLAVE : RpcMode = RpcMode (3i64) ; pub const SYNC : RpcMode = RpcMode (4i64) ; pub const REMOTESYNC : RpcMode = RpcMode (4i64) ; pub const MASTERSYNC : RpcMode = RpcMode (5i64) ; pub const PUPPETSYNC : RpcMode = RpcMode (6i64) ; } impl From < i64 > for RpcMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < RpcMode > for i64 { # [inline] fn from (v : RpcMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl MultiplayerAPI { pub const RPC_MODE_DISABLED : i64 = 0i64 ; pub const RPC_MODE_MASTER : i64 = 2i64 ; pub const RPC_MODE_MASTERSYNC : i64 = 5i64 ; pub const RPC_MODE_PUPPET : i64 = 3i64 ; pub const RPC_MODE_PUPPETSYNC : i64 = 6i64 ; pub const RPC_MODE_REMOTE : i64 = 1i64 ; pub const RPC_MODE_REMOTESYNC : i64 = 4i64 ; pub const RPC_MODE_SLAVE : i64 = 3i64 ; pub const RPC_MODE_SYNC : i64 = 4i64 ; } impl MultiplayerAPI { # [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 = MultiplayerAPIMethodTable :: 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 the current MultiplayerAPI network state (you shouldn't call this unless you know what you are doing)."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the peer IDs of all connected peers of this MultiplayerAPI's [member network_peer]."] # [doc = ""] # [inline] pub fn get_network_connected_peers (& self) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: 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 MultiplayerAPI will become a network server (check with [method is_network_server]) and will set root node's network mode to master, or it will become a regular peer with 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 MultiplayerAPI'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 = MultiplayerAPIMethodTable :: 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 MultiplayerAPI's [member network_peer]."] # [doc = ""] # [inline] pub fn get_network_unique_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . get_network_unique_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn root_node (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . get_root_node ; 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 sender's peer ID for the RPC currently being executed.\n**Note:** If not inside an RPC this method will return 0."] # [doc = ""] # [inline] pub fn get_rpc_sender_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: 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 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 = MultiplayerAPIMethodTable :: get (get_api ()) . has_network_peer ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this MultiplayerAPI'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 = MultiplayerAPIMethodTable :: get (get_api ()) . is_network_server ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true` (or if the [member network_peer] has [member PacketPeer.allow_object_decoding] set to `true`), the MultiplayerAPI will allow encoding and decoding of object during RPCs/RSETs.\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."] # [doc = ""] # [inline] pub fn is_object_decoding_allowed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . is_object_decoding_allowed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the MultiplayerAPI'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 = MultiplayerAPIMethodTable :: get (get_api ()) . is_refusing_new_network_connections ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Method used for polling the MultiplayerAPI. You only need to worry about this if you are using [member Node.custom_multiplayer] override or you set [member SceneTree.multiplayer_poll] to `false`. By default, [SceneTree] will poll its MultiplayerAPI for you.\n**Note:** This method results in RPCs and RSETs being called, so they will be executed in the same context of this function (e.g. `_process`, `physics`, [Thread])."] # [doc = ""] # [inline] pub fn poll (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . poll ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sends the given raw `bytes` to a specific peer identified by `id` (see [method NetworkedMultiplayerPeer.set_target_peer]). Default ID is `0`, i.e. broadcast to all peers.\n# Default Arguments\n* `id` - `0`\n* `mode` - `2`"] # [doc = ""] # [inline] pub fn send_bytes (& self , bytes : ByteArray , id : i64 , mode : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . send_bytes ; let ret = crate :: icalls :: icallptr_i64_bytearr_i64_i64 (method_bind , self . this . sys () . as_ptr () , bytes , id , mode) ; GodotError :: result_from_sys (ret as _) } } # [doc = "If `true` (or if the [member network_peer] has [member PacketPeer.allow_object_decoding] set to `true`), the MultiplayerAPI will allow encoding and decoding of object during RPCs/RSETs.\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."] # [doc = ""] # [inline] pub fn set_allow_object_decoding (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . set_allow_object_decoding ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The peer object to handle the RPC system (effectively enabling networking when set). Depending on the peer itself, the MultiplayerAPI will become a network server (check with [method is_network_server]) and will set root node's network mode to master, or it will become a regular peer with 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 MultiplayerAPI'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 = MultiplayerAPIMethodTable :: 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 MultiplayerAPI'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 = MultiplayerAPIMethodTable :: get (get_api ()) . set_refuse_new_network_connections ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , refuse) ; } } # [doc = "Sets the base root node to use for RPCs. Instead of an absolute path, a relative path will be used to find the node upon which the RPC should be executed.\nThis effectively allows to have different branches of the scene tree to be managed by different MultiplayerAPI, allowing for example to run both client and server in the same scene."] # [doc = ""] # [inline] pub fn set_root_node (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiplayerAPIMethodTable :: get (get_api ()) . set_root_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 MultiplayerAPI { } unsafe impl GodotObject for MultiplayerAPI { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "MultiplayerAPI" } } impl std :: ops :: Deref for MultiplayerAPI { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for MultiplayerAPI { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for MultiplayerAPI { } unsafe impl SubClass < crate :: generated :: object :: Object > for MultiplayerAPI { } impl Instanciable for MultiplayerAPI { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MultiplayerAPI :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MultiplayerAPIMethodTable { pub class_constructor : sys :: godot_class_constructor , pub clear : * 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_root_node : * mut sys :: godot_method_bind , pub get_rpc_sender_id : * mut sys :: godot_method_bind , pub has_network_peer : * mut sys :: godot_method_bind , pub is_network_server : * mut sys :: godot_method_bind , pub is_object_decoding_allowed : * mut sys :: godot_method_bind , pub is_refusing_new_network_connections : * mut sys :: godot_method_bind , pub poll : * mut sys :: godot_method_bind , pub send_bytes : * mut sys :: godot_method_bind , pub set_allow_object_decoding : * mut sys :: godot_method_bind , pub set_network_peer : * mut sys :: godot_method_bind , pub set_refuse_new_network_connections : * mut sys :: godot_method_bind , pub set_root_node : * mut sys :: godot_method_bind } impl MultiplayerAPIMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MultiplayerAPIMethodTable = MultiplayerAPIMethodTable { class_constructor : None , clear : 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_root_node : 0 as * mut sys :: godot_method_bind , get_rpc_sender_id : 0 as * mut sys :: godot_method_bind , has_network_peer : 0 as * mut sys :: godot_method_bind , is_network_server : 0 as * mut sys :: godot_method_bind , is_object_decoding_allowed : 0 as * mut sys :: godot_method_bind , is_refusing_new_network_connections : 0 as * mut sys :: godot_method_bind , poll : 0 as * mut sys :: godot_method_bind , send_bytes : 0 as * mut sys :: godot_method_bind , set_allow_object_decoding : 0 as * mut sys :: godot_method_bind , set_network_peer : 0 as * mut sys :: godot_method_bind , set_refuse_new_network_connections : 0 as * mut sys :: godot_method_bind , set_root_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 (|| { MultiplayerAPIMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MultiplayerAPI\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 . 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_root_node = (gd_api . godot_method_bind_get_method) (class_name , "get_root_node\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_network_peer = (gd_api . godot_method_bind_get_method) (class_name , "has_network_peer\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_object_decoding_allowed = (gd_api . godot_method_bind_get_method) (class_name , "is_object_decoding_allowed\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 . poll = (gd_api . godot_method_bind_get_method) (class_name , "poll\0" . as_ptr () as * const c_char) ; table . send_bytes = (gd_api . godot_method_bind_get_method) (class_name , "send_bytes\0" . as_ptr () as * const c_char) ; table . set_allow_object_decoding = (gd_api . godot_method_bind_get_method) (class_name , "set_allow_object_decoding\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_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_root_node = (gd_api . godot_method_bind_get_method) (class_name , "set_root_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-60c8dbcfaf0f3dfc/out/generated.rs:694:5429 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:700:4150 [INFO] [stdout] | [INFO] [stdout] 700 | ...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] 700 | # [doc = "`core class VisualShaderNodeTransformUniform` inherits `VisualShaderNodeUniform` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodetransformuniform.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\nVisualShaderNodeTransformUniform inherits methods from:\n - [VisualShaderNodeUniform](struct.VisualShaderNodeUniform.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 VisualShaderNodeTransformUniform { this : RawObject < Self > , } impl VisualShaderNodeTransformUniform { # [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 = VisualShaderNodeTransformUniformMethodTable :: 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 VisualShaderNodeTransformUniform { } unsafe impl GodotObject for VisualShaderNodeTransformUniform { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeTransformUniform" } } impl std :: ops :: Deref for VisualShaderNodeTransformUniform { type Target = crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeTransformUniform { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node_uniform :: VisualShaderNodeUniform > for VisualShaderNodeTransformUniform { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeTransformUniform { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeTransformUniform { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeTransformUniform { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeTransformUniform { } impl Instanciable for VisualShaderNodeTransformUniform { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeTransformUniform :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeTransformUniformMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeTransformUniformMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeTransformUniformMethodTable = VisualShaderNodeTransformUniformMethodTable { 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 (|| { VisualShaderNodeTransformUniformMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeTransformUniform\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-60c8dbcfaf0f3dfc/out/generated.rs:706:4494 [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 PanoramaSky` inherits `Sky` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_panoramasky.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\nPanoramaSky 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 PanoramaSky { this : RawObject < Self > , } impl PanoramaSky { # [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 = PanoramaSkyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "[Texture] to be applied to the PanoramaSky."] # [doc = ""] # [inline] pub fn panorama (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = PanoramaSkyMethodTable :: get (get_api ()) . get_panorama ; 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 = "[Texture] to be applied to the PanoramaSky."] # [doc = ""] # [inline] pub fn set_panorama (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PanoramaSkyMethodTable :: get (get_api ()) . set_panorama ; 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 PanoramaSky { } unsafe impl GodotObject for PanoramaSky { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PanoramaSky" } } impl std :: ops :: Deref for PanoramaSky { type Target = crate :: generated :: sky :: Sky ; # [inline] fn deref (& self) -> & crate :: generated :: sky :: Sky { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PanoramaSky { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: sky :: Sky { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: sky :: Sky > for PanoramaSky { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PanoramaSky { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PanoramaSky { } unsafe impl SubClass < crate :: generated :: object :: Object > for PanoramaSky { } impl Instanciable for PanoramaSky { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PanoramaSky :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PanoramaSkyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_panorama : * mut sys :: godot_method_bind , pub set_panorama : * mut sys :: godot_method_bind } impl PanoramaSkyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PanoramaSkyMethodTable = PanoramaSkyMethodTable { class_constructor : None , get_panorama : 0 as * mut sys :: godot_method_bind , set_panorama : 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 (|| { PanoramaSkyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PanoramaSky\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_panorama = (gd_api . godot_method_bind_get_method) (class_name , "get_panorama\0" . as_ptr () as * const c_char) ; table . set_panorama = (gd_api . godot_method_bind_get_method) (class_name , "set_panorama\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-60c8dbcfaf0f3dfc/out/generated.rs:712:14005 [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 CharFXTransform` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_charfxtransform.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\nCharFXTransform 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 CharFXTransform { this : RawObject < Self > , } impl CharFXTransform { # [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 = CharFXTransformMethodTable :: 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 index of the current character (starting from 0). Setting this property won't affect drawing."] # [doc = ""] # [inline] pub fn absolute_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . get_absolute_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nThe Unicode codepoint the character will use. This only affects non-whitespace characters. [method @GDScript.ord] can be useful here. For example, the following will replace all characters with asterisks:\n```gdscript\n# `char_fx` is the CharFXTransform parameter from `_process_custom_fx()`.\n# See the RichTextEffect documentation for details.\nchar_fx.character = ord(\"*\")\n```"] # [doc = ""] # [inline] pub fn character (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . get_character ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The color the character will be drawn with."] # [doc = ""] # [inline] pub fn color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The time elapsed since the [RichTextLabel] was added to the scene tree (in seconds). Time stops when the project is paused, unless the [RichTextLabel]'s [member Node.pause_mode] is set to [constant Node.PAUSE_MODE_PROCESS].\n**Note:** Time still passes while the [RichTextLabel] is hidden."] # [doc = ""] # [inline] pub fn elapsed_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . get_elapsed_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nContains the arguments passed in the opening BBCode tag. By default, arguments are strings; if their contents match a type such as [bool], [int] or [float], they will be converted automatically. Color codes in the form `#rrggbb` or `#rgb` will be converted to an opaque [Color]. String arguments may not contain spaces, even if they're quoted. If present, quotes will also be present in the final string.\nFor example, the opening BBCode tag `[example foo=hello bar=true baz=42 color=#ffffff]` will map to the following [Dictionary]:\n```gdscript\n{\"foo\": \"hello\", \"bar\": true, \"baz\": 42, \"color\": Color(1, 1, 1, 1)}\n```"] # [doc = ""] # [inline] pub fn environment (& self) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . get_environment ; let ret = crate :: icalls :: icallptr_dict (method_bind , self . this . sys () . as_ptr ()) ; Dictionary :: from_sys (ret) } } # [doc = "The position offset the character will be drawn with (in pixels)."] # [doc = ""] # [inline] pub fn offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The index of the current character (starting from 0). Setting this property won't affect drawing."] # [doc = ""] # [inline] pub fn relative_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . get_relative_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the character will be drawn. If `false`, the character will be hidden. Characters around hidden characters will reflow to take the space of hidden characters. If this is not desired, set their [member color] to `Color(1, 1, 1, 0)` instead."] # [doc = ""] # [inline] pub fn is_visible (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . is_visible ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The index of the current character (starting from 0). Setting this property won't affect drawing."] # [doc = ""] # [inline] pub fn set_absolute_index (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_absolute_index ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nThe Unicode codepoint the character will use. This only affects non-whitespace characters. [method @GDScript.ord] can be useful here. For example, the following will replace all characters with asterisks:\n```gdscript\n# `char_fx` is the CharFXTransform parameter from `_process_custom_fx()`.\n# See the RichTextEffect documentation for details.\nchar_fx.character = ord(\"*\")\n```"] # [doc = ""] # [inline] pub fn set_character (& self , character : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_character ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , character) ; } } # [doc = "The color the character will be drawn with."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The time elapsed since the [RichTextLabel] was added to the scene tree (in seconds). Time stops when the project is paused, unless the [RichTextLabel]'s [member Node.pause_mode] is set to [constant Node.PAUSE_MODE_PROCESS].\n**Note:** Time still passes while the [RichTextLabel] is hidden."] # [doc = ""] # [inline] pub fn set_elapsed_time (& self , time : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_elapsed_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nContains the arguments passed in the opening BBCode tag. By default, arguments are strings; if their contents match a type such as [bool], [int] or [float], they will be converted automatically. Color codes in the form `#rrggbb` or `#rgb` will be converted to an opaque [Color]. String arguments may not contain spaces, even if they're quoted. If present, quotes will also be present in the final string.\nFor example, the opening BBCode tag `[example foo=hello bar=true baz=42 color=#ffffff]` will map to the following [Dictionary]:\n```gdscript\n{\"foo\": \"hello\", \"bar\": true, \"baz\": 42, \"color\": Color(1, 1, 1, 1)}\n```"] # [doc = ""] # [inline] pub fn set_environment (& self , environment : Dictionary) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_environment ; let ret = crate :: icalls :: icallptr_void_dict (method_bind , self . this . sys () . as_ptr () , environment) ; } } # [doc = "The position offset the character will be drawn with (in pixels)."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The index of the current character (starting from 0). Setting this property won't affect drawing."] # [doc = ""] # [inline] pub fn set_relative_index (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_relative_index ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "If `true`, the character will be drawn. If `false`, the character will be hidden. Characters around hidden characters will reflow to take the space of hidden characters. If this is not desired, set their [member color] to `Color(1, 1, 1, 0)` instead."] # [doc = ""] # [inline] pub fn set_visibility (& self , visibility : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CharFXTransformMethodTable :: get (get_api ()) . set_visibility ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , visibility) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CharFXTransform { } unsafe impl GodotObject for CharFXTransform { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CharFXTransform" } } impl std :: ops :: Deref for CharFXTransform { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CharFXTransform { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CharFXTransform { } unsafe impl SubClass < crate :: generated :: object :: Object > for CharFXTransform { } impl Instanciable for CharFXTransform { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CharFXTransform :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CharFXTransformMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_absolute_index : * mut sys :: godot_method_bind , pub get_character : * mut sys :: godot_method_bind , pub get_color : * mut sys :: godot_method_bind , pub get_elapsed_time : * mut sys :: godot_method_bind , pub get_environment : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_relative_index : * mut sys :: godot_method_bind , pub is_visible : * mut sys :: godot_method_bind , pub set_absolute_index : * mut sys :: godot_method_bind , pub set_character : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_elapsed_time : * mut sys :: godot_method_bind , pub set_environment : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_relative_index : * mut sys :: godot_method_bind , pub set_visibility : * mut sys :: godot_method_bind } impl CharFXTransformMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CharFXTransformMethodTable = CharFXTransformMethodTable { class_constructor : None , get_absolute_index : 0 as * mut sys :: godot_method_bind , get_character : 0 as * mut sys :: godot_method_bind , get_color : 0 as * mut sys :: godot_method_bind , get_elapsed_time : 0 as * mut sys :: godot_method_bind , get_environment : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_relative_index : 0 as * mut sys :: godot_method_bind , is_visible : 0 as * mut sys :: godot_method_bind , set_absolute_index : 0 as * mut sys :: godot_method_bind , set_character : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_elapsed_time : 0 as * mut sys :: godot_method_bind , set_environment : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_relative_index : 0 as * mut sys :: godot_method_bind , set_visibility : 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 (|| { CharFXTransformMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CharFXTransform\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_absolute_index = (gd_api . godot_method_bind_get_method) (class_name , "get_absolute_index\0" . as_ptr () as * const c_char) ; table . get_character = (gd_api . godot_method_bind_get_method) (class_name , "get_character\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_elapsed_time = (gd_api . godot_method_bind_get_method) (class_name , "get_elapsed_time\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_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_offset\0" . as_ptr () as * const c_char) ; table . get_relative_index = (gd_api . godot_method_bind_get_method) (class_name , "get_relative_index\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 . set_absolute_index = (gd_api . godot_method_bind_get_method) (class_name , "set_absolute_index\0" . as_ptr () as * const c_char) ; table . set_character = (gd_api . godot_method_bind_get_method) (class_name , "set_character\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_elapsed_time = (gd_api . godot_method_bind_get_method) (class_name , "set_elapsed_time\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_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_offset\0" . as_ptr () as * const c_char) ; table . set_relative_index = (gd_api . godot_method_bind_get_method) (class_name , "set_relative_index\0" . as_ptr () as * const c_char) ; table . set_visibility = (gd_api . godot_method_bind_get_method) (class_name , "set_visibility\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-60c8dbcfaf0f3dfc/out/generated.rs:718:3083 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:724:8263 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:730:26438 [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 Light2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_light2d.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`Light2D` 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\nLight2D 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 Light2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Mode (pub i64) ; impl Mode { pub const ADD : Mode = Mode (0i64) ; pub const SUB : Mode = Mode (1i64) ; pub const MIX : Mode = Mode (2i64) ; pub const MASK : 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 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShadowFilter (pub i64) ; impl ShadowFilter { pub const NONE : ShadowFilter = ShadowFilter (0i64) ; pub const PCF3 : ShadowFilter = ShadowFilter (1i64) ; pub const PCF5 : ShadowFilter = ShadowFilter (2i64) ; pub const PCF7 : ShadowFilter = ShadowFilter (3i64) ; pub const PCF9 : ShadowFilter = ShadowFilter (4i64) ; pub const PCF13 : ShadowFilter = ShadowFilter (5i64) ; } impl From < i64 > for ShadowFilter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShadowFilter > for i64 { # [inline] fn from (v : ShadowFilter) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Light2D { pub const MODE_ADD : i64 = 0i64 ; pub const MODE_MASK : i64 = 3i64 ; pub const MODE_MIX : i64 = 2i64 ; pub const MODE_SUB : i64 = 1i64 ; pub const SHADOW_FILTER_NONE : i64 = 0i64 ; pub const SHADOW_FILTER_PCF13 : i64 = 5i64 ; pub const SHADOW_FILTER_PCF3 : i64 = 1i64 ; pub const SHADOW_FILTER_PCF5 : i64 = 2i64 ; pub const SHADOW_FILTER_PCF7 : i64 = 3i64 ; pub const SHADOW_FILTER_PCF9 : i64 = 4i64 ; } impl Light2D { # [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 = Light2DMethodTable :: 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 Light2D's [Color]."] # [doc = ""] # [inline] pub fn color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The Light2D's energy value. The larger the value, the stronger the light."] # [doc = ""] # [inline] pub fn energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The height of the Light2D. Used with 2D normal mapping."] # [doc = ""] # [inline] pub fn height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The layer mask. Only objects with a matching mask will be affected by the Light2D."] # [doc = ""] # [inline] pub fn item_cull_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_item_cull_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The shadow mask. Used with [LightOccluder2D] to cast shadows. Only occluders with a matching light mask will cast shadows."] # [doc = ""] # [inline] pub fn item_shadow_cull_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_item_shadow_cull_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Maximum layer value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn layer_range_max (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_layer_range_max ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Minimum layer value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn layer_range_min (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_layer_range_min ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The Light2D's mode. See [enum Mode] constants for values."] # [doc = ""] # [inline] pub fn mode (& self) -> crate :: generated :: light_2d :: Mode { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: light_2d :: Mode (ret) } } # [doc = "Shadow buffer size."] # [doc = ""] # [inline] pub fn shadow_buffer_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_shadow_buffer_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "[Color] of shadows cast by the Light2D."] # [doc = ""] # [inline] pub fn shadow_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_shadow_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Shadow filter type. See [enum ShadowFilter] for possible values."] # [doc = ""] # [inline] pub fn shadow_filter (& self) -> crate :: generated :: light_2d :: ShadowFilter { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_shadow_filter ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: light_2d :: ShadowFilter (ret) } } # [doc = "Smooth shadow gradient length."] # [doc = ""] # [inline] pub fn shadow_gradient_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_shadow_gradient_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Smoothing value for shadows."] # [doc = ""] # [inline] pub fn shadow_smooth (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_shadow_smooth ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "[Texture] used for the Light2D's appearance."] # [doc = ""] # [inline] pub fn texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: 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 offset of the Light2D's `texture`."] # [doc = ""] # [inline] pub fn texture_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: 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 scale factor."] # [doc = ""] # [inline] pub fn texture_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_texture_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Maximum `z` value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn z_range_max (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_z_range_max ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Minimum `z` value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn z_range_min (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . get_z_range_min ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, Light2D will only appear when editing the scene."] # [doc = ""] # [inline] pub fn is_editor_only (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . is_editor_only ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, Light2D will emit light."] # [doc = ""] # [inline] pub fn is_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . is_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the Light2D will cast shadows."] # [doc = ""] # [inline] pub fn is_shadow_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . is_shadow_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The Light2D's [Color]."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "If `true`, Light2D will only appear when editing the scene."] # [doc = ""] # [inline] pub fn set_editor_only (& self , editor_only : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: 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`, Light2D will emit light."] # [doc = ""] # [inline] pub fn set_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The Light2D's energy value. The larger the value, the stronger the light."] # [doc = ""] # [inline] pub fn set_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = "The height of the Light2D. Used with 2D normal mapping."] # [doc = ""] # [inline] pub fn set_height (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "The layer mask. Only objects with a matching mask will be affected by the Light2D."] # [doc = ""] # [inline] pub fn set_item_cull_mask (& self , item_cull_mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_item_cull_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , item_cull_mask) ; } } # [doc = "The shadow mask. Used with [LightOccluder2D] to cast shadows. Only occluders with a matching light mask will cast shadows."] # [doc = ""] # [inline] pub fn set_item_shadow_cull_mask (& self , item_shadow_cull_mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_item_shadow_cull_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , item_shadow_cull_mask) ; } } # [doc = "Maximum layer value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn set_layer_range_max (& self , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_layer_range_max ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , layer) ; } } # [doc = "Minimum layer value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn set_layer_range_min (& self , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_layer_range_min ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , layer) ; } } # [doc = "The Light2D's mode. See [enum Mode] constants for values."] # [doc = ""] # [inline] pub fn set_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Shadow buffer size."] # [doc = ""] # [inline] pub fn set_shadow_buffer_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_shadow_buffer_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "[Color] of shadows cast by the Light2D."] # [doc = ""] # [inline] pub fn set_shadow_color (& self , shadow_color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: 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`, the Light2D will cast shadows."] # [doc = ""] # [inline] pub fn set_shadow_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_shadow_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Shadow filter type. See [enum ShadowFilter] for possible values."] # [doc = ""] # [inline] pub fn set_shadow_filter (& self , filter : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_shadow_filter ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , filter) ; } } # [doc = "Smooth shadow gradient length."] # [doc = ""] # [inline] pub fn set_shadow_gradient_length (& self , multiplier : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_shadow_gradient_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , multiplier) ; } } # [doc = "Smoothing value for shadows."] # [doc = ""] # [inline] pub fn set_shadow_smooth (& self , smooth : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_shadow_smooth ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , smooth) ; } } # [doc = "[Texture] used for the Light2D's appearance."] # [doc = ""] # [inline] pub fn set_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "The offset of the Light2D's `texture`."] # [doc = ""] # [inline] pub fn set_texture_offset (& self , texture_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: 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 scale factor."] # [doc = ""] # [inline] pub fn set_texture_scale (& self , texture_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_texture_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , texture_scale) ; } } # [doc = "Maximum `z` value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn set_z_range_max (& self , z : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_z_range_max ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , z) ; } } # [doc = "Minimum `z` value of objects that are affected by the Light2D."] # [doc = ""] # [inline] pub fn set_z_range_min (& self , z : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Light2DMethodTable :: get (get_api ()) . set_z_range_min ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , z) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Light2D { } unsafe impl GodotObject for Light2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Light2D" } } impl QueueFree for Light2D { # [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 Light2D { 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 Light2D { # [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 Light2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Light2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Light2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Light2D { } impl Instanciable for Light2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Light2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Light2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_color : * mut sys :: godot_method_bind , pub get_energy : * mut sys :: godot_method_bind , pub get_height : * mut sys :: godot_method_bind , pub get_item_cull_mask : * mut sys :: godot_method_bind , pub get_item_shadow_cull_mask : * mut sys :: godot_method_bind , pub get_layer_range_max : * mut sys :: godot_method_bind , pub get_layer_range_min : * mut sys :: godot_method_bind , pub get_mode : * mut sys :: godot_method_bind , pub get_shadow_buffer_size : * mut sys :: godot_method_bind , pub get_shadow_color : * mut sys :: godot_method_bind , pub get_shadow_filter : * mut sys :: godot_method_bind , pub get_shadow_gradient_length : * mut sys :: godot_method_bind , pub get_shadow_smooth : * 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_scale : * mut sys :: godot_method_bind , pub get_z_range_max : * mut sys :: godot_method_bind , pub get_z_range_min : * mut sys :: godot_method_bind , pub is_editor_only : * mut sys :: godot_method_bind , pub is_enabled : * mut sys :: godot_method_bind , pub is_shadow_enabled : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_editor_only : * mut sys :: godot_method_bind , pub set_enabled : * mut sys :: godot_method_bind , pub set_energy : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_item_cull_mask : * mut sys :: godot_method_bind , pub set_item_shadow_cull_mask : * mut sys :: godot_method_bind , pub set_layer_range_max : * mut sys :: godot_method_bind , pub set_layer_range_min : * mut sys :: godot_method_bind , pub set_mode : * mut sys :: godot_method_bind , pub set_shadow_buffer_size : * mut sys :: godot_method_bind , pub set_shadow_color : * mut sys :: godot_method_bind , pub set_shadow_enabled : * mut sys :: godot_method_bind , pub set_shadow_filter : * mut sys :: godot_method_bind , pub set_shadow_gradient_length : * mut sys :: godot_method_bind , pub set_shadow_smooth : * 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_scale : * mut sys :: godot_method_bind , pub set_z_range_max : * mut sys :: godot_method_bind , pub set_z_range_min : * mut sys :: godot_method_bind } impl Light2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Light2DMethodTable = Light2DMethodTable { class_constructor : None , get_color : 0 as * mut sys :: godot_method_bind , get_energy : 0 as * mut sys :: godot_method_bind , get_height : 0 as * mut sys :: godot_method_bind , get_item_cull_mask : 0 as * mut sys :: godot_method_bind , get_item_shadow_cull_mask : 0 as * mut sys :: godot_method_bind , get_layer_range_max : 0 as * mut sys :: godot_method_bind , get_layer_range_min : 0 as * mut sys :: godot_method_bind , get_mode : 0 as * mut sys :: godot_method_bind , get_shadow_buffer_size : 0 as * mut sys :: godot_method_bind , get_shadow_color : 0 as * mut sys :: godot_method_bind , get_shadow_filter : 0 as * mut sys :: godot_method_bind , get_shadow_gradient_length : 0 as * mut sys :: godot_method_bind , get_shadow_smooth : 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_scale : 0 as * mut sys :: godot_method_bind , get_z_range_max : 0 as * mut sys :: godot_method_bind , get_z_range_min : 0 as * mut sys :: godot_method_bind , is_editor_only : 0 as * mut sys :: godot_method_bind , is_enabled : 0 as * mut sys :: godot_method_bind , is_shadow_enabled : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_editor_only : 0 as * mut sys :: godot_method_bind , set_enabled : 0 as * mut sys :: godot_method_bind , set_energy : 0 as * mut sys :: godot_method_bind , set_height : 0 as * mut sys :: godot_method_bind , set_item_cull_mask : 0 as * mut sys :: godot_method_bind , set_item_shadow_cull_mask : 0 as * mut sys :: godot_method_bind , set_layer_range_max : 0 as * mut sys :: godot_method_bind , set_layer_range_min : 0 as * mut sys :: godot_method_bind , set_mode : 0 as * mut sys :: godot_method_bind , set_shadow_buffer_size : 0 as * mut sys :: godot_method_bind , set_shadow_color : 0 as * mut sys :: godot_method_bind , set_shadow_enabled : 0 as * mut sys :: godot_method_bind , set_shadow_filter : 0 as * mut sys :: godot_method_bind , set_shadow_gradient_length : 0 as * mut sys :: godot_method_bind , set_shadow_smooth : 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_scale : 0 as * mut sys :: godot_method_bind , set_z_range_max : 0 as * mut sys :: godot_method_bind , set_z_range_min : 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 (|| { Light2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Light2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_color = (gd_api . godot_method_bind_get_method) (class_name , "get_color\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_height = (gd_api . godot_method_bind_get_method) (class_name , "get_height\0" . as_ptr () as * const c_char) ; table . get_item_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_item_cull_mask\0" . as_ptr () as * const c_char) ; table . get_item_shadow_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_item_shadow_cull_mask\0" . as_ptr () as * const c_char) ; table . get_layer_range_max = (gd_api . godot_method_bind_get_method) (class_name , "get_layer_range_max\0" . as_ptr () as * const c_char) ; table . get_layer_range_min = (gd_api . godot_method_bind_get_method) (class_name , "get_layer_range_min\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_shadow_buffer_size = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_buffer_size\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_filter = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_filter\0" . as_ptr () as * const c_char) ; table . get_shadow_gradient_length = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_gradient_length\0" . as_ptr () as * const c_char) ; table . get_shadow_smooth = (gd_api . godot_method_bind_get_method) (class_name , "get_shadow_smooth\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_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_scale\0" . as_ptr () as * const c_char) ; table . get_z_range_max = (gd_api . godot_method_bind_get_method) (class_name , "get_z_range_max\0" . as_ptr () as * const c_char) ; table . get_z_range_min = (gd_api . godot_method_bind_get_method) (class_name , "get_z_range_min\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_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_enabled\0" . as_ptr () as * const c_char) ; table . is_shadow_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_shadow_enabled\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_editor_only = (gd_api . godot_method_bind_get_method) (class_name , "set_editor_only\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_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_energy\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_item_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_item_cull_mask\0" . as_ptr () as * const c_char) ; table . set_item_shadow_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_item_shadow_cull_mask\0" . as_ptr () as * const c_char) ; table . set_layer_range_max = (gd_api . godot_method_bind_get_method) (class_name , "set_layer_range_max\0" . as_ptr () as * const c_char) ; table . set_layer_range_min = (gd_api . godot_method_bind_get_method) (class_name , "set_layer_range_min\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_shadow_buffer_size = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_buffer_size\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_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_enabled\0" . as_ptr () as * const c_char) ; table . set_shadow_filter = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_filter\0" . as_ptr () as * const c_char) ; table . set_shadow_gradient_length = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_gradient_length\0" . as_ptr () as * const c_char) ; table . set_shadow_smooth = (gd_api . godot_method_bind_get_method) (class_name , "set_shadow_smooth\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_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_scale\0" . as_ptr () as * const c_char) ; table . set_z_range_max = (gd_api . godot_method_bind_get_method) (class_name , "set_z_range_max\0" . as_ptr () as * const c_char) ; table . set_z_range_min = (gd_api . godot_method_bind_get_method) (class_name , "set_z_range_min\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-60c8dbcfaf0f3dfc/out/generated.rs:736:4251 [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 PackedDataContainer` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_packeddatacontainer.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\nPackedDataContainer 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 PackedDataContainer { this : RawObject < Self > , } impl PackedDataContainer { # [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 = PackedDataContainerMethodTable :: 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 pack (& self , value : impl OwnedToVariant) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = PackedDataContainerMethodTable :: get (get_api ()) . pack ; let ret = crate :: icalls :: icallptr_i64_var (method_bind , self . this . sys () . as_ptr () , value . owned_to_variant ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PackedDataContainerMethodTable :: 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 PackedDataContainer { } unsafe impl GodotObject for PackedDataContainer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PackedDataContainer" } } impl std :: ops :: Deref for PackedDataContainer { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PackedDataContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PackedDataContainer { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PackedDataContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for PackedDataContainer { } impl Instanciable for PackedDataContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PackedDataContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PackedDataContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub pack : * mut sys :: godot_method_bind , pub size : * mut sys :: godot_method_bind } impl PackedDataContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PackedDataContainerMethodTable = PackedDataContainerMethodTable { class_constructor : None , pack : 0 as * mut sys :: godot_method_bind , 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 (|| { PackedDataContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PackedDataContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . pack = (gd_api . godot_method_bind_get_method) (class_name , "pack\0" . as_ptr () as * const c_char) ; 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-60c8dbcfaf0f3dfc/out/generated.rs:742:4238 [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 CircleShape2D` inherits `Shape2D` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_circleshape2d.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\nCircleShape2D inherits methods from:\n - [Shape2D](struct.Shape2D.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 CircleShape2D { this : RawObject < Self > , } impl CircleShape2D { # [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 = CircleShape2DMethodTable :: 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 circle's radius."] # [doc = ""] # [inline] pub fn radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CircleShape2DMethodTable :: get (get_api ()) . get_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The circle's radius."] # [doc = ""] # [inline] pub fn set_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CircleShape2DMethodTable :: get (get_api ()) . set_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CircleShape2D { } unsafe impl GodotObject for CircleShape2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CircleShape2D" } } impl std :: ops :: Deref for CircleShape2D { type Target = crate :: generated :: shape_2d :: Shape2D ; # [inline] fn deref (& self) -> & crate :: generated :: shape_2d :: Shape2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CircleShape2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape_2d :: Shape2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape_2d :: Shape2D > for CircleShape2D { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CircleShape2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CircleShape2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for CircleShape2D { } impl Instanciable for CircleShape2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CircleShape2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CircleShape2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_radius : * mut sys :: godot_method_bind , pub set_radius : * mut sys :: godot_method_bind } impl CircleShape2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CircleShape2DMethodTable = CircleShape2DMethodTable { class_constructor : None , get_radius : 0 as * mut sys :: godot_method_bind , set_radius : 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 (|| { CircleShape2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CircleShape2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_radius\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) ; } } } [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-60c8dbcfaf0f3dfc/out/generated.rs:748:4189 [INFO] [stdout] | [INFO] [stdout] 748 | ...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] 748 | # [doc = "`core class Position3D` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_position3d.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`Position3D` 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\nPosition3D 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 Position3D { this : RawObject < Self > , } impl Position3D { # [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 = Position3DMethodTable :: 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 Position3D { } unsafe impl GodotObject for Position3D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Position3D" } } impl QueueFree for Position3D { # [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 Position3D { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Position3D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for Position3D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Position3D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Position3D { } impl Instanciable for Position3D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Position3D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Position3DMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl Position3DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Position3DMethodTable = Position3DMethodTable { 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 (|| { Position3DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Position3D\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-60c8dbcfaf0f3dfc/out/generated.rs:754:4926 [INFO] [stdout] | [INFO] [stdout] 754 | ... : 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] 754 | # [doc = "`core class AudioEffectEQ` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffecteq.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\nAudioEffectEQ 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 AudioEffectEQ { this : RawObject < Self > , } impl AudioEffectEQ { # [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 = AudioEffectEQMethodTable :: 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 number of bands of the equalizer."] # [doc = ""] # [inline] pub fn get_band_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectEQMethodTable :: get (get_api ()) . get_band_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the band's gain at the specified index, in dB."] # [doc = ""] # [inline] pub fn get_band_gain_db (& self , band_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectEQMethodTable :: get (get_api ()) . get_band_gain_db ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , band_idx) ; ret as _ } } # [doc = "Sets band's gain at the specified index, in dB."] # [doc = ""] # [inline] pub fn set_band_gain_db (& self , band_idx : i64 , volume_db : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectEQMethodTable :: get (get_api ()) . set_band_gain_db ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , band_idx , volume_db) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectEQ { } unsafe impl GodotObject for AudioEffectEQ { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectEQ" } } impl std :: ops :: Deref for AudioEffectEQ { 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 AudioEffectEQ { # [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 AudioEffectEQ { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectEQ { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectEQ { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectEQ { } impl Instanciable for AudioEffectEQ { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectEQ :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectEQMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_band_count : * mut sys :: godot_method_bind , pub get_band_gain_db : * mut sys :: godot_method_bind , pub set_band_gain_db : * mut sys :: godot_method_bind } impl AudioEffectEQMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectEQMethodTable = AudioEffectEQMethodTable { class_constructor : None , get_band_count : 0 as * mut sys :: godot_method_bind , get_band_gain_db : 0 as * mut sys :: godot_method_bind , set_band_gain_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 (|| { AudioEffectEQMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectEQ\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_band_count = (gd_api . godot_method_bind_get_method) (class_name , "get_band_count\0" . as_ptr () as * const c_char) ; table . get_band_gain_db = (gd_api . godot_method_bind_get_method) (class_name , "get_band_gain_db\0" . as_ptr () as * const c_char) ; table . set_band_gain_db = (gd_api . godot_method_bind_get_method) (class_name , "set_band_gain_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-60c8dbcfaf0f3dfc/out/generated.rs:760:7206 [INFO] [stdout] | [INFO] [stdout] 760 | ... : 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] 760 | # [doc = "`core class CapsuleMesh` inherits `PrimitiveMesh` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_capsulemesh.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\nCapsuleMesh 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 CapsuleMesh { this : RawObject < Self > , } impl CapsuleMesh { # [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 = CapsuleMeshMethodTable :: 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 of the capsule mesh from the center point."] # [doc = ""] # [inline] pub fn mid_height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: get (get_api ()) . get_mid_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of radial segments on the capsule mesh."] # [doc = ""] # [inline] pub fn radial_segments (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: get (get_api ()) . get_radial_segments ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Radius of the capsule mesh."] # [doc = ""] # [inline] pub fn radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: get (get_api ()) . get_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of rings along the height of the capsule."] # [doc = ""] # [inline] pub fn rings (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: get (get_api ()) . get_rings ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Height of the capsule mesh from the center point."] # [doc = ""] # [inline] pub fn set_mid_height (& self , mid_height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: get (get_api ()) . set_mid_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mid_height) ; } } # [doc = "Number of radial segments on the capsule mesh."] # [doc = ""] # [inline] pub fn set_radial_segments (& self , segments : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: get (get_api ()) . set_radial_segments ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , segments) ; } } # [doc = "Radius of the capsule mesh."] # [doc = ""] # [inline] pub fn set_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: get (get_api ()) . set_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = "Number of rings along the height of the capsule."] # [doc = ""] # [inline] pub fn set_rings (& self , rings : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleMeshMethodTable :: 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 CapsuleMesh { } unsafe impl GodotObject for CapsuleMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CapsuleMesh" } } impl std :: ops :: Deref for CapsuleMesh { 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 CapsuleMesh { # [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 CapsuleMesh { } unsafe impl SubClass < crate :: generated :: mesh :: Mesh > for CapsuleMesh { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CapsuleMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CapsuleMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for CapsuleMesh { } impl Instanciable for CapsuleMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CapsuleMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CapsuleMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_mid_height : * 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_mid_height : * 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 CapsuleMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CapsuleMeshMethodTable = CapsuleMeshMethodTable { class_constructor : None , get_mid_height : 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_mid_height : 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 (|| { CapsuleMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CapsuleMesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_mid_height = (gd_api . godot_method_bind_get_method) (class_name , "get_mid_height\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_mid_height = (gd_api . godot_method_bind_get_method) (class_name , "set_mid_height\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-60c8dbcfaf0f3dfc/out/generated.rs:766:2890 [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 = "`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-60c8dbcfaf0f3dfc/out/generated.rs:772:4217 [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 PlaneShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_planeshape.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\nPlaneShape 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 PlaneShape { this : RawObject < Self > , } impl PlaneShape { # [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 = PlaneShapeMethodTable :: 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 [Plane] used by the [PlaneShape] for collision."] # [doc = ""] # [inline] pub fn plane (& self) -> Plane { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneShapeMethodTable :: get (get_api ()) . get_plane ; let ret = crate :: icalls :: icallptr_plane (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The [Plane] used by the [PlaneShape] for collision."] # [doc = ""] # [inline] pub fn set_plane (& self , plane : Plane) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneShapeMethodTable :: get (get_api ()) . set_plane ; let ret = crate :: icalls :: icallptr_void_plane (method_bind , self . this . sys () . as_ptr () , plane) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PlaneShape { } unsafe impl GodotObject for PlaneShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PlaneShape" } } impl std :: ops :: Deref for PlaneShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PlaneShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for PlaneShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PlaneShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PlaneShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for PlaneShape { } impl Instanciable for PlaneShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PlaneShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PlaneShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_plane : * mut sys :: godot_method_bind , pub set_plane : * mut sys :: godot_method_bind } impl PlaneShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PlaneShapeMethodTable = PlaneShapeMethodTable { class_constructor : None , get_plane : 0 as * mut sys :: godot_method_bind , set_plane : 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 (|| { PlaneShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PlaneShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_plane = (gd_api . godot_method_bind_get_method) (class_name , "get_plane\0" . as_ptr () as * const c_char) ; table . set_plane = (gd_api . godot_method_bind_get_method) (class_name , "set_plane\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-60c8dbcfaf0f3dfc/out/generated.rs:784:4931 [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 VisualShaderNodeTransformConstant` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodetransformconstant.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\nVisualShaderNodeTransformConstant 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 VisualShaderNodeTransformConstant { this : RawObject < Self > , } impl VisualShaderNodeTransformConstant { # [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 = VisualShaderNodeTransformConstantMethodTable :: 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 [Transform] constant which represents the state of this node."] # [doc = ""] # [inline] pub fn constant (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTransformConstantMethodTable :: get (get_api ()) . get_constant ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "A [Transform] constant which represents the state of this node."] # [doc = ""] # [inline] pub fn set_constant (& self , value : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTransformConstantMethodTable :: get (get_api ()) . set_constant ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeTransformConstant { } unsafe impl GodotObject for VisualShaderNodeTransformConstant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeTransformConstant" } } impl std :: ops :: Deref for VisualShaderNodeTransformConstant { 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 VisualShaderNodeTransformConstant { # [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 VisualShaderNodeTransformConstant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeTransformConstant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeTransformConstant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeTransformConstant { } impl Instanciable for VisualShaderNodeTransformConstant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeTransformConstant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeTransformConstantMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_constant : * mut sys :: godot_method_bind , pub set_constant : * mut sys :: godot_method_bind } impl VisualShaderNodeTransformConstantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeTransformConstantMethodTable = VisualShaderNodeTransformConstantMethodTable { class_constructor : None , get_constant : 0 as * mut sys :: godot_method_bind , set_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 (|| { VisualShaderNodeTransformConstantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeTransformConstant\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_constant\0" . as_ptr () as * const c_char) ; table . set_constant = (gd_api . godot_method_bind_get_method) (class_name , "set_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-60c8dbcfaf0f3dfc/out/generated.rs:790:3711 [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 WebRTCPeerConnectionGDNative` inherits `WebRTCPeerConnection` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_webrtcpeerconnectiongdnative.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\nWebRTCPeerConnectionGDNative inherits methods from:\n - [WebRTCPeerConnection](struct.WebRTCPeerConnection.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 WebRTCPeerConnectionGDNative { this : RawObject < Self > , } impl WebRTCPeerConnectionGDNative { # [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 = WebRTCPeerConnectionGDNativeMethodTable :: 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 WebRTCPeerConnectionGDNative { } unsafe impl GodotObject for WebRTCPeerConnectionGDNative { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "WebRTCPeerConnectionGDNative" } } impl std :: ops :: Deref for WebRTCPeerConnectionGDNative { type Target = crate :: generated :: web_rtc_peer_connection :: WebRTCPeerConnection ; # [inline] fn deref (& self) -> & crate :: generated :: web_rtc_peer_connection :: WebRTCPeerConnection { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WebRTCPeerConnectionGDNative { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: web_rtc_peer_connection :: WebRTCPeerConnection { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: web_rtc_peer_connection :: WebRTCPeerConnection > for WebRTCPeerConnectionGDNative { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for WebRTCPeerConnectionGDNative { } unsafe impl SubClass < crate :: generated :: object :: Object > for WebRTCPeerConnectionGDNative { } impl Instanciable for WebRTCPeerConnectionGDNative { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { WebRTCPeerConnectionGDNative :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WebRTCPeerConnectionGDNativeMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl WebRTCPeerConnectionGDNativeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WebRTCPeerConnectionGDNativeMethodTable = WebRTCPeerConnectionGDNativeMethodTable { 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 (|| { WebRTCPeerConnectionGDNativeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WebRTCPeerConnectionGDNative\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-60c8dbcfaf0f3dfc/out/generated.rs:796:10038 [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 CSGCylinder` inherits `CSGPrimitive` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_csgcylinder.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`CSGCylinder` 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\nCSGCylinder inherits methods from:\n - [CSGPrimitive](struct.CSGPrimitive.html)\n - [CSGShape](struct.CSGShape.html)\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 CSGCylinder { this : RawObject < Self > , } impl CSGCylinder { # [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 = CSGCylinderMethodTable :: 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 height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn material (& self) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . get_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 = ""] # [doc = ""] # [inline] pub fn radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . get_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn sides (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . get_sides ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn smooth_faces (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . get_smooth_faces ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_cone (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . is_cone ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cone (& self , cone : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . set_cone ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , cone) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_height (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . set_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_material (& self , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . set_material ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , material . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . set_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_sides (& self , sides : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . set_sides ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , sides) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_smooth_faces (& self , smooth_faces : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGCylinderMethodTable :: get (get_api ()) . set_smooth_faces ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , smooth_faces) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CSGCylinder { } unsafe impl GodotObject for CSGCylinder { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CSGCylinder" } } impl QueueFree for CSGCylinder { # [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 CSGCylinder { type Target = crate :: generated :: csg_primitive :: CSGPrimitive ; # [inline] fn deref (& self) -> & crate :: generated :: csg_primitive :: CSGPrimitive { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CSGCylinder { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: csg_primitive :: CSGPrimitive { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: csg_primitive :: CSGPrimitive > for CSGCylinder { } unsafe impl SubClass < crate :: generated :: csg_shape :: CSGShape > for CSGCylinder { } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for CSGCylinder { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for CSGCylinder { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CSGCylinder { } unsafe impl SubClass < crate :: generated :: node :: Node > for CSGCylinder { } unsafe impl SubClass < crate :: generated :: object :: Object > for CSGCylinder { } impl Instanciable for CSGCylinder { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CSGCylinder :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CSGCylinderMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_height : * mut sys :: godot_method_bind , pub get_material : * mut sys :: godot_method_bind , pub get_radius : * mut sys :: godot_method_bind , pub get_sides : * mut sys :: godot_method_bind , pub get_smooth_faces : * mut sys :: godot_method_bind , pub is_cone : * mut sys :: godot_method_bind , pub set_cone : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_material : * mut sys :: godot_method_bind , pub set_radius : * mut sys :: godot_method_bind , pub set_sides : * mut sys :: godot_method_bind , pub set_smooth_faces : * mut sys :: godot_method_bind } impl CSGCylinderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CSGCylinderMethodTable = CSGCylinderMethodTable { class_constructor : None , get_height : 0 as * mut sys :: godot_method_bind , get_material : 0 as * mut sys :: godot_method_bind , get_radius : 0 as * mut sys :: godot_method_bind , get_sides : 0 as * mut sys :: godot_method_bind , get_smooth_faces : 0 as * mut sys :: godot_method_bind , is_cone : 0 as * mut sys :: godot_method_bind , set_cone : 0 as * mut sys :: godot_method_bind , set_height : 0 as * mut sys :: godot_method_bind , set_material : 0 as * mut sys :: godot_method_bind , set_radius : 0 as * mut sys :: godot_method_bind , set_sides : 0 as * mut sys :: godot_method_bind , set_smooth_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 (|| { CSGCylinderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CSGCylinder\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_material = (gd_api . godot_method_bind_get_method) (class_name , "get_material\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_sides = (gd_api . godot_method_bind_get_method) (class_name , "get_sides\0" . as_ptr () as * const c_char) ; table . get_smooth_faces = (gd_api . godot_method_bind_get_method) (class_name , "get_smooth_faces\0" . as_ptr () as * const c_char) ; table . is_cone = (gd_api . godot_method_bind_get_method) (class_name , "is_cone\0" . as_ptr () as * const c_char) ; table . set_cone = (gd_api . godot_method_bind_get_method) (class_name , "set_cone\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_material = (gd_api . godot_method_bind_get_method) (class_name , "set_material\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_sides = (gd_api . godot_method_bind_get_method) (class_name , "set_sides\0" . as_ptr () as * const c_char) ; table . set_smooth_faces = (gd_api . godot_method_bind_get_method) (class_name , "set_smooth_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-60c8dbcfaf0f3dfc/out/generated.rs:802:9477 [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 GDNativeLibrary` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_gdnativelibrary.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\nGDNativeLibrary 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 GDNativeLibrary { this : RawObject < Self > , } impl GDNativeLibrary { # [doc = r" Returns the GDNativeLibrary object of this library. Can be used to construct NativeScript objects."] # [doc = r""] # [doc = r" See also `Instance::new` for a typed API."] # [inline] pub fn current_library () -> & 'static Self { unsafe { let this = gdnative_core :: private :: get_gdnative_library_sys () ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked (this) ; Self :: cast_ref (this) } } # [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 = GDNativeLibraryMethodTable :: 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 config_file (& self) -> Option < Ref < crate :: generated :: config_file :: ConfigFile , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . get_config_file ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: config_file :: ConfigFile , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_current_dependencies (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . get_current_dependencies ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_current_library_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . get_current_library_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn symbol_prefix (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . get_symbol_prefix ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_reloadable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . is_reloadable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_singleton (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . is_singleton ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_config_file (& self , config_file : impl AsArg < crate :: generated :: config_file :: ConfigFile >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . set_config_file ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , config_file . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_load_once (& self , load_once : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . set_load_once ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , load_once) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_reloadable (& self , reloadable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . set_reloadable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , reloadable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_singleton (& self , singleton : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . set_singleton ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , singleton) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_symbol_prefix (& self , symbol_prefix : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . set_symbol_prefix ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , symbol_prefix . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn should_load_once (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeLibraryMethodTable :: get (get_api ()) . should_load_once ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for GDNativeLibrary { } unsafe impl GodotObject for GDNativeLibrary { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "GDNativeLibrary" } } impl std :: ops :: Deref for GDNativeLibrary { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GDNativeLibrary { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for GDNativeLibrary { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for GDNativeLibrary { } unsafe impl SubClass < crate :: generated :: object :: Object > for GDNativeLibrary { } impl Instanciable for GDNativeLibrary { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GDNativeLibrary :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GDNativeLibraryMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_config_file : * mut sys :: godot_method_bind , pub get_current_dependencies : * mut sys :: godot_method_bind , pub get_current_library_path : * mut sys :: godot_method_bind , pub get_symbol_prefix : * mut sys :: godot_method_bind , pub is_reloadable : * mut sys :: godot_method_bind , pub is_singleton : * mut sys :: godot_method_bind , pub set_config_file : * mut sys :: godot_method_bind , pub set_load_once : * mut sys :: godot_method_bind , pub set_reloadable : * mut sys :: godot_method_bind , pub set_singleton : * mut sys :: godot_method_bind , pub set_symbol_prefix : * mut sys :: godot_method_bind , pub should_load_once : * mut sys :: godot_method_bind } impl GDNativeLibraryMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GDNativeLibraryMethodTable = GDNativeLibraryMethodTable { class_constructor : None , get_config_file : 0 as * mut sys :: godot_method_bind , get_current_dependencies : 0 as * mut sys :: godot_method_bind , get_current_library_path : 0 as * mut sys :: godot_method_bind , get_symbol_prefix : 0 as * mut sys :: godot_method_bind , is_reloadable : 0 as * mut sys :: godot_method_bind , is_singleton : 0 as * mut sys :: godot_method_bind , set_config_file : 0 as * mut sys :: godot_method_bind , set_load_once : 0 as * mut sys :: godot_method_bind , set_reloadable : 0 as * mut sys :: godot_method_bind , set_singleton : 0 as * mut sys :: godot_method_bind , set_symbol_prefix : 0 as * mut sys :: godot_method_bind , should_load_once : 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 (|| { GDNativeLibraryMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GDNativeLibrary\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_config_file = (gd_api . godot_method_bind_get_method) (class_name , "get_config_file\0" . as_ptr () as * const c_char) ; table . get_current_dependencies = (gd_api . godot_method_bind_get_method) (class_name , "get_current_dependencies\0" . as_ptr () as * const c_char) ; table . get_current_library_path = (gd_api . godot_method_bind_get_method) (class_name , "get_current_library_path\0" . as_ptr () as * const c_char) ; table . get_symbol_prefix = (gd_api . godot_method_bind_get_method) (class_name , "get_symbol_prefix\0" . as_ptr () as * const c_char) ; table . is_reloadable = (gd_api . godot_method_bind_get_method) (class_name , "is_reloadable\0" . as_ptr () as * const c_char) ; table . is_singleton = (gd_api . godot_method_bind_get_method) (class_name , "is_singleton\0" . as_ptr () as * const c_char) ; table . set_config_file = (gd_api . godot_method_bind_get_method) (class_name , "set_config_file\0" . as_ptr () as * const c_char) ; table . set_load_once = (gd_api . godot_method_bind_get_method) (class_name , "set_load_once\0" . as_ptr () as * const c_char) ; table . set_reloadable = (gd_api . godot_method_bind_get_method) (class_name , "set_reloadable\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) ; table . set_symbol_prefix = (gd_api . godot_method_bind_get_method) (class_name , "set_symbol_prefix\0" . as_ptr () as * const c_char) ; table . should_load_once = (gd_api . godot_method_bind_get_method) (class_name , "should_load_once\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-60c8dbcfaf0f3dfc/out/generated.rs:808:12374 [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 singleton class ProjectSettings` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_projectsettings.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\nProjectSettings 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 ProjectSettings { this : RawObject < Self > , } impl ProjectSettings { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("ProjectSettings\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 = "_Sample code is GDScript unless otherwise noted._\n\nAdds a custom property info to a property. The dictionary must contain:\n- `name`: [String] (the property's name)\n- `type`: [int] (see [enum Variant.Type])\n- optionally `hint`: [int] (see [enum PropertyHint]) and `hint_string`: [String]\n**Example:**\n```gdscript\nProjectSettings.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\nProjectSettings.add_property_info(property_info)\n```"] # [doc = ""] # [inline] pub fn add_property_info (& self , hint : Dictionary) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . add_property_info ; let ret = crate :: icalls :: icallptr_void_dict (method_bind , self . this . sys () . as_ptr () , hint) ; } } # [doc = "Clears the whole configuration (not recommended, may break things)."] # [doc = ""] # [inline] pub fn clear (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Returns the order of a configuration value (influences when saved to the config file)."] # [doc = ""] # [inline] pub fn get_order (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . get_order ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns the value of a setting.\n**Example:**\n```gdscript\nprint(ProjectSettings.get_setting(\"application/config/name\"))\n```"] # [doc = ""] # [inline] pub fn get_setting (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: 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 = "Converts a localized path (`res://`) to a full native OS path."] # [doc = ""] # [inline] pub fn globalize_path (& self , path : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . globalize_path ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if a configuration value is present."] # [doc = ""] # [inline] pub fn has_setting (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . has_setting ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Loads the contents of the .pck or .zip file specified by `pack` into the resource filesystem (`res://`). Returns `true` on success.\n**Note:** If a file from `pack` shares the same path as a file already in the resource filesystem, any attempts to load that file will use the file from `pack` unless `replace_files` is set to `false`.\n# Default Arguments\n* `replace_files` - `true`"] # [doc = ""] # [inline] pub fn load_resource_pack (& self , pack : impl Into < GodotString > , replace_files : bool , offset : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . load_resource_pack ; let ret = crate :: icalls :: icallptr_bool_str_bool_i64 (method_bind , self . this . sys () . as_ptr () , pack . into () , replace_files , offset) ; ret as _ } } # [doc = "Convert a path to a localized path (`res://` path)."] # [doc = ""] # [inline] pub fn localize_path (& self , path : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . localize_path ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if the specified property exists and its initial value differs from the current value."] # [doc = ""] # [inline] pub fn property_can_revert (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: 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 specified property's initial value. Returns `null` if the property does not exist."] # [doc = ""] # [inline] pub fn property_get_revert (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: 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 = "Saves the configuration to the `project.godot` file."] # [doc = ""] # [inline] pub fn save (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . save ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Saves the configuration to a custom file. The file extension must be `.godot` (to save in text-based [ConfigFile] format) or `.binary` (to save in binary format)."] # [doc = ""] # [inline] pub fn save_custom (& self , file : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . save_custom ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , file . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Sets the specified property's initial value. This is the value the property reverts to."] # [doc = ""] # [inline] pub fn set_initial_value (& self , name : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . set_initial_value ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , name . into () , value . owned_to_variant ()) ; } } # [doc = "Sets the order of a configuration value (influences when saved to the config file)."] # [doc = ""] # [inline] pub fn set_order (& self , name : impl Into < GodotString > , position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: get (get_api ()) . set_order ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , position) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nSets the value of a setting.\n**Example:**\n```gdscript\nProjectSettings.set_setting(\"application/config/name\", \"Example\")\n```"] # [doc = ""] # [inline] pub fn set_setting (& self , name : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProjectSettingsMethodTable :: 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 ProjectSettings { } unsafe impl GodotObject for ProjectSettings { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ProjectSettings" } } impl std :: ops :: Deref for ProjectSettings { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ProjectSettings { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for ProjectSettings { } unsafe impl Send for ProjectSettings { } unsafe impl Sync for ProjectSettings { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ProjectSettingsMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_property_info : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_order : * mut sys :: godot_method_bind , pub get_setting : * mut sys :: godot_method_bind , pub globalize_path : * mut sys :: godot_method_bind , pub has_setting : * mut sys :: godot_method_bind , pub load_resource_pack : * mut sys :: godot_method_bind , pub localize_path : * mut sys :: godot_method_bind , pub property_can_revert : * mut sys :: godot_method_bind , pub property_get_revert : * mut sys :: godot_method_bind , pub save : * mut sys :: godot_method_bind , pub save_custom : * mut sys :: godot_method_bind , pub set_initial_value : * mut sys :: godot_method_bind , pub set_order : * mut sys :: godot_method_bind , pub set_setting : * mut sys :: godot_method_bind } impl ProjectSettingsMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ProjectSettingsMethodTable = ProjectSettingsMethodTable { class_constructor : None , add_property_info : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_order : 0 as * mut sys :: godot_method_bind , get_setting : 0 as * mut sys :: godot_method_bind , globalize_path : 0 as * mut sys :: godot_method_bind , has_setting : 0 as * mut sys :: godot_method_bind , load_resource_pack : 0 as * mut sys :: godot_method_bind , localize_path : 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 , save : 0 as * mut sys :: godot_method_bind , save_custom : 0 as * mut sys :: godot_method_bind , set_initial_value : 0 as * mut sys :: godot_method_bind , set_order : 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 (|| { ProjectSettingsMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ProjectSettings\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 . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . get_order = (gd_api . godot_method_bind_get_method) (class_name , "get_order\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 . globalize_path = (gd_api . godot_method_bind_get_method) (class_name , "globalize_path\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 . load_resource_pack = (gd_api . godot_method_bind_get_method) (class_name , "load_resource_pack\0" . as_ptr () as * const c_char) ; table . localize_path = (gd_api . godot_method_bind_get_method) (class_name , "localize_path\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 . save = (gd_api . godot_method_bind_get_method) (class_name , "save\0" . as_ptr () as * const c_char) ; table . save_custom = (gd_api . godot_method_bind_get_method) (class_name , "save_custom\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_order = (gd_api . godot_method_bind_get_method) (class_name , "set_order\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-60c8dbcfaf0f3dfc/out/generated.rs:814:4429 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:820:15421 [INFO] [stdout] | [INFO] [stdout] 820 | ... : 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] 820 | # [doc = "`core class DynamicFont` inherits `Font` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_dynamicfont.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\nDynamicFont inherits methods from:\n - [Font](struct.Font.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 DynamicFont { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SpacingType (pub i64) ; impl SpacingType { pub const TOP : SpacingType = SpacingType (0i64) ; pub const BOTTOM : SpacingType = SpacingType (1i64) ; pub const CHAR : SpacingType = SpacingType (2i64) ; pub const SPACE : SpacingType = SpacingType (3i64) ; } impl From < i64 > for SpacingType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SpacingType > for i64 { # [inline] fn from (v : SpacingType) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl DynamicFont { pub const SPACING_BOTTOM : i64 = 1i64 ; pub const SPACING_CHAR : i64 = 2i64 ; pub const SPACING_SPACE : i64 = 3i64 ; pub const SPACING_TOP : i64 = 0i64 ; } impl DynamicFont { # [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 = DynamicFontMethodTable :: 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 fallback font."] # [doc = ""] # [inline] pub fn add_fallback (& self , data : impl AsArg < crate :: generated :: dynamic_font_data :: DynamicFontData >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . add_fallback ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , data . as_arg_ptr ()) ; } } # [doc = "Returns a string containing all the characters available in the main and all the fallback fonts.\nIf a given character is included in more than one font, it appears only once in the returned string."] # [doc = ""] # [inline] pub fn get_available_chars (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_available_chars ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the fallback font at index `idx`."] # [doc = ""] # [inline] pub fn get_fallback (& self , idx : i64) -> Option < Ref < crate :: generated :: dynamic_font_data :: DynamicFontData , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_fallback ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: dynamic_font_data :: DynamicFontData , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of fallback fonts."] # [doc = ""] # [inline] pub fn get_fallback_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_fallback_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The font data."] # [doc = ""] # [inline] pub fn font_data (& self) -> Option < Ref < crate :: generated :: dynamic_font_data :: DynamicFontData , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_font_data ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: dynamic_font_data :: DynamicFontData , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The font outline's color.\n**Note:** It's recommended to leave this at the default value so that you can adjust it in individual controls. For example, if the outline is made black here, it won't be possible to change its color using a Label's font outline modulate theme item."] # [doc = ""] # [inline] pub fn outline_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_outline_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The font outline's thickness in pixels (not relative to the font size)."] # [doc = ""] # [inline] pub fn outline_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_outline_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The font size in pixels."] # [doc = ""] # [inline] pub fn size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Extra spacing at the top in pixels."] # [doc = ""] # [inline] pub fn spacing (& self , _type : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_spacing ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; ret as _ } } # [doc = "If `true`, filtering is used. This makes the font blurry instead of pixelated when scaling it if font oversampling is disabled or ineffective. It's recommended to enable this when using the font in a control whose size changes over time, unless a pixel art aesthetic is desired."] # [doc = ""] # [inline] pub fn use_filter (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_use_filter ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, mipmapping is used. This improves the font's appearance when downscaling it if font oversampling is disabled or ineffective."] # [doc = ""] # [inline] pub fn use_mipmaps (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . get_use_mipmaps ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes the fallback font at index `idx`."] # [doc = ""] # [inline] pub fn remove_fallback (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . remove_fallback ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Sets the fallback font at index `idx`."] # [doc = ""] # [inline] pub fn set_fallback (& self , idx : i64 , data : impl AsArg < crate :: generated :: dynamic_font_data :: DynamicFontData >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_fallback ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , idx , data . as_arg_ptr ()) ; } } # [doc = "The font data."] # [doc = ""] # [inline] pub fn set_font_data (& self , data : impl AsArg < crate :: generated :: dynamic_font_data :: DynamicFontData >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_font_data ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , data . as_arg_ptr ()) ; } } # [doc = "The font outline's color.\n**Note:** It's recommended to leave this at the default value so that you can adjust it in individual controls. For example, if the outline is made black here, it won't be possible to change its color using a Label's font outline modulate theme item."] # [doc = ""] # [inline] pub fn set_outline_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_outline_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The font outline's thickness in pixels (not relative to the font size)."] # [doc = ""] # [inline] pub fn set_outline_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_outline_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "The font size in pixels."] # [doc = ""] # [inline] pub fn set_size (& self , data : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , data) ; } } # [doc = "Extra spacing at the top in pixels."] # [doc = ""] # [inline] pub fn set_spacing (& self , _type : i64 , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_spacing ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , value) ; } } # [doc = "If `true`, filtering is used. This makes the font blurry instead of pixelated when scaling it if font oversampling is disabled or ineffective. It's recommended to enable this when using the font in a control whose size changes over time, unless a pixel art aesthetic is desired."] # [doc = ""] # [inline] pub fn set_use_filter (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_use_filter ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, mipmapping is used. This improves the font's appearance when downscaling it if font oversampling is disabled or ineffective."] # [doc = ""] # [inline] pub fn set_use_mipmaps (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = DynamicFontMethodTable :: get (get_api ()) . set_use_mipmaps ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for DynamicFont { } unsafe impl GodotObject for DynamicFont { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "DynamicFont" } } impl std :: ops :: Deref for DynamicFont { type Target = crate :: generated :: font :: Font ; # [inline] fn deref (& self) -> & crate :: generated :: font :: Font { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for DynamicFont { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: font :: Font { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: font :: Font > for DynamicFont { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for DynamicFont { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for DynamicFont { } unsafe impl SubClass < crate :: generated :: object :: Object > for DynamicFont { } impl Instanciable for DynamicFont { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { DynamicFont :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct DynamicFontMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_fallback : * mut sys :: godot_method_bind , pub get_available_chars : * mut sys :: godot_method_bind , pub get_fallback : * mut sys :: godot_method_bind , pub get_fallback_count : * mut sys :: godot_method_bind , pub get_font_data : * mut sys :: godot_method_bind , pub get_outline_color : * mut sys :: godot_method_bind , pub get_outline_size : * mut sys :: godot_method_bind , pub get_size : * mut sys :: godot_method_bind , pub get_spacing : * mut sys :: godot_method_bind , pub get_use_filter : * mut sys :: godot_method_bind , pub get_use_mipmaps : * mut sys :: godot_method_bind , pub remove_fallback : * mut sys :: godot_method_bind , pub set_fallback : * mut sys :: godot_method_bind , pub set_font_data : * mut sys :: godot_method_bind , pub set_outline_color : * mut sys :: godot_method_bind , pub set_outline_size : * mut sys :: godot_method_bind , pub set_size : * mut sys :: godot_method_bind , pub set_spacing : * mut sys :: godot_method_bind , pub set_use_filter : * mut sys :: godot_method_bind , pub set_use_mipmaps : * mut sys :: godot_method_bind } impl DynamicFontMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : DynamicFontMethodTable = DynamicFontMethodTable { class_constructor : None , add_fallback : 0 as * mut sys :: godot_method_bind , get_available_chars : 0 as * mut sys :: godot_method_bind , get_fallback : 0 as * mut sys :: godot_method_bind , get_fallback_count : 0 as * mut sys :: godot_method_bind , get_font_data : 0 as * mut sys :: godot_method_bind , get_outline_color : 0 as * mut sys :: godot_method_bind , get_outline_size : 0 as * mut sys :: godot_method_bind , get_size : 0 as * mut sys :: godot_method_bind , get_spacing : 0 as * mut sys :: godot_method_bind , get_use_filter : 0 as * mut sys :: godot_method_bind , get_use_mipmaps : 0 as * mut sys :: godot_method_bind , remove_fallback : 0 as * mut sys :: godot_method_bind , set_fallback : 0 as * mut sys :: godot_method_bind , set_font_data : 0 as * mut sys :: godot_method_bind , set_outline_color : 0 as * mut sys :: godot_method_bind , set_outline_size : 0 as * mut sys :: godot_method_bind , set_size : 0 as * mut sys :: godot_method_bind , set_spacing : 0 as * mut sys :: godot_method_bind , set_use_filter : 0 as * mut sys :: godot_method_bind , set_use_mipmaps : 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 (|| { DynamicFontMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "DynamicFont\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_fallback = (gd_api . godot_method_bind_get_method) (class_name , "add_fallback\0" . as_ptr () as * const c_char) ; table . get_available_chars = (gd_api . godot_method_bind_get_method) (class_name , "get_available_chars\0" . as_ptr () as * const c_char) ; table . get_fallback = (gd_api . godot_method_bind_get_method) (class_name , "get_fallback\0" . as_ptr () as * const c_char) ; table . get_fallback_count = (gd_api . godot_method_bind_get_method) (class_name , "get_fallback_count\0" . as_ptr () as * const c_char) ; table . get_font_data = (gd_api . godot_method_bind_get_method) (class_name , "get_font_data\0" . as_ptr () as * const c_char) ; table . get_outline_color = (gd_api . godot_method_bind_get_method) (class_name , "get_outline_color\0" . as_ptr () as * const c_char) ; table . get_outline_size = (gd_api . godot_method_bind_get_method) (class_name , "get_outline_size\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_spacing = (gd_api . godot_method_bind_get_method) (class_name , "get_spacing\0" . as_ptr () as * const c_char) ; table . get_use_filter = (gd_api . godot_method_bind_get_method) (class_name , "get_use_filter\0" . as_ptr () as * const c_char) ; table . get_use_mipmaps = (gd_api . godot_method_bind_get_method) (class_name , "get_use_mipmaps\0" . as_ptr () as * const c_char) ; table . remove_fallback = (gd_api . godot_method_bind_get_method) (class_name , "remove_fallback\0" . as_ptr () as * const c_char) ; table . set_fallback = (gd_api . godot_method_bind_get_method) (class_name , "set_fallback\0" . as_ptr () as * const c_char) ; table . set_font_data = (gd_api . godot_method_bind_get_method) (class_name , "set_font_data\0" . as_ptr () as * const c_char) ; table . set_outline_color = (gd_api . godot_method_bind_get_method) (class_name , "set_outline_color\0" . as_ptr () as * const c_char) ; table . set_outline_size = (gd_api . godot_method_bind_get_method) (class_name , "set_outline_size\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_spacing = (gd_api . godot_method_bind_get_method) (class_name , "set_spacing\0" . as_ptr () as * const c_char) ; table . set_use_filter = (gd_api . godot_method_bind_get_method) (class_name , "set_use_filter\0" . as_ptr () as * const c_char) ; table . set_use_mipmaps = (gd_api . godot_method_bind_get_method) (class_name , "set_use_mipmaps\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-60c8dbcfaf0f3dfc/out/generated.rs:826:17232 [INFO] [stdout] | [INFO] [stdout] 826 | ... : 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] 826 | # [doc = "`core class AnimationNodeStateMachine` inherits `AnimationRootNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodestatemachine.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\nAnimationNodeStateMachine 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 AnimationNodeStateMachine { this : RawObject < Self > , } impl AnimationNodeStateMachine { # [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 = AnimationNodeStateMachineMethodTable :: 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 new node to the graph. The `position` is used for display in the editor.\n# Default Arguments\n* `position` - `Vector2( 0, 0 )`"] # [doc = ""] # [inline] pub fn add_node (& self , name : impl Into < GodotString > , node : impl AsArg < crate :: generated :: animation_node :: AnimationNode > , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . add_node ; let ret = crate :: icalls :: icallptr_void_str_obj_vec2 (method_bind , self . this . sys () . as_ptr () , name . into () , node . as_arg_ptr () , position) ; } } # [doc = "Adds a transition between the given nodes."] # [doc = ""] # [inline] pub fn add_transition (& self , from : impl Into < GodotString > , to : impl Into < GodotString > , transition : impl AsArg < crate :: generated :: animation_node_state_machine_transition :: AnimationNodeStateMachineTransition >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . add_transition ; let ret = crate :: icalls :: icallptr_void_str_str_obj (method_bind , self . this . sys () . as_ptr () , from . into () , to . into () , transition . as_arg_ptr ()) ; } } # [doc = "Returns the graph's end node."] # [doc = ""] # [inline] pub fn get_end_node (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_end_node ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the draw offset of the graph. Used for display in the editor."] # [doc = ""] # [inline] pub fn get_graph_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: 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 animation node with the given name."] # [doc = ""] # [inline] pub fn get_node (& self , name : impl Into < GodotString >) -> Option < Ref < crate :: generated :: animation_node :: AnimationNode , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_node ; 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 :: animation_node :: AnimationNode , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the given animation node's name."] # [doc = ""] # [inline] pub fn get_node_name (& self , node : impl AsArg < crate :: generated :: animation_node :: AnimationNode >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_node_name ; let ret = crate :: icalls :: icallptr_str_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the given node's coordinates. Used for display in the editor."] # [doc = ""] # [inline] pub fn get_node_position (& self , name : impl Into < GodotString >) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_node_position ; let ret = crate :: icalls :: icallptr_vec2_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; mem :: transmute (ret) } } # [doc = "Returns the graph's end node."] # [doc = ""] # [inline] pub fn get_start_node (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_start_node ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the given transition."] # [doc = ""] # [inline] pub fn get_transition (& self , idx : i64) -> Option < Ref < crate :: generated :: animation_node_state_machine_transition :: AnimationNodeStateMachineTransition , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_transition ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: animation_node_state_machine_transition :: AnimationNodeStateMachineTransition , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of connections in the graph."] # [doc = ""] # [inline] pub fn get_transition_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_transition_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the given transition's start node."] # [doc = ""] # [inline] pub fn get_transition_from (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_transition_from ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the given transition's end node."] # [doc = ""] # [inline] pub fn get_transition_to (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . get_transition_to ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if the graph contains the given node."] # [doc = ""] # [inline] pub fn has_node (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . has_node ; 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 transition between the given nodes."] # [doc = ""] # [inline] pub fn has_transition (& self , from : impl Into < GodotString > , to : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . has_transition ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , from . into () , to . into ()) ; ret as _ } } # [doc = "Deletes the given node from the graph."] # [doc = ""] # [inline] pub fn remove_node (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . remove_node ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Deletes the transition between the two specified nodes."] # [doc = ""] # [inline] pub fn remove_transition (& self , from : impl Into < GodotString > , to : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . remove_transition ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , from . into () , to . into ()) ; } } # [doc = "Deletes the given transition by index."] # [doc = ""] # [inline] pub fn remove_transition_by_index (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . remove_transition_by_index ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Renames the given node."] # [doc = ""] # [inline] pub fn rename_node (& self , name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . rename_node ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , new_name . into ()) ; } } # [doc = "Replaces the node and keeps its transitions unchanged."] # [doc = ""] # [inline] pub fn replace_node (& self , name : impl Into < GodotString > , node : impl AsArg < crate :: generated :: animation_node :: AnimationNode >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . replace_node ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , node . as_arg_ptr ()) ; } } # [doc = "Sets the given node as the graph end point."] # [doc = ""] # [inline] pub fn set_end_node (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . set_end_node ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Sets the draw offset of the graph. Used for display in the editor."] # [doc = ""] # [inline] pub fn set_graph_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . set_graph_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Sets the node's coordinates. Used for display in the editor."] # [doc = ""] # [inline] pub fn set_node_position (& self , name : impl Into < GodotString > , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . set_node_position ; let ret = crate :: icalls :: icallptr_void_str_vec2 (method_bind , self . this . sys () . as_ptr () , name . into () , position) ; } } # [doc = "Sets the given node as the graph start point."] # [doc = ""] # [inline] pub fn set_start_node (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineMethodTable :: get (get_api ()) . set_start_node ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeStateMachine { } unsafe impl GodotObject for AnimationNodeStateMachine { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeStateMachine" } } impl std :: ops :: Deref for AnimationNodeStateMachine { 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 AnimationNodeStateMachine { # [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 AnimationNodeStateMachine { } unsafe impl SubClass < crate :: generated :: animation_node :: AnimationNode > for AnimationNodeStateMachine { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeStateMachine { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeStateMachine { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeStateMachine { } impl Instanciable for AnimationNodeStateMachine { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeStateMachine :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeStateMachineMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_node : * mut sys :: godot_method_bind , pub add_transition : * mut sys :: godot_method_bind , pub get_end_node : * 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_name : * mut sys :: godot_method_bind , pub get_node_position : * mut sys :: godot_method_bind , pub get_start_node : * mut sys :: godot_method_bind , pub get_transition : * mut sys :: godot_method_bind , pub get_transition_count : * mut sys :: godot_method_bind , pub get_transition_from : * mut sys :: godot_method_bind , pub get_transition_to : * mut sys :: godot_method_bind , pub has_node : * mut sys :: godot_method_bind , pub has_transition : * mut sys :: godot_method_bind , pub remove_node : * mut sys :: godot_method_bind , pub remove_transition : * mut sys :: godot_method_bind , pub remove_transition_by_index : * mut sys :: godot_method_bind , pub rename_node : * mut sys :: godot_method_bind , pub replace_node : * mut sys :: godot_method_bind , pub set_end_node : * mut sys :: godot_method_bind , pub set_graph_offset : * mut sys :: godot_method_bind , pub set_node_position : * mut sys :: godot_method_bind , pub set_start_node : * mut sys :: godot_method_bind } impl AnimationNodeStateMachineMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeStateMachineMethodTable = AnimationNodeStateMachineMethodTable { class_constructor : None , add_node : 0 as * mut sys :: godot_method_bind , add_transition : 0 as * mut sys :: godot_method_bind , get_end_node : 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_name : 0 as * mut sys :: godot_method_bind , get_node_position : 0 as * mut sys :: godot_method_bind , get_start_node : 0 as * mut sys :: godot_method_bind , get_transition : 0 as * mut sys :: godot_method_bind , get_transition_count : 0 as * mut sys :: godot_method_bind , get_transition_from : 0 as * mut sys :: godot_method_bind , get_transition_to : 0 as * mut sys :: godot_method_bind , has_node : 0 as * mut sys :: godot_method_bind , has_transition : 0 as * mut sys :: godot_method_bind , remove_node : 0 as * mut sys :: godot_method_bind , remove_transition : 0 as * mut sys :: godot_method_bind , remove_transition_by_index : 0 as * mut sys :: godot_method_bind , rename_node : 0 as * mut sys :: godot_method_bind , replace_node : 0 as * mut sys :: godot_method_bind , set_end_node : 0 as * mut sys :: godot_method_bind , set_graph_offset : 0 as * mut sys :: godot_method_bind , set_node_position : 0 as * mut sys :: godot_method_bind , set_start_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 (|| { AnimationNodeStateMachineMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeStateMachine\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 . add_transition = (gd_api . godot_method_bind_get_method) (class_name , "add_transition\0" . as_ptr () as * const c_char) ; table . get_end_node = (gd_api . godot_method_bind_get_method) (class_name , "get_end_node\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_name = (gd_api . godot_method_bind_get_method) (class_name , "get_node_name\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_start_node = (gd_api . godot_method_bind_get_method) (class_name , "get_start_node\0" . as_ptr () as * const c_char) ; table . get_transition = (gd_api . godot_method_bind_get_method) (class_name , "get_transition\0" . as_ptr () as * const c_char) ; table . get_transition_count = (gd_api . godot_method_bind_get_method) (class_name , "get_transition_count\0" . as_ptr () as * const c_char) ; table . get_transition_from = (gd_api . godot_method_bind_get_method) (class_name , "get_transition_from\0" . as_ptr () as * const c_char) ; table . get_transition_to = (gd_api . godot_method_bind_get_method) (class_name , "get_transition_to\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_transition = (gd_api . godot_method_bind_get_method) (class_name , "has_transition\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_transition = (gd_api . godot_method_bind_get_method) (class_name , "remove_transition\0" . as_ptr () as * const c_char) ; table . remove_transition_by_index = (gd_api . godot_method_bind_get_method) (class_name , "remove_transition_by_index\0" . as_ptr () as * const c_char) ; table . rename_node = (gd_api . godot_method_bind_get_method) (class_name , "rename_node\0" . as_ptr () as * const c_char) ; table . replace_node = (gd_api . godot_method_bind_get_method) (class_name , "replace_node\0" . as_ptr () as * const c_char) ; table . set_end_node = (gd_api . godot_method_bind_get_method) (class_name , "set_end_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_node_position = (gd_api . godot_method_bind_get_method) (class_name , "set_node_position\0" . as_ptr () as * const c_char) ; table . set_start_node = (gd_api . godot_method_bind_get_method) (class_name , "set_start_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-60c8dbcfaf0f3dfc/out/generated.rs:832:7960 [INFO] [stdout] | [INFO] [stdout] 832 | ... : 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] 832 | # [doc = "`core class HingeJoint` inherits `Joint` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_hingejoint.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`HingeJoint` 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\nHingeJoint inherits methods from:\n - [Joint](struct.Joint.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 HingeJoint { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Flag (pub i64) ; impl Flag { pub const USE_LIMIT : Flag = Flag (0i64) ; pub const ENABLE_MOTOR : Flag = Flag (1i64) ; pub const MAX : Flag = Flag (2i64) ; } impl From < i64 > for Flag { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Flag > for i64 { # [inline] fn from (v : Flag) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Param (pub i64) ; impl Param { pub const BIAS : Param = Param (0i64) ; pub const LIMIT_UPPER : Param = Param (1i64) ; pub const LIMIT_LOWER : Param = Param (2i64) ; pub const LIMIT_BIAS : Param = Param (3i64) ; pub const LIMIT_SOFTNESS : Param = Param (4i64) ; pub const LIMIT_RELAXATION : Param = Param (5i64) ; pub const MOTOR_TARGET_VELOCITY : Param = Param (6i64) ; pub const MOTOR_MAX_IMPULSE : Param = Param (7i64) ; pub const MAX : Param = Param (8i64) ; } 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 HingeJoint { pub const FLAG_ENABLE_MOTOR : i64 = 1i64 ; pub const FLAG_MAX : i64 = 2i64 ; pub const FLAG_USE_LIMIT : i64 = 0i64 ; pub const PARAM_BIAS : i64 = 0i64 ; pub const PARAM_LIMIT_BIAS : i64 = 3i64 ; pub const PARAM_LIMIT_LOWER : i64 = 2i64 ; pub const PARAM_LIMIT_RELAXATION : i64 = 5i64 ; pub const PARAM_LIMIT_SOFTNESS : i64 = 4i64 ; pub const PARAM_LIMIT_UPPER : i64 = 1i64 ; pub const PARAM_MAX : i64 = 8i64 ; pub const PARAM_MOTOR_MAX_IMPULSE : i64 = 7i64 ; pub const PARAM_MOTOR_TARGET_VELOCITY : i64 = 6i64 ; } impl HingeJoint { # [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 = HingeJointMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "When activated, a motor turns the hinge."] # [doc = ""] # [inline] pub fn flag (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = HingeJointMethodTable :: get (get_api ()) . get_flag ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; ret as _ } } # [doc = "The speed with which the two bodies get pulled together when they move in different directions."] # [doc = ""] # [inline] pub fn param (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = HingeJointMethodTable :: get (get_api ()) . get_param ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "When activated, a motor turns the hinge."] # [doc = ""] # [inline] pub fn set_flag (& self , flag : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HingeJointMethodTable :: get (get_api ()) . set_flag ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , enabled) ; } } # [doc = "The speed with which the two bodies get pulled together when they move in different directions."] # [doc = ""] # [inline] pub fn set_param (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = HingeJointMethodTable :: get (get_api ()) . set_param ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for HingeJoint { } unsafe impl GodotObject for HingeJoint { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "HingeJoint" } } impl QueueFree for HingeJoint { # [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 HingeJoint { type Target = crate :: generated :: joint :: Joint ; # [inline] fn deref (& self) -> & crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HingeJoint { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: joint :: Joint > for HingeJoint { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for HingeJoint { } unsafe impl SubClass < crate :: generated :: node :: Node > for HingeJoint { } unsafe impl SubClass < crate :: generated :: object :: Object > for HingeJoint { } impl Instanciable for HingeJoint { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HingeJoint :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HingeJointMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_flag : * mut sys :: godot_method_bind , pub get_param : * mut sys :: godot_method_bind , pub set_flag : * mut sys :: godot_method_bind , pub set_param : * mut sys :: godot_method_bind } impl HingeJointMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HingeJointMethodTable = HingeJointMethodTable { class_constructor : None , get_flag : 0 as * mut sys :: godot_method_bind , get_param : 0 as * mut sys :: godot_method_bind , set_flag : 0 as * mut sys :: godot_method_bind , set_param : 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 (|| { HingeJointMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HingeJoint\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_flag = (gd_api . godot_method_bind_get_method) (class_name , "get_flag\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 . set_flag = (gd_api . godot_method_bind_get_method) (class_name , "set_flag\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) ; } } } [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-60c8dbcfaf0f3dfc/out/generated.rs:838:5554 [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 Container` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_container.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`Container` 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\nContainer 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 Container { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Container { pub const NOTIFICATION_SORT_CHILDREN : i64 = 50i64 ; } impl Container { # [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 = ContainerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Fit a child control in a given rect. This is mainly a helper for creating custom container classes."] # [doc = ""] # [inline] pub fn fit_child_in_rect (& self , child : impl AsArg < crate :: generated :: control :: Control > , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ContainerMethodTable :: get (get_api ()) . fit_child_in_rect ; let ret = crate :: icalls :: icallptr_void_obj_rect2 (method_bind , self . this . sys () . as_ptr () , child . as_arg_ptr () , rect) ; } } # [doc = "Queue resort of the contained children. This is called automatically anyway, but can be called upon request."] # [doc = ""] # [inline] pub fn queue_sort (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ContainerMethodTable :: get (get_api ()) . queue_sort ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Container { } unsafe impl GodotObject for Container { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Container" } } impl QueueFree for Container { # [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 Container { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Container { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for Container { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Container { } unsafe impl SubClass < crate :: generated :: node :: Node > for Container { } unsafe impl SubClass < crate :: generated :: object :: Object > for Container { } impl Instanciable for Container { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Container :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub fit_child_in_rect : * mut sys :: godot_method_bind , pub queue_sort : * mut sys :: godot_method_bind } impl ContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ContainerMethodTable = ContainerMethodTable { class_constructor : None , fit_child_in_rect : 0 as * mut sys :: godot_method_bind , queue_sort : 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 (|| { ContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Container\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . fit_child_in_rect = (gd_api . godot_method_bind_get_method) (class_name , "fit_child_in_rect\0" . as_ptr () as * const c_char) ; table . queue_sort = (gd_api . godot_method_bind_get_method) (class_name , "queue_sort\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-60c8dbcfaf0f3dfc/out/generated.rs:844:3078 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:850:4420 [INFO] [stdout] | [INFO] [stdout] 850 | ...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] 850 | # [doc = "`core class PopupPanel` inherits `Popup` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_popuppanel.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`PopupPanel` 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\nPopupPanel 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 PopupPanel { this : RawObject < Self > , } impl PopupPanel { # [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 = PopupPanelMethodTable :: 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 PopupPanel { } unsafe impl GodotObject for PopupPanel { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "PopupPanel" } } impl QueueFree for PopupPanel { # [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 PopupPanel { type Target = crate :: generated :: popup :: Popup ; # [inline] fn deref (& self) -> & crate :: generated :: popup :: Popup { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PopupPanel { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: popup :: Popup { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: popup :: Popup > for PopupPanel { } unsafe impl SubClass < crate :: generated :: control :: Control > for PopupPanel { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for PopupPanel { } unsafe impl SubClass < crate :: generated :: node :: Node > for PopupPanel { } unsafe impl SubClass < crate :: generated :: object :: Object > for PopupPanel { } impl Instanciable for PopupPanel { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PopupPanel :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PopupPanelMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl PopupPanelMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PopupPanelMethodTable = PopupPanelMethodTable { 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 (|| { PopupPanelMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PopupPanel\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-60c8dbcfaf0f3dfc/out/generated.rs:856:4015 [INFO] [stdout] | [INFO] [stdout] 856 | ...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] 856 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:862:7052 [INFO] [stdout] | [INFO] [stdout] 862 | ... : 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] 862 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:868:11980 [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 ARVRController` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_arvrcontroller.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`ARVRController` 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\nARVRController 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 ARVRController { this : RawObject < Self > , } impl ARVRController { # [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 = ARVRControllerMethodTable :: 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 controller's ID.\nA controller ID of 0 is unbound and will always result in an inactive node. Controller ID 1 is reserved for the first controller that identifies itself as the left-hand controller and ID 2 is reserved for the first controller that identifies itself as the right-hand controller.\nFor any other controller that the [ARVRServer] detects, we continue with controller ID 3.\nWhen a controller is turned off, its slot is freed. This ensures controllers will keep the same ID even when controllers with lower IDs are turned off."] # [doc = ""] # [inline] pub fn controller_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . get_controller_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If active, returns the name of the associated controller if provided by the AR/VR SDK used."] # [doc = ""] # [inline] pub fn get_controller_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . get_controller_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the hand holding this controller, if known. See [enum ARVRPositionalTracker.TrackerHand]."] # [doc = ""] # [inline] pub fn get_hand (& self) -> crate :: generated :: arvr_positional_tracker :: TrackerHand { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . get_hand ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: arvr_positional_tracker :: TrackerHand (ret) } } # [doc = "Returns `true` if the bound controller is active. ARVR systems attempt to track active controllers."] # [doc = ""] # [inline] pub fn get_is_active (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . get_is_active ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the value of the given axis for things like triggers, touchpads, etc. that are embedded into the controller."] # [doc = ""] # [inline] pub fn get_joystick_axis (& self , axis : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . get_joystick_axis ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , axis) ; ret as _ } } # [doc = "Returns the ID of the joystick object bound to this. Every controller tracked by the [ARVRServer] that has buttons and axis will also be registered as a joystick within Godot. This means that all the normal joystick tracking and input mapping will work for buttons and axis found on the AR/VR controllers. This ID is purely offered as information so you can link up the controller with its joystick entry."] # [doc = ""] # [inline] pub fn get_joystick_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . get_joystick_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If provided by the [ARVRInterface], this returns a mesh associated with the controller. This can be used to visualize the controller."] # [doc = ""] # [inline] pub fn get_mesh (& self) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: 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 degree to which the controller vibrates. Ranges from `0.0` to `1.0` with precision `.01`. If changed, updates [member ARVRPositionalTracker.rumble] accordingly.\nThis is a useful property to animate if you want the controller to vibrate for a limited duration."] # [doc = ""] # [inline] pub fn rumble (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . get_rumble ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the button at index `button` is pressed. See [enum JoystickList], in particular the `JOY_VR_*` constants."] # [doc = ""] # [inline] pub fn is_button_pressed (& self , button : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . is_button_pressed ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , button) ; ret as _ } } # [doc = "The controller's ID.\nA controller ID of 0 is unbound and will always result in an inactive node. Controller ID 1 is reserved for the first controller that identifies itself as the left-hand controller and ID 2 is reserved for the first controller that identifies itself as the right-hand controller.\nFor any other controller that the [ARVRServer] detects, we continue with controller ID 3.\nWhen a controller is turned off, its slot is freed. This ensures controllers will keep the same ID even when controllers with lower IDs are turned off."] # [doc = ""] # [inline] pub fn set_controller_id (& self , controller_id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . set_controller_id ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , controller_id) ; } } # [doc = "The degree to which the controller vibrates. Ranges from `0.0` to `1.0` with precision `.01`. If changed, updates [member ARVRPositionalTracker.rumble] accordingly.\nThis is a useful property to animate if you want the controller to vibrate for a limited duration."] # [doc = ""] # [inline] pub fn set_rumble (& self , rumble : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ARVRControllerMethodTable :: get (get_api ()) . set_rumble ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , rumble) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ARVRController { } unsafe impl GodotObject for ARVRController { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ARVRController" } } impl QueueFree for ARVRController { # [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 ARVRController { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ARVRController { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ARVRController { } unsafe impl SubClass < crate :: generated :: node :: Node > for ARVRController { } unsafe impl SubClass < crate :: generated :: object :: Object > for ARVRController { } impl Instanciable for ARVRController { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ARVRController :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ARVRControllerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_controller_id : * mut sys :: godot_method_bind , pub get_controller_name : * mut sys :: godot_method_bind , pub get_hand : * mut sys :: godot_method_bind , pub get_is_active : * mut sys :: godot_method_bind , pub get_joystick_axis : * mut sys :: godot_method_bind , pub get_joystick_id : * mut sys :: godot_method_bind , pub get_mesh : * mut sys :: godot_method_bind , pub get_rumble : * mut sys :: godot_method_bind , pub is_button_pressed : * mut sys :: godot_method_bind , pub set_controller_id : * mut sys :: godot_method_bind , pub set_rumble : * mut sys :: godot_method_bind } impl ARVRControllerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ARVRControllerMethodTable = ARVRControllerMethodTable { class_constructor : None , get_controller_id : 0 as * mut sys :: godot_method_bind , get_controller_name : 0 as * mut sys :: godot_method_bind , get_hand : 0 as * mut sys :: godot_method_bind , get_is_active : 0 as * mut sys :: godot_method_bind , get_joystick_axis : 0 as * mut sys :: godot_method_bind , get_joystick_id : 0 as * mut sys :: godot_method_bind , get_mesh : 0 as * mut sys :: godot_method_bind , get_rumble : 0 as * mut sys :: godot_method_bind , is_button_pressed : 0 as * mut sys :: godot_method_bind , set_controller_id : 0 as * mut sys :: godot_method_bind , set_rumble : 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 (|| { ARVRControllerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ARVRController\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_controller_id = (gd_api . godot_method_bind_get_method) (class_name , "get_controller_id\0" . as_ptr () as * const c_char) ; table . get_controller_name = (gd_api . godot_method_bind_get_method) (class_name , "get_controller_name\0" . as_ptr () as * const c_char) ; table . get_hand = (gd_api . godot_method_bind_get_method) (class_name , "get_hand\0" . as_ptr () as * const c_char) ; table . get_is_active = (gd_api . godot_method_bind_get_method) (class_name , "get_is_active\0" . as_ptr () as * const c_char) ; table . get_joystick_axis = (gd_api . godot_method_bind_get_method) (class_name , "get_joystick_axis\0" . as_ptr () as * const c_char) ; table . get_joystick_id = (gd_api . godot_method_bind_get_method) (class_name , "get_joystick_id\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 . get_rumble = (gd_api . godot_method_bind_get_method) (class_name , "get_rumble\0" . as_ptr () as * const c_char) ; table . is_button_pressed = (gd_api . godot_method_bind_get_method) (class_name , "is_button_pressed\0" . as_ptr () as * const c_char) ; table . set_controller_id = (gd_api . godot_method_bind_get_method) (class_name , "set_controller_id\0" . as_ptr () as * const c_char) ; table . set_rumble = (gd_api . godot_method_bind_get_method) (class_name , "set_rumble\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-60c8dbcfaf0f3dfc/out/generated.rs:874:13763 [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 PathFollow2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_pathfollow2d.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`PathFollow2D` 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\nPathFollow2D 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 PathFollow2D { this : RawObject < Self > , } impl PathFollow2D { # [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 = PathFollow2DMethodTable :: 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`, the position between two cached points is interpolated cubically, and linearly otherwise.\nThe points along the [Curve2D] of the [Path2D] are precomputed before use, for faster calculations. The point at the requested offset is then calculated interpolating between two adjacent cached points. This may present a problem if the curve makes sharp turns, as the cached points may not follow the curve closely enough.\nThere are two answers to this problem: either increase the number of cached points and increase memory consumption, or make a cubic interpolation between two points at the cost of (slightly) slower calculations."] # [doc = ""] # [inline] pub fn cubic_interpolation (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . get_cubic_interpolation ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The node's offset along the curve."] # [doc = ""] # [inline] pub fn h_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . get_h_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "How far to look ahead of the curve to calculate the tangent if the node is rotating. E.g. shorter lookaheads will lead to faster rotations."] # [doc = ""] # [inline] pub fn lookahead (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . get_lookahead ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The distance along the path in pixels."] # [doc = ""] # [inline] pub fn offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The distance along the path as a number in the range 0.0 (for the first vertex) to 1.0 (for the last). This is just another way of expressing the offset within the path, as the offset supplied is multiplied internally by the path's length."] # [doc = ""] # [inline] pub fn unit_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . get_unit_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The node's offset perpendicular to the curve."] # [doc = ""] # [inline] pub fn v_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . get_v_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, any offset outside the path's length will wrap around, instead of stopping at the ends. Use it for cyclic paths."] # [doc = ""] # [inline] pub fn has_loop (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . has_loop ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this node rotates to follow the path, making its descendants rotate."] # [doc = ""] # [inline] pub fn is_rotating (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . is_rotating ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the position between two cached points is interpolated cubically, and linearly otherwise.\nThe points along the [Curve2D] of the [Path2D] are precomputed before use, for faster calculations. The point at the requested offset is then calculated interpolating between two adjacent cached points. This may present a problem if the curve makes sharp turns, as the cached points may not follow the curve closely enough.\nThere are two answers to this problem: either increase the number of cached points and increase memory consumption, or make a cubic interpolation between two points at the cost of (slightly) slower calculations."] # [doc = ""] # [inline] pub fn set_cubic_interpolation (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_cubic_interpolation ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The node's offset along the curve."] # [doc = ""] # [inline] pub fn set_h_offset (& self , h_offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_h_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , h_offset) ; } } # [doc = "How far to look ahead of the curve to calculate the tangent if the node is rotating. E.g. shorter lookaheads will lead to faster rotations."] # [doc = ""] # [inline] pub fn set_lookahead (& self , lookahead : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_lookahead ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , lookahead) ; } } # [doc = "If `true`, any offset outside the path's length will wrap around, instead of stopping at the ends. Use it for cyclic paths."] # [doc = ""] # [inline] pub fn set_loop (& self , _loop : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_loop ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , _loop) ; } } # [doc = "The distance along the path in pixels."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "If `true`, this node rotates to follow the path, making its descendants rotate."] # [doc = ""] # [inline] pub fn set_rotate (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_rotate ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The distance along the path as a number in the range 0.0 (for the first vertex) to 1.0 (for the last). This is just another way of expressing the offset within the path, as the offset supplied is multiplied internally by the path's length."] # [doc = ""] # [inline] pub fn set_unit_offset (& self , unit_offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_unit_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , unit_offset) ; } } # [doc = "The node's offset perpendicular to the curve."] # [doc = ""] # [inline] pub fn set_v_offset (& self , v_offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PathFollow2DMethodTable :: get (get_api ()) . set_v_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , v_offset) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PathFollow2D { } unsafe impl GodotObject for PathFollow2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "PathFollow2D" } } impl QueueFree for PathFollow2D { # [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 PathFollow2D { 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 PathFollow2D { # [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 PathFollow2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for PathFollow2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for PathFollow2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for PathFollow2D { } impl Instanciable for PathFollow2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PathFollow2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PathFollow2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_cubic_interpolation : * mut sys :: godot_method_bind , pub get_h_offset : * mut sys :: godot_method_bind , pub get_lookahead : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_unit_offset : * mut sys :: godot_method_bind , pub get_v_offset : * mut sys :: godot_method_bind , pub has_loop : * mut sys :: godot_method_bind , pub is_rotating : * mut sys :: godot_method_bind , pub set_cubic_interpolation : * mut sys :: godot_method_bind , pub set_h_offset : * mut sys :: godot_method_bind , pub set_lookahead : * mut sys :: godot_method_bind , pub set_loop : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_rotate : * mut sys :: godot_method_bind , pub set_unit_offset : * mut sys :: godot_method_bind , pub set_v_offset : * mut sys :: godot_method_bind } impl PathFollow2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PathFollow2DMethodTable = PathFollow2DMethodTable { class_constructor : None , get_cubic_interpolation : 0 as * mut sys :: godot_method_bind , get_h_offset : 0 as * mut sys :: godot_method_bind , get_lookahead : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_unit_offset : 0 as * mut sys :: godot_method_bind , get_v_offset : 0 as * mut sys :: godot_method_bind , has_loop : 0 as * mut sys :: godot_method_bind , is_rotating : 0 as * mut sys :: godot_method_bind , set_cubic_interpolation : 0 as * mut sys :: godot_method_bind , set_h_offset : 0 as * mut sys :: godot_method_bind , set_lookahead : 0 as * mut sys :: godot_method_bind , set_loop : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_rotate : 0 as * mut sys :: godot_method_bind , set_unit_offset : 0 as * mut sys :: godot_method_bind , set_v_offset : 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 (|| { PathFollow2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PathFollow2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_cubic_interpolation = (gd_api . godot_method_bind_get_method) (class_name , "get_cubic_interpolation\0" . as_ptr () as * const c_char) ; table . get_h_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_h_offset\0" . as_ptr () as * const c_char) ; table . get_lookahead = (gd_api . godot_method_bind_get_method) (class_name , "get_lookahead\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_unit_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_unit_offset\0" . as_ptr () as * const c_char) ; table . get_v_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_v_offset\0" . as_ptr () as * const c_char) ; table . has_loop = (gd_api . godot_method_bind_get_method) (class_name , "has_loop\0" . as_ptr () as * const c_char) ; table . is_rotating = (gd_api . godot_method_bind_get_method) (class_name , "is_rotating\0" . as_ptr () as * const c_char) ; table . set_cubic_interpolation = (gd_api . godot_method_bind_get_method) (class_name , "set_cubic_interpolation\0" . as_ptr () as * const c_char) ; table . set_h_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_h_offset\0" . as_ptr () as * const c_char) ; table . set_lookahead = (gd_api . godot_method_bind_get_method) (class_name , "set_lookahead\0" . as_ptr () as * const c_char) ; table . set_loop = (gd_api . godot_method_bind_get_method) (class_name , "set_loop\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_rotate = (gd_api . godot_method_bind_get_method) (class_name , "set_rotate\0" . as_ptr () as * const c_char) ; table . set_unit_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_unit_offset\0" . as_ptr () as * const c_char) ; table . set_v_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_v_offset\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-60c8dbcfaf0f3dfc/out/generated.rs:880:6273 [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 AudioEffectStereoEnhance` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectstereoenhance.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\nAudioEffectStereoEnhance 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 AudioEffectStereoEnhance { this : RawObject < Self > , } impl AudioEffectStereoEnhance { # [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 = AudioEffectStereoEnhanceMethodTable :: 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 pan_pullout (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectStereoEnhanceMethodTable :: get (get_api ()) . get_pan_pullout ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn surround (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectStereoEnhanceMethodTable :: get (get_api ()) . get_surround ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn time_pullout (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectStereoEnhanceMethodTable :: get (get_api ()) . get_time_pullout ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_pan_pullout (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectStereoEnhanceMethodTable :: get (get_api ()) . set_pan_pullout ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_surround (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectStereoEnhanceMethodTable :: get (get_api ()) . set_surround ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_time_pullout (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectStereoEnhanceMethodTable :: get (get_api ()) . set_time_pullout ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectStereoEnhance { } unsafe impl GodotObject for AudioEffectStereoEnhance { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectStereoEnhance" } } impl std :: ops :: Deref for AudioEffectStereoEnhance { 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 AudioEffectStereoEnhance { # [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 AudioEffectStereoEnhance { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectStereoEnhance { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectStereoEnhance { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectStereoEnhance { } impl Instanciable for AudioEffectStereoEnhance { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectStereoEnhance :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectStereoEnhanceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_pan_pullout : * mut sys :: godot_method_bind , pub get_surround : * mut sys :: godot_method_bind , pub get_time_pullout : * mut sys :: godot_method_bind , pub set_pan_pullout : * mut sys :: godot_method_bind , pub set_surround : * mut sys :: godot_method_bind , pub set_time_pullout : * mut sys :: godot_method_bind } impl AudioEffectStereoEnhanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectStereoEnhanceMethodTable = AudioEffectStereoEnhanceMethodTable { class_constructor : None , get_pan_pullout : 0 as * mut sys :: godot_method_bind , get_surround : 0 as * mut sys :: godot_method_bind , get_time_pullout : 0 as * mut sys :: godot_method_bind , set_pan_pullout : 0 as * mut sys :: godot_method_bind , set_surround : 0 as * mut sys :: godot_method_bind , set_time_pullout : 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 (|| { AudioEffectStereoEnhanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectStereoEnhance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_pan_pullout = (gd_api . godot_method_bind_get_method) (class_name , "get_pan_pullout\0" . as_ptr () as * const c_char) ; table . get_surround = (gd_api . godot_method_bind_get_method) (class_name , "get_surround\0" . as_ptr () as * const c_char) ; table . get_time_pullout = (gd_api . godot_method_bind_get_method) (class_name , "get_time_pullout\0" . as_ptr () as * const c_char) ; table . set_pan_pullout = (gd_api . godot_method_bind_get_method) (class_name , "set_pan_pullout\0" . as_ptr () as * const c_char) ; table . set_surround = (gd_api . godot_method_bind_get_method) (class_name , "set_surround\0" . as_ptr () as * const c_char) ; table . set_time_pullout = (gd_api . godot_method_bind_get_method) (class_name , "set_time_pullout\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-60c8dbcfaf0f3dfc/out/generated.rs:886:8557 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:892:4498 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:898:22273 [INFO] [stdout] | [INFO] [stdout] 898 | ... : 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] 898 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:904:8442 [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 VisualShaderNodeCubeMap` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodecubemap.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\nVisualShaderNodeCubeMap 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 VisualShaderNodeCubeMap { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Source (pub i64) ; impl Source { pub const TEXTURE : Source = Source (0i64) ; pub const PORT : Source = Source (1i64) ; } impl From < i64 > for Source { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Source > for i64 { # [inline] fn from (v : Source) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TextureType (pub i64) ; impl TextureType { pub const DATA : TextureType = TextureType (0i64) ; pub const COLOR : TextureType = TextureType (1i64) ; pub const NORMALMAP : TextureType = TextureType (2i64) ; } 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 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShaderNodeCubeMap { pub const SOURCE_PORT : i64 = 1i64 ; pub const SOURCE_TEXTURE : i64 = 0i64 ; pub const TYPE_COLOR : i64 = 1i64 ; pub const TYPE_DATA : i64 = 0i64 ; pub const TYPE_NORMALMAP : i64 = 2i64 ; } impl VisualShaderNodeCubeMap { # [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 = VisualShaderNodeCubeMapMethodTable :: 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 [CubeMap] texture to sample when using [constant SOURCE_TEXTURE] as [member source]."] # [doc = ""] # [inline] pub fn cube_map (& self) -> Option < Ref < crate :: generated :: cube_map :: CubeMap , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeCubeMapMethodTable :: get (get_api ()) . get_cube_map ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: cube_map :: CubeMap , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Defines which source should be used for the sampling. See [enum Source] for options."] # [doc = ""] # [inline] pub fn source (& self) -> crate :: generated :: visual_shader_node_cube_map :: Source { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeCubeMapMethodTable :: get (get_api ()) . get_source ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_cube_map :: Source (ret) } } # [doc = "Defines the type of data provided by the source texture. See [enum TextureType] for options."] # [doc = ""] # [inline] pub fn texture_type (& self) -> crate :: generated :: visual_shader_node_cube_map :: TextureType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeCubeMapMethodTable :: get (get_api ()) . get_texture_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_cube_map :: TextureType (ret) } } # [doc = "The [CubeMap] texture to sample when using [constant SOURCE_TEXTURE] as [member source]."] # [doc = ""] # [inline] pub fn set_cube_map (& self , value : impl AsArg < crate :: generated :: cube_map :: CubeMap >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeCubeMapMethodTable :: get (get_api ()) . set_cube_map ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , value . as_arg_ptr ()) ; } } # [doc = "Defines which source should be used for the sampling. See [enum Source] for options."] # [doc = ""] # [inline] pub fn set_source (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeCubeMapMethodTable :: get (get_api ()) . set_source ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Defines the type of data provided by the source texture. See [enum TextureType] for options."] # [doc = ""] # [inline] pub fn set_texture_type (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeCubeMapMethodTable :: get (get_api ()) . set_texture_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeCubeMap { } unsafe impl GodotObject for VisualShaderNodeCubeMap { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeCubeMap" } } impl std :: ops :: Deref for VisualShaderNodeCubeMap { 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 VisualShaderNodeCubeMap { # [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 VisualShaderNodeCubeMap { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeCubeMap { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeCubeMap { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeCubeMap { } impl Instanciable for VisualShaderNodeCubeMap { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeCubeMap :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeCubeMapMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_cube_map : * mut sys :: godot_method_bind , pub get_source : * mut sys :: godot_method_bind , pub get_texture_type : * mut sys :: godot_method_bind , pub set_cube_map : * mut sys :: godot_method_bind , pub set_source : * mut sys :: godot_method_bind , pub set_texture_type : * mut sys :: godot_method_bind } impl VisualShaderNodeCubeMapMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeCubeMapMethodTable = VisualShaderNodeCubeMapMethodTable { class_constructor : None , get_cube_map : 0 as * mut sys :: godot_method_bind , get_source : 0 as * mut sys :: godot_method_bind , get_texture_type : 0 as * mut sys :: godot_method_bind , set_cube_map : 0 as * mut sys :: godot_method_bind , set_source : 0 as * mut sys :: godot_method_bind , set_texture_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 (|| { VisualShaderNodeCubeMapMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeCubeMap\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_cube_map = (gd_api . godot_method_bind_get_method) (class_name , "get_cube_map\0" . as_ptr () as * const c_char) ; table . get_source = (gd_api . godot_method_bind_get_method) (class_name , "get_source\0" . as_ptr () as * const c_char) ; table . get_texture_type = (gd_api . godot_method_bind_get_method) (class_name , "get_texture_type\0" . as_ptr () as * const c_char) ; table . set_cube_map = (gd_api . godot_method_bind_get_method) (class_name , "set_cube_map\0" . as_ptr () as * const c_char) ; table . set_source = (gd_api . godot_method_bind_get_method) (class_name , "set_source\0" . as_ptr () as * const c_char) ; table . set_texture_type = (gd_api . godot_method_bind_get_method) (class_name , "set_texture_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-60c8dbcfaf0f3dfc/out/generated.rs:910:9210 [INFO] [stdout] | [INFO] [stdout] 910 | ... : 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] 910 | # [doc = "`core class KinematicCollision2D` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_kinematiccollision2d.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\nKinematicCollision2D 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 KinematicCollision2D { this : RawObject < Self > , } impl KinematicCollision2D { # [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 = KinematicCollision2DMethodTable :: 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 = KinematicCollision2DMethodTable :: 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 = KinematicCollision2DMethodTable :: 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 = KinematicCollision2DMethodTable :: 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 = KinematicCollision2DMethodTable :: 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 [CollisionObject2D]."] # [doc = ""] # [inline] pub fn collider_shape_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollision2DMethodTable :: 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) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollision2DMethodTable :: get (get_api ()) . get_collider_velocity ; let ret = crate :: icalls :: icallptr_vec2 (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 = KinematicCollision2DMethodTable :: 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) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollision2DMethodTable :: get (get_api ()) . get_normal ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The point of collision, in global coordinates."] # [doc = ""] # [inline] pub fn position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollision2DMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The moving object's remaining movement vector."] # [doc = ""] # [inline] pub fn remainder (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollision2DMethodTable :: get (get_api ()) . get_remainder ; let ret = crate :: icalls :: icallptr_vec2 (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) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = KinematicCollision2DMethodTable :: get (get_api ()) . get_travel ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for KinematicCollision2D { } unsafe impl GodotObject for KinematicCollision2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "KinematicCollision2D" } } impl std :: ops :: Deref for KinematicCollision2D { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for KinematicCollision2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for KinematicCollision2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for KinematicCollision2D { } impl Instanciable for KinematicCollision2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { KinematicCollision2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct KinematicCollision2DMethodTable { 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 KinematicCollision2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : KinematicCollision2DMethodTable = KinematicCollision2DMethodTable { 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 (|| { KinematicCollision2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "KinematicCollision2D\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-60c8dbcfaf0f3dfc/out/generated.rs:916:96841 [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 Environment` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_environment.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\nEnvironment 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 Environment { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BgMode (pub i64) ; impl BgMode { pub const CLEAR_COLOR : BgMode = BgMode (0i64) ; pub const COLOR : BgMode = BgMode (1i64) ; pub const SKY : BgMode = BgMode (2i64) ; pub const COLOR_SKY : BgMode = BgMode (3i64) ; pub const CANVAS : BgMode = BgMode (4i64) ; pub const KEEP : BgMode = BgMode (5i64) ; pub const CAMERA_FEED : BgMode = BgMode (6i64) ; pub const MAX : BgMode = BgMode (7i64) ; } impl From < i64 > for BgMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BgMode > for i64 { # [inline] fn from (v : BgMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct DofBlurQuality (pub i64) ; impl DofBlurQuality { pub const LOW : DofBlurQuality = DofBlurQuality (0i64) ; pub const MEDIUM : DofBlurQuality = DofBlurQuality (1i64) ; pub const HIGH : DofBlurQuality = DofBlurQuality (2i64) ; } impl From < i64 > for DofBlurQuality { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < DofBlurQuality > for i64 { # [inline] fn from (v : DofBlurQuality) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct GlowBlendMode (pub i64) ; impl GlowBlendMode { pub const ADDITIVE : GlowBlendMode = GlowBlendMode (0i64) ; pub const SCREEN : GlowBlendMode = GlowBlendMode (1i64) ; pub const SOFTLIGHT : GlowBlendMode = GlowBlendMode (2i64) ; pub const REPLACE : GlowBlendMode = GlowBlendMode (3i64) ; } impl From < i64 > for GlowBlendMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < GlowBlendMode > for i64 { # [inline] fn from (v : GlowBlendMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SsaoBlur (pub i64) ; impl SsaoBlur { pub const DISABLED : SsaoBlur = SsaoBlur (0i64) ; pub const _1X1 : SsaoBlur = SsaoBlur (1i64) ; pub const _2X2 : SsaoBlur = SsaoBlur (2i64) ; pub const _3X3 : SsaoBlur = SsaoBlur (3i64) ; } impl From < i64 > for SsaoBlur { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SsaoBlur > for i64 { # [inline] fn from (v : SsaoBlur) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SsaoQuality (pub i64) ; impl SsaoQuality { pub const LOW : SsaoQuality = SsaoQuality (0i64) ; pub const MEDIUM : SsaoQuality = SsaoQuality (1i64) ; pub const HIGH : SsaoQuality = SsaoQuality (2i64) ; } impl From < i64 > for SsaoQuality { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SsaoQuality > for i64 { # [inline] fn from (v : SsaoQuality) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ToneMapper (pub i64) ; impl ToneMapper { pub const LINEAR : ToneMapper = ToneMapper (0i64) ; pub const REINHARDT : ToneMapper = ToneMapper (1i64) ; pub const FILMIC : ToneMapper = ToneMapper (2i64) ; pub const ACES : ToneMapper = ToneMapper (3i64) ; } impl From < i64 > for ToneMapper { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ToneMapper > for i64 { # [inline] fn from (v : ToneMapper) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Environment { pub const BG_CAMERA_FEED : i64 = 6i64 ; pub const BG_CANVAS : i64 = 4i64 ; pub const BG_CLEAR_COLOR : i64 = 0i64 ; pub const BG_COLOR : i64 = 1i64 ; pub const BG_COLOR_SKY : i64 = 3i64 ; pub const BG_KEEP : i64 = 5i64 ; pub const BG_MAX : i64 = 7i64 ; pub const BG_SKY : i64 = 2i64 ; pub const DOF_BLUR_QUALITY_HIGH : i64 = 2i64 ; pub const DOF_BLUR_QUALITY_LOW : i64 = 0i64 ; pub const DOF_BLUR_QUALITY_MEDIUM : i64 = 1i64 ; 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 SSAO_BLUR_1x1 : i64 = 1i64 ; pub const SSAO_BLUR_2x2 : i64 = 2i64 ; pub const SSAO_BLUR_3x3 : i64 = 3i64 ; pub const SSAO_BLUR_DISABLED : i64 = 0i64 ; pub const SSAO_QUALITY_HIGH : i64 = 2i64 ; pub const SSAO_QUALITY_LOW : i64 = 0i64 ; pub const SSAO_QUALITY_MEDIUM : i64 = 1i64 ; pub const TONE_MAPPER_ACES : i64 = 3i64 ; pub const TONE_MAPPER_FILMIC : i64 = 2i64 ; pub const TONE_MAPPER_LINEAR : i64 = 0i64 ; pub const TONE_MAPPER_REINHARDT : i64 = 1i64 ; } impl Environment { # [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 = EnvironmentMethodTable :: 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 global brightness value of the rendered scene. Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn adjustment_brightness (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_adjustment_brightness ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Applies the provided [Texture] resource to affect the global color aspect of the rendered scene. Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn adjustment_color_correction (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_adjustment_color_correction ; 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 global contrast value of the rendered scene (default value is 1). Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn adjustment_contrast (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_adjustment_contrast ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The global color saturation value of the rendered scene (default value is 1). Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn adjustment_saturation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_adjustment_saturation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The ambient light's [Color]."] # [doc = ""] # [inline] pub fn ambient_light_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ambient_light_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The ambient light's energy. The higher the value, the stronger the light."] # [doc = ""] # [inline] pub fn ambient_light_energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ambient_light_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Defines the amount of light that the sky brings on the scene. A value of 0 means that the sky's light emission has no effect on the scene illumination, thus all ambient illumination is provided by the ambient light. On the contrary, a value of 1 means that all the light that affects the scene is provided by the sky, thus the ambient light parameter has no effect on the scene."] # [doc = ""] # [inline] pub fn ambient_light_sky_contribution (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ambient_light_sky_contribution ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The background mode. See [enum BGMode] for possible values."] # [doc = ""] # [inline] pub fn background (& self) -> crate :: generated :: environment :: BgMode { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_background ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: environment :: BgMode (ret) } } # [doc = "The [Color] displayed for clear areas of the scene. Only effective when using the [constant BG_COLOR] or [constant BG_COLOR_SKY] background modes)."] # [doc = ""] # [inline] pub fn bg_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_bg_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The power of the light emitted by the background."] # [doc = ""] # [inline] pub fn bg_energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_bg_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The ID of the camera feed to show in the background."] # [doc = ""] # [inline] pub fn camera_feed_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_camera_feed_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum layer ID to display. Only effective when using the [constant BG_CANVAS] background mode."] # [doc = ""] # [inline] pub fn canvas_max_layer (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_canvas_max_layer ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The amount of far blur for the depth-of-field effect."] # [doc = ""] # [inline] pub fn dof_blur_far_amount (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_far_amount ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The distance from the camera where the far blur effect affects the rendering."] # [doc = ""] # [inline] pub fn dof_blur_far_distance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_far_distance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The depth-of-field far blur's quality. Higher values can mitigate the visible banding effect seen at higher strengths, but are much slower."] # [doc = ""] # [inline] pub fn dof_blur_far_quality (& self) -> crate :: generated :: environment :: DofBlurQuality { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_far_quality ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: environment :: DofBlurQuality (ret) } } # [doc = "The length of the transition between the no-blur area and far blur."] # [doc = ""] # [inline] pub fn dof_blur_far_transition (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_far_transition ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The amount of near blur for the depth-of-field effect."] # [doc = ""] # [inline] pub fn dof_blur_near_amount (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_near_amount ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Distance from the camera where the near blur effect affects the rendering."] # [doc = ""] # [inline] pub fn dof_blur_near_distance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_near_distance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The depth-of-field near blur's quality. Higher values can mitigate the visible banding effect seen at higher strengths, but are much slower."] # [doc = ""] # [inline] pub fn dof_blur_near_quality (& self) -> crate :: generated :: environment :: DofBlurQuality { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_near_quality ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: environment :: DofBlurQuality (ret) } } # [doc = "The length of the transition between the near blur and no-blur area."] # [doc = ""] # [inline] pub fn dof_blur_near_transition (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_dof_blur_near_transition ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The fog's [Color]."] # [doc = ""] # [inline] pub fn fog_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The fog's depth starting distance from the camera."] # [doc = ""] # [inline] pub fn fog_depth_begin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_depth_begin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The fog depth's intensity curve. A number of presets are available in the **Inspector** by right-clicking the curve."] # [doc = ""] # [inline] pub fn fog_depth_curve (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_depth_curve ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The fog's depth end distance from the camera. If this value is set to 0, it will be equal to the current camera's [member Camera.far] value."] # [doc = ""] # [inline] pub fn fog_depth_end (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_depth_end ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The height fog's intensity. A number of presets are available in the **Inspector** by right-clicking the curve."] # [doc = ""] # [inline] pub fn fog_height_curve (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_height_curve ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The Y coordinate where the height fog will be the most intense. If this value is greater than [member fog_height_min], fog will be displayed from bottom to top. Otherwise, it will be displayed from top to bottom."] # [doc = ""] # [inline] pub fn fog_height_max (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_height_max ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The Y coordinate where the height fog will be the least intense. If this value is greater than [member fog_height_max], fog will be displayed from top to bottom. Otherwise, it will be displayed from bottom to top."] # [doc = ""] # [inline] pub fn fog_height_min (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_height_min ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The intensity of the depth fog color transition when looking towards the sun. The sun's direction is determined automatically using the DirectionalLight node in the scene."] # [doc = ""] # [inline] pub fn fog_sun_amount (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_sun_amount ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The depth fog's [Color] when looking towards the sun."] # [doc = ""] # [inline] pub fn fog_sun_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_sun_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The intensity of the fog light transmittance effect. Amount of light that the fog transmits."] # [doc = ""] # [inline] pub fn fog_transmit_curve (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_fog_transmit_curve ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The glow blending mode."] # [doc = ""] # [inline] pub fn glow_blend_mode (& self) -> crate :: generated :: environment :: GlowBlendMode { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_glow_blend_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: environment :: GlowBlendMode (ret) } } # [doc = "The bloom's intensity. If set to a value higher than `0`, this will make glow visible in areas darker than the [member glow_hdr_threshold]."] # [doc = ""] # [inline] pub fn glow_bloom (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_glow_bloom ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The bleed scale of the HDR glow."] # [doc = ""] # [inline] pub fn glow_hdr_bleed_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_glow_hdr_bleed_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The lower threshold of the HDR glow. When using the GLES2 renderer (which doesn't support HDR), this needs to be below `1.0` for glow to be visible. A value of `0.9` works well in this case."] # [doc = ""] # [inline] pub fn glow_hdr_bleed_threshold (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_glow_hdr_bleed_threshold ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The higher threshold of the HDR glow. Areas brighter than this threshold will be clamped for the purposes of the glow effect."] # [doc = ""] # [inline] pub fn glow_hdr_luminance_cap (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_glow_hdr_luminance_cap ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The glow intensity. When using the GLES2 renderer, this should be increased to 1.5 to compensate for the lack of HDR rendering."] # [doc = ""] # [inline] pub fn glow_intensity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_glow_intensity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The glow strength. When using the GLES2 renderer, this should be increased to 1.3 to compensate for the lack of HDR rendering."] # [doc = ""] # [inline] pub fn glow_strength (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_glow_strength ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [Sky] resource defined as background."] # [doc = ""] # [inline] pub fn sky (& self) -> Option < Ref < crate :: generated :: sky :: Sky , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_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 = "The [Sky] resource's custom field of view."] # [doc = ""] # [inline] pub fn sky_custom_fov (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_sky_custom_fov ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [Sky] resource's rotation expressed as a [Basis]."] # [doc = ""] # [inline] pub fn sky_orientation (& self) -> Basis { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_sky_orientation ; let ret = crate :: icalls :: icallptr_basis (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The [Sky] resource's rotation expressed as Euler angles in radians."] # [doc = ""] # [inline] pub fn sky_rotation (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_sky_rotation ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The [Sky] resource's rotation expressed as Euler angles in degrees."] # [doc = ""] # [inline] pub fn sky_rotation_degrees (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_sky_rotation_degrees ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The screen-space ambient occlusion intensity on materials that have an AO texture defined. Values higher than `0` will make the SSAO effect visible in areas darkened by AO textures."] # [doc = ""] # [inline] pub fn ssao_ao_channel_affect (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_ao_channel_affect ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The screen-space ambient occlusion bias. This should be kept high enough to prevent \"smooth\" curves from being affected by ambient occlusion."] # [doc = ""] # [inline] pub fn ssao_bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The screen-space ambient occlusion blur quality. See [enum SSAOBlur] for possible values."] # [doc = ""] # [inline] pub fn ssao_blur (& self) -> crate :: generated :: environment :: SsaoBlur { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_blur ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: environment :: SsaoBlur (ret) } } # [doc = "The screen-space ambient occlusion color."] # [doc = ""] # [inline] pub fn ssao_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The screen-space ambient occlusion intensity in direct light. In real life, ambient occlusion only applies to indirect light, which means its effects can't be seen in direct light. Values higher than `0` will make the SSAO effect visible in direct light."] # [doc = ""] # [inline] pub fn ssao_direct_light_affect (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_direct_light_affect ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The screen-space ambient occlusion edge sharpness."] # [doc = ""] # [inline] pub fn ssao_edge_sharpness (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_edge_sharpness ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The primary screen-space ambient occlusion intensity. See also [member ssao_radius]."] # [doc = ""] # [inline] pub fn ssao_intensity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_intensity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The secondary screen-space ambient occlusion intensity. See also [member ssao_radius2]."] # [doc = ""] # [inline] pub fn ssao_intensity2 (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_intensity2 ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The screen-space ambient occlusion quality. Higher qualities will make better use of small objects for ambient occlusion, but are slower."] # [doc = ""] # [inline] pub fn ssao_quality (& self) -> crate :: generated :: environment :: SsaoQuality { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_quality ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: environment :: SsaoQuality (ret) } } # [doc = "The primary screen-space ambient occlusion radius."] # [doc = ""] # [inline] pub fn ssao_radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The secondary screen-space ambient occlusion radius. If set to a value higher than `0`, enables the secondary screen-space ambient occlusion effect which can be used to improve the effect's appearance (at the cost of performance)."] # [doc = ""] # [inline] pub fn ssao_radius2 (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssao_radius2 ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The depth tolerance for screen-space reflections."] # [doc = ""] # [inline] pub fn ssr_depth_tolerance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssr_depth_tolerance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The fade-in distance for screen-space reflections. Affects the area from the reflected material to the screen-space reflection)."] # [doc = ""] # [inline] pub fn ssr_fade_in (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssr_fade_in ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The fade-out distance for screen-space reflections. Affects the area from the screen-space reflection to the \"global\" reflection."] # [doc = ""] # [inline] pub fn ssr_fade_out (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssr_fade_out ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum number of steps for screen-space reflections. Higher values are slower."] # [doc = ""] # [inline] pub fn ssr_max_steps (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_ssr_max_steps ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, enables the tonemapping auto exposure mode of the scene renderer. If `true`, the renderer will automatically determine the exposure setting to adapt to the scene's illumination and the observed light."] # [doc = ""] # [inline] pub fn tonemap_auto_exposure (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemap_auto_exposure ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The scale of the auto exposure effect. Affects the intensity of auto exposure."] # [doc = ""] # [inline] pub fn tonemap_auto_exposure_grey (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemap_auto_exposure_grey ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum luminance value for the auto exposure."] # [doc = ""] # [inline] pub fn tonemap_auto_exposure_max (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemap_auto_exposure_max ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The minimum luminance value for the auto exposure."] # [doc = ""] # [inline] pub fn tonemap_auto_exposure_min (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemap_auto_exposure_min ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The speed of the auto exposure effect. Affects the time needed for the camera to perform auto exposure."] # [doc = ""] # [inline] pub fn tonemap_auto_exposure_speed (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemap_auto_exposure_speed ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The default exposure used for tonemapping."] # [doc = ""] # [inline] pub fn tonemap_exposure (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemap_exposure ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The white reference value for tonemapping. Only effective if the [member tonemap_mode] isn't set to [constant TONE_MAPPER_LINEAR]."] # [doc = ""] # [inline] pub fn tonemap_white (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemap_white ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The tonemapping mode to use. Tonemapping is the process that \"converts\" HDR values to be suitable for rendering on a LDR display. (Godot doesn't support rendering on HDR displays yet.)"] # [doc = ""] # [inline] pub fn tonemapper (& self) -> crate :: generated :: environment :: ToneMapper { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . get_tonemapper ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: environment :: ToneMapper (ret) } } # [doc = "If `true`, enables the `adjustment_*` properties provided by this resource. If `false`, modifications to the `adjustment_*` properties will have no effect on the rendered scene."] # [doc = ""] # [inline] pub fn is_adjustment_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_adjustment_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, enables the depth-of-field far blur effect."] # [doc = ""] # [inline] pub fn is_dof_blur_far_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_dof_blur_far_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, enables the depth-of-field near blur effect."] # [doc = ""] # [inline] pub fn is_dof_blur_near_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_dof_blur_near_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the depth fog effect is enabled. When enabled, fog will appear in the distance (relative to the camera)."] # [doc = ""] # [inline] pub fn is_fog_depth_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_fog_depth_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, fog effects are enabled. [member fog_height_enabled] and/or [member fog_depth_enabled] must be set to `true` to actually display fog."] # [doc = ""] # [inline] pub fn is_fog_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_fog_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the height fog effect is enabled. When enabled, fog will appear in a defined height range, regardless of the distance from the camera. This can be used to simulate \"deep water\" effects with a lower performance cost compared to a dedicated shader."] # [doc = ""] # [inline] pub fn is_fog_height_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_fog_height_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Enables fog's light transmission effect. If `true`, light will be more visible in the fog to simulate light scattering as in real life."] # [doc = ""] # [inline] pub fn is_fog_transmit_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_fog_transmit_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Smooths out the blockiness created by sampling higher levels, at the cost of performance.\n**Note:** When using the GLES2 renderer, this is only available if the GPU supports the `GL_EXT_gpu_shader4` extension."] # [doc = ""] # [inline] pub fn is_glow_bicubic_upscale_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_glow_bicubic_upscale_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the glow effect is enabled."] # [doc = ""] # [inline] pub fn is_glow_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_glow_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the 7th level of glow is enabled. This is the most \"global\" level (blurriest)."] # [doc = ""] # [inline] pub fn is_glow_level_enabled (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_glow_level_enabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "If `true`, the screen-space ambient occlusion effect is enabled. This darkens objects' corners and cavities to simulate ambient light not reaching the entire object as in real life. This works well for small, dynamic objects, but baked lighting or ambient occlusion textures will do a better job at displaying ambient occlusion on large static objects. This is a costly effect and should be disabled first when running into performance issues."] # [doc = ""] # [inline] pub fn is_ssao_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_ssao_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, screen-space reflections are enabled. Screen-space reflections are more accurate than reflections from [GIProbe]s or [ReflectionProbe]s, but are slower and can't reflect surfaces occluded by others."] # [doc = ""] # [inline] pub fn is_ssr_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_ssr_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, screen-space reflections will take the material roughness into account."] # [doc = ""] # [inline] pub fn is_ssr_rough (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . is_ssr_rough ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The global brightness value of the rendered scene. Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn set_adjustment_brightness (& self , brightness : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_adjustment_brightness ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , brightness) ; } } # [doc = "Applies the provided [Texture] resource to affect the global color aspect of the rendered scene. Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn set_adjustment_color_correction (& self , color_correction : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_adjustment_color_correction ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , color_correction . as_arg_ptr ()) ; } } # [doc = "The global contrast value of the rendered scene (default value is 1). Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn set_adjustment_contrast (& self , contrast : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_adjustment_contrast ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , contrast) ; } } # [doc = "If `true`, enables the `adjustment_*` properties provided by this resource. If `false`, modifications to the `adjustment_*` properties will have no effect on the rendered scene."] # [doc = ""] # [inline] pub fn set_adjustment_enable (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_adjustment_enable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The global color saturation value of the rendered scene (default value is 1). Effective only if `adjustment_enabled` is `true`."] # [doc = ""] # [inline] pub fn set_adjustment_saturation (& self , saturation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_adjustment_saturation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , saturation) ; } } # [doc = "The ambient light's [Color]."] # [doc = ""] # [inline] pub fn set_ambient_light_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ambient_light_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The ambient light's energy. The higher the value, the stronger the light."] # [doc = ""] # [inline] pub fn set_ambient_light_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ambient_light_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = "Defines the amount of light that the sky brings on the scene. A value of 0 means that the sky's light emission has no effect on the scene illumination, thus all ambient illumination is provided by the ambient light. On the contrary, a value of 1 means that all the light that affects the scene is provided by the sky, thus the ambient light parameter has no effect on the scene."] # [doc = ""] # [inline] pub fn set_ambient_light_sky_contribution (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ambient_light_sky_contribution ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = "The background mode. See [enum BGMode] for possible values."] # [doc = ""] # [inline] pub fn set_background (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_background ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The [Color] displayed for clear areas of the scene. Only effective when using the [constant BG_COLOR] or [constant BG_COLOR_SKY] background modes)."] # [doc = ""] # [inline] pub fn set_bg_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_bg_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The power of the light emitted by the background."] # [doc = ""] # [inline] pub fn set_bg_energy (& self , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_bg_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , energy) ; } } # [doc = "The ID of the camera feed to show in the background."] # [doc = ""] # [inline] pub fn set_camera_feed_id (& self , camera_feed_id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_camera_feed_id ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , camera_feed_id) ; } } # [doc = "The maximum layer ID to display. Only effective when using the [constant BG_CANVAS] background mode."] # [doc = ""] # [inline] pub fn set_canvas_max_layer (& self , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_canvas_max_layer ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , layer) ; } } # [doc = "The amount of far blur for the depth-of-field effect."] # [doc = ""] # [inline] pub fn set_dof_blur_far_amount (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_far_amount ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "The distance from the camera where the far blur effect affects the rendering."] # [doc = ""] # [inline] pub fn set_dof_blur_far_distance (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_far_distance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "If `true`, enables the depth-of-field far blur effect."] # [doc = ""] # [inline] pub fn set_dof_blur_far_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_far_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The depth-of-field far blur's quality. Higher values can mitigate the visible banding effect seen at higher strengths, but are much slower."] # [doc = ""] # [inline] pub fn set_dof_blur_far_quality (& self , intensity : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_far_quality ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "The length of the transition between the no-blur area and far blur."] # [doc = ""] # [inline] pub fn set_dof_blur_far_transition (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_far_transition ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "The amount of near blur for the depth-of-field effect."] # [doc = ""] # [inline] pub fn set_dof_blur_near_amount (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_near_amount ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "Distance from the camera where the near blur effect affects the rendering."] # [doc = ""] # [inline] pub fn set_dof_blur_near_distance (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_near_distance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "If `true`, enables the depth-of-field near blur effect."] # [doc = ""] # [inline] pub fn set_dof_blur_near_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_near_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The depth-of-field near blur's quality. Higher values can mitigate the visible banding effect seen at higher strengths, but are much slower."] # [doc = ""] # [inline] pub fn set_dof_blur_near_quality (& self , level : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_near_quality ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , level) ; } } # [doc = "The length of the transition between the near blur and no-blur area."] # [doc = ""] # [inline] pub fn set_dof_blur_near_transition (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_dof_blur_near_transition ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "The fog's [Color]."] # [doc = ""] # [inline] pub fn set_fog_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The fog's depth starting distance from the camera."] # [doc = ""] # [inline] pub fn set_fog_depth_begin (& self , distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_depth_begin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , distance) ; } } # [doc = "The fog depth's intensity curve. A number of presets are available in the **Inspector** by right-clicking the curve."] # [doc = ""] # [inline] pub fn set_fog_depth_curve (& self , curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_depth_curve ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , curve) ; } } # [doc = "If `true`, the depth fog effect is enabled. When enabled, fog will appear in the distance (relative to the camera)."] # [doc = ""] # [inline] pub fn set_fog_depth_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_depth_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The fog's depth end distance from the camera. If this value is set to 0, it will be equal to the current camera's [member Camera.far] value."] # [doc = ""] # [inline] pub fn set_fog_depth_end (& self , distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_depth_end ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , distance) ; } } # [doc = "If `true`, fog effects are enabled. [member fog_height_enabled] and/or [member fog_depth_enabled] must be set to `true` to actually display fog."] # [doc = ""] # [inline] pub fn set_fog_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The height fog's intensity. A number of presets are available in the **Inspector** by right-clicking the curve."] # [doc = ""] # [inline] pub fn set_fog_height_curve (& self , curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_height_curve ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , curve) ; } } # [doc = "If `true`, the height fog effect is enabled. When enabled, fog will appear in a defined height range, regardless of the distance from the camera. This can be used to simulate \"deep water\" effects with a lower performance cost compared to a dedicated shader."] # [doc = ""] # [inline] pub fn set_fog_height_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_height_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The Y coordinate where the height fog will be the most intense. If this value is greater than [member fog_height_min], fog will be displayed from bottom to top. Otherwise, it will be displayed from top to bottom."] # [doc = ""] # [inline] pub fn set_fog_height_max (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_height_max ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "The Y coordinate where the height fog will be the least intense. If this value is greater than [member fog_height_max], fog will be displayed from top to bottom. Otherwise, it will be displayed from bottom to top."] # [doc = ""] # [inline] pub fn set_fog_height_min (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_height_min ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "The intensity of the depth fog color transition when looking towards the sun. The sun's direction is determined automatically using the DirectionalLight node in the scene."] # [doc = ""] # [inline] pub fn set_fog_sun_amount (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_sun_amount ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The depth fog's [Color] when looking towards the sun."] # [doc = ""] # [inline] pub fn set_fog_sun_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_sun_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The intensity of the fog light transmittance effect. Amount of light that the fog transmits."] # [doc = ""] # [inline] pub fn set_fog_transmit_curve (& self , curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_transmit_curve ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , curve) ; } } # [doc = "Enables fog's light transmission effect. If `true`, light will be more visible in the fog to simulate light scattering as in real life."] # [doc = ""] # [inline] pub fn set_fog_transmit_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_fog_transmit_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Smooths out the blockiness created by sampling higher levels, at the cost of performance.\n**Note:** When using the GLES2 renderer, this is only available if the GPU supports the `GL_EXT_gpu_shader4` extension."] # [doc = ""] # [inline] pub fn set_glow_bicubic_upscale (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_bicubic_upscale ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The glow blending mode."] # [doc = ""] # [inline] pub fn set_glow_blend_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_blend_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The bloom's intensity. If set to a value higher than `0`, this will make glow visible in areas darker than the [member glow_hdr_threshold]."] # [doc = ""] # [inline] pub fn set_glow_bloom (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_bloom ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "If `true`, the glow effect is enabled."] # [doc = ""] # [inline] pub fn set_glow_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The bleed scale of the HDR glow."] # [doc = ""] # [inline] pub fn set_glow_hdr_bleed_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_hdr_bleed_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "The lower threshold of the HDR glow. When using the GLES2 renderer (which doesn't support HDR), this needs to be below `1.0` for glow to be visible. A value of `0.9` works well in this case."] # [doc = ""] # [inline] pub fn set_glow_hdr_bleed_threshold (& self , threshold : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_hdr_bleed_threshold ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , threshold) ; } } # [doc = "The higher threshold of the HDR glow. Areas brighter than this threshold will be clamped for the purposes of the glow effect."] # [doc = ""] # [inline] pub fn set_glow_hdr_luminance_cap (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_hdr_luminance_cap ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The glow intensity. When using the GLES2 renderer, this should be increased to 1.5 to compensate for the lack of HDR rendering."] # [doc = ""] # [inline] pub fn set_glow_intensity (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_intensity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "If `true`, the 7th level of glow is enabled. This is the most \"global\" level (blurriest)."] # [doc = ""] # [inline] pub fn set_glow_level (& self , idx : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_level ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , enabled) ; } } # [doc = "The glow strength. When using the GLES2 renderer, this should be increased to 1.3 to compensate for the lack of HDR rendering."] # [doc = ""] # [inline] pub fn set_glow_strength (& self , strength : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_glow_strength ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , strength) ; } } # [doc = "The [Sky] resource defined as background."] # [doc = ""] # [inline] pub fn set_sky (& self , sky : impl AsArg < crate :: generated :: sky :: Sky >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_sky ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , sky . as_arg_ptr ()) ; } } # [doc = "The [Sky] resource's custom field of view."] # [doc = ""] # [inline] pub fn set_sky_custom_fov (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_sky_custom_fov ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "The [Sky] resource's rotation expressed as a [Basis]."] # [doc = ""] # [inline] pub fn set_sky_orientation (& self , orientation : Basis) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_sky_orientation ; let ret = crate :: icalls :: icallptr_void_basis (method_bind , self . this . sys () . as_ptr () , orientation) ; } } # [doc = "The [Sky] resource's rotation expressed as Euler angles in radians."] # [doc = ""] # [inline] pub fn set_sky_rotation (& self , euler_radians : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_sky_rotation ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , euler_radians) ; } } # [doc = "The [Sky] resource's rotation expressed as Euler angles in degrees."] # [doc = ""] # [inline] pub fn set_sky_rotation_degrees (& self , euler_degrees : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_sky_rotation_degrees ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , euler_degrees) ; } } # [doc = "The screen-space ambient occlusion intensity on materials that have an AO texture defined. Values higher than `0` will make the SSAO effect visible in areas darkened by AO textures."] # [doc = ""] # [inline] pub fn set_ssao_ao_channel_affect (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_ao_channel_affect ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The screen-space ambient occlusion bias. This should be kept high enough to prevent \"smooth\" curves from being affected by ambient occlusion."] # [doc = ""] # [inline] pub fn set_ssao_bias (& self , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bias) ; } } # [doc = "The screen-space ambient occlusion blur quality. See [enum SSAOBlur] for possible values."] # [doc = ""] # [inline] pub fn set_ssao_blur (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_blur ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The screen-space ambient occlusion color."] # [doc = ""] # [inline] pub fn set_ssao_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The screen-space ambient occlusion intensity in direct light. In real life, ambient occlusion only applies to indirect light, which means its effects can't be seen in direct light. Values higher than `0` will make the SSAO effect visible in direct light."] # [doc = ""] # [inline] pub fn set_ssao_direct_light_affect (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_direct_light_affect ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The screen-space ambient occlusion edge sharpness."] # [doc = ""] # [inline] pub fn set_ssao_edge_sharpness (& self , edge_sharpness : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_edge_sharpness ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , edge_sharpness) ; } } # [doc = "If `true`, the screen-space ambient occlusion effect is enabled. This darkens objects' corners and cavities to simulate ambient light not reaching the entire object as in real life. This works well for small, dynamic objects, but baked lighting or ambient occlusion textures will do a better job at displaying ambient occlusion on large static objects. This is a costly effect and should be disabled first when running into performance issues."] # [doc = ""] # [inline] pub fn set_ssao_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The primary screen-space ambient occlusion intensity. See also [member ssao_radius]."] # [doc = ""] # [inline] pub fn set_ssao_intensity (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_intensity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "The secondary screen-space ambient occlusion intensity. See also [member ssao_radius2]."] # [doc = ""] # [inline] pub fn set_ssao_intensity2 (& self , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_intensity2 ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , intensity) ; } } # [doc = "The screen-space ambient occlusion quality. Higher qualities will make better use of small objects for ambient occlusion, but are slower."] # [doc = ""] # [inline] pub fn set_ssao_quality (& self , quality : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_quality ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , quality) ; } } # [doc = "The primary screen-space ambient occlusion radius."] # [doc = ""] # [inline] pub fn set_ssao_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = "The secondary screen-space ambient occlusion radius. If set to a value higher than `0`, enables the secondary screen-space ambient occlusion effect which can be used to improve the effect's appearance (at the cost of performance)."] # [doc = ""] # [inline] pub fn set_ssao_radius2 (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssao_radius2 ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = "The depth tolerance for screen-space reflections."] # [doc = ""] # [inline] pub fn set_ssr_depth_tolerance (& self , depth_tolerance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssr_depth_tolerance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , depth_tolerance) ; } } # [doc = "If `true`, screen-space reflections are enabled. Screen-space reflections are more accurate than reflections from [GIProbe]s or [ReflectionProbe]s, but are slower and can't reflect surfaces occluded by others."] # [doc = ""] # [inline] pub fn set_ssr_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssr_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The fade-in distance for screen-space reflections. Affects the area from the reflected material to the screen-space reflection)."] # [doc = ""] # [inline] pub fn set_ssr_fade_in (& self , fade_in : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssr_fade_in ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , fade_in) ; } } # [doc = "The fade-out distance for screen-space reflections. Affects the area from the screen-space reflection to the \"global\" reflection."] # [doc = ""] # [inline] pub fn set_ssr_fade_out (& self , fade_out : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssr_fade_out ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , fade_out) ; } } # [doc = "The maximum number of steps for screen-space reflections. Higher values are slower."] # [doc = ""] # [inline] pub fn set_ssr_max_steps (& self , max_steps : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssr_max_steps ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , max_steps) ; } } # [doc = "If `true`, screen-space reflections will take the material roughness into account."] # [doc = ""] # [inline] pub fn set_ssr_rough (& self , rough : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_ssr_rough ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , rough) ; } } # [doc = "If `true`, enables the tonemapping auto exposure mode of the scene renderer. If `true`, the renderer will automatically determine the exposure setting to adapt to the scene's illumination and the observed light."] # [doc = ""] # [inline] pub fn set_tonemap_auto_exposure (& self , auto_exposure : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemap_auto_exposure ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , auto_exposure) ; } } # [doc = "The scale of the auto exposure effect. Affects the intensity of auto exposure."] # [doc = ""] # [inline] pub fn set_tonemap_auto_exposure_grey (& self , exposure_grey : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemap_auto_exposure_grey ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , exposure_grey) ; } } # [doc = "The maximum luminance value for the auto exposure."] # [doc = ""] # [inline] pub fn set_tonemap_auto_exposure_max (& self , exposure_max : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemap_auto_exposure_max ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , exposure_max) ; } } # [doc = "The minimum luminance value for the auto exposure."] # [doc = ""] # [inline] pub fn set_tonemap_auto_exposure_min (& self , exposure_min : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemap_auto_exposure_min ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , exposure_min) ; } } # [doc = "The speed of the auto exposure effect. Affects the time needed for the camera to perform auto exposure."] # [doc = ""] # [inline] pub fn set_tonemap_auto_exposure_speed (& self , exposure_speed : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemap_auto_exposure_speed ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , exposure_speed) ; } } # [doc = "The default exposure used for tonemapping."] # [doc = ""] # [inline] pub fn set_tonemap_exposure (& self , exposure : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemap_exposure ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , exposure) ; } } # [doc = "The white reference value for tonemapping. Only effective if the [member tonemap_mode] isn't set to [constant TONE_MAPPER_LINEAR]."] # [doc = ""] # [inline] pub fn set_tonemap_white (& self , white : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemap_white ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , white) ; } } # [doc = "The tonemapping mode to use. Tonemapping is the process that \"converts\" HDR values to be suitable for rendering on a LDR display. (Godot doesn't support rendering on HDR displays yet.)"] # [doc = ""] # [inline] pub fn set_tonemapper (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EnvironmentMethodTable :: get (get_api ()) . set_tonemapper ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Environment { } unsafe impl GodotObject for Environment { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Environment" } } impl std :: ops :: Deref for Environment { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Environment { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Environment { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Environment { } unsafe impl SubClass < crate :: generated :: object :: Object > for Environment { } impl Instanciable for Environment { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Environment :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EnvironmentMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_adjustment_brightness : * mut sys :: godot_method_bind , pub get_adjustment_color_correction : * mut sys :: godot_method_bind , pub get_adjustment_contrast : * mut sys :: godot_method_bind , pub get_adjustment_saturation : * mut sys :: godot_method_bind , pub get_ambient_light_color : * mut sys :: godot_method_bind , pub get_ambient_light_energy : * mut sys :: godot_method_bind , pub get_ambient_light_sky_contribution : * mut sys :: godot_method_bind , pub get_background : * mut sys :: godot_method_bind , pub get_bg_color : * mut sys :: godot_method_bind , pub get_bg_energy : * mut sys :: godot_method_bind , pub get_camera_feed_id : * mut sys :: godot_method_bind , pub get_canvas_max_layer : * mut sys :: godot_method_bind , pub get_dof_blur_far_amount : * mut sys :: godot_method_bind , pub get_dof_blur_far_distance : * mut sys :: godot_method_bind , pub get_dof_blur_far_quality : * mut sys :: godot_method_bind , pub get_dof_blur_far_transition : * mut sys :: godot_method_bind , pub get_dof_blur_near_amount : * mut sys :: godot_method_bind , pub get_dof_blur_near_distance : * mut sys :: godot_method_bind , pub get_dof_blur_near_quality : * mut sys :: godot_method_bind , pub get_dof_blur_near_transition : * mut sys :: godot_method_bind , pub get_fog_color : * mut sys :: godot_method_bind , pub get_fog_depth_begin : * mut sys :: godot_method_bind , pub get_fog_depth_curve : * mut sys :: godot_method_bind , pub get_fog_depth_end : * mut sys :: godot_method_bind , pub get_fog_height_curve : * mut sys :: godot_method_bind , pub get_fog_height_max : * mut sys :: godot_method_bind , pub get_fog_height_min : * mut sys :: godot_method_bind , pub get_fog_sun_amount : * mut sys :: godot_method_bind , pub get_fog_sun_color : * mut sys :: godot_method_bind , pub get_fog_transmit_curve : * mut sys :: godot_method_bind , pub get_glow_blend_mode : * mut sys :: godot_method_bind , pub get_glow_bloom : * mut sys :: godot_method_bind , pub get_glow_hdr_bleed_scale : * mut sys :: godot_method_bind , pub get_glow_hdr_bleed_threshold : * mut sys :: godot_method_bind , pub get_glow_hdr_luminance_cap : * mut sys :: godot_method_bind , pub get_glow_intensity : * mut sys :: godot_method_bind , pub get_glow_strength : * mut sys :: godot_method_bind , pub get_sky : * mut sys :: godot_method_bind , pub get_sky_custom_fov : * mut sys :: godot_method_bind , pub get_sky_orientation : * mut sys :: godot_method_bind , pub get_sky_rotation : * mut sys :: godot_method_bind , pub get_sky_rotation_degrees : * mut sys :: godot_method_bind , pub get_ssao_ao_channel_affect : * mut sys :: godot_method_bind , pub get_ssao_bias : * mut sys :: godot_method_bind , pub get_ssao_blur : * mut sys :: godot_method_bind , pub get_ssao_color : * mut sys :: godot_method_bind , pub get_ssao_direct_light_affect : * mut sys :: godot_method_bind , pub get_ssao_edge_sharpness : * mut sys :: godot_method_bind , pub get_ssao_intensity : * mut sys :: godot_method_bind , pub get_ssao_intensity2 : * mut sys :: godot_method_bind , pub get_ssao_quality : * mut sys :: godot_method_bind , pub get_ssao_radius : * mut sys :: godot_method_bind , pub get_ssao_radius2 : * mut sys :: godot_method_bind , pub get_ssr_depth_tolerance : * mut sys :: godot_method_bind , pub get_ssr_fade_in : * mut sys :: godot_method_bind , pub get_ssr_fade_out : * mut sys :: godot_method_bind , pub get_ssr_max_steps : * mut sys :: godot_method_bind , pub get_tonemap_auto_exposure : * mut sys :: godot_method_bind , pub get_tonemap_auto_exposure_grey : * mut sys :: godot_method_bind , pub get_tonemap_auto_exposure_max : * mut sys :: godot_method_bind , pub get_tonemap_auto_exposure_min : * mut sys :: godot_method_bind , pub get_tonemap_auto_exposure_speed : * mut sys :: godot_method_bind , pub get_tonemap_exposure : * mut sys :: godot_method_bind , pub get_tonemap_white : * mut sys :: godot_method_bind , pub get_tonemapper : * mut sys :: godot_method_bind , pub is_adjustment_enabled : * mut sys :: godot_method_bind , pub is_dof_blur_far_enabled : * mut sys :: godot_method_bind , pub is_dof_blur_near_enabled : * mut sys :: godot_method_bind , pub is_fog_depth_enabled : * mut sys :: godot_method_bind , pub is_fog_enabled : * mut sys :: godot_method_bind , pub is_fog_height_enabled : * mut sys :: godot_method_bind , pub is_fog_transmit_enabled : * mut sys :: godot_method_bind , pub is_glow_bicubic_upscale_enabled : * mut sys :: godot_method_bind , pub is_glow_enabled : * mut sys :: godot_method_bind , pub is_glow_level_enabled : * mut sys :: godot_method_bind , pub is_ssao_enabled : * mut sys :: godot_method_bind , pub is_ssr_enabled : * mut sys :: godot_method_bind , pub is_ssr_rough : * mut sys :: godot_method_bind , pub set_adjustment_brightness : * mut sys :: godot_method_bind , pub set_adjustment_color_correction : * mut sys :: godot_method_bind , pub set_adjustment_contrast : * mut sys :: godot_method_bind , pub set_adjustment_enable : * mut sys :: godot_method_bind , pub set_adjustment_saturation : * mut sys :: godot_method_bind , pub set_ambient_light_color : * mut sys :: godot_method_bind , pub set_ambient_light_energy : * mut sys :: godot_method_bind , pub set_ambient_light_sky_contribution : * mut sys :: godot_method_bind , pub set_background : * mut sys :: godot_method_bind , pub set_bg_color : * mut sys :: godot_method_bind , pub set_bg_energy : * mut sys :: godot_method_bind , pub set_camera_feed_id : * mut sys :: godot_method_bind , pub set_canvas_max_layer : * mut sys :: godot_method_bind , pub set_dof_blur_far_amount : * mut sys :: godot_method_bind , pub set_dof_blur_far_distance : * mut sys :: godot_method_bind , pub set_dof_blur_far_enabled : * mut sys :: godot_method_bind , pub set_dof_blur_far_quality : * mut sys :: godot_method_bind , pub set_dof_blur_far_transition : * mut sys :: godot_method_bind , pub set_dof_blur_near_amount : * mut sys :: godot_method_bind , pub set_dof_blur_near_distance : * mut sys :: godot_method_bind , pub set_dof_blur_near_enabled : * mut sys :: godot_method_bind , pub set_dof_blur_near_quality : * mut sys :: godot_method_bind , pub set_dof_blur_near_transition : * mut sys :: godot_method_bind , pub set_fog_color : * mut sys :: godot_method_bind , pub set_fog_depth_begin : * mut sys :: godot_method_bind , pub set_fog_depth_curve : * mut sys :: godot_method_bind , pub set_fog_depth_enabled : * mut sys :: godot_method_bind , pub set_fog_depth_end : * mut sys :: godot_method_bind , pub set_fog_enabled : * mut sys :: godot_method_bind , pub set_fog_height_curve : * mut sys :: godot_method_bind , pub set_fog_height_enabled : * mut sys :: godot_method_bind , pub set_fog_height_max : * mut sys :: godot_method_bind , pub set_fog_height_min : * mut sys :: godot_method_bind , pub set_fog_sun_amount : * mut sys :: godot_method_bind , pub set_fog_sun_color : * mut sys :: godot_method_bind , pub set_fog_transmit_curve : * mut sys :: godot_method_bind , pub set_fog_transmit_enabled : * mut sys :: godot_method_bind , pub set_glow_bicubic_upscale : * mut sys :: godot_method_bind , pub set_glow_blend_mode : * mut sys :: godot_method_bind , pub set_glow_bloom : * mut sys :: godot_method_bind , pub set_glow_enabled : * mut sys :: godot_method_bind , pub set_glow_hdr_bleed_scale : * mut sys :: godot_method_bind , pub set_glow_hdr_bleed_threshold : * mut sys :: godot_method_bind , pub set_glow_hdr_luminance_cap : * mut sys :: godot_method_bind , pub set_glow_intensity : * mut sys :: godot_method_bind , pub set_glow_level : * mut sys :: godot_method_bind , pub set_glow_strength : * mut sys :: godot_method_bind , pub set_sky : * mut sys :: godot_method_bind , pub set_sky_custom_fov : * mut sys :: godot_method_bind , pub set_sky_orientation : * mut sys :: godot_method_bind , pub set_sky_rotation : * mut sys :: godot_method_bind , pub set_sky_rotation_degrees : * mut sys :: godot_method_bind , pub set_ssao_ao_channel_affect : * mut sys :: godot_method_bind , pub set_ssao_bias : * mut sys :: godot_method_bind , pub set_ssao_blur : * mut sys :: godot_method_bind , pub set_ssao_color : * mut sys :: godot_method_bind , pub set_ssao_direct_light_affect : * mut sys :: godot_method_bind , pub set_ssao_edge_sharpness : * mut sys :: godot_method_bind , pub set_ssao_enabled : * mut sys :: godot_method_bind , pub set_ssao_intensity : * mut sys :: godot_method_bind , pub set_ssao_intensity2 : * mut sys :: godot_method_bind , pub set_ssao_quality : * mut sys :: godot_method_bind , pub set_ssao_radius : * mut sys :: godot_method_bind , pub set_ssao_radius2 : * mut sys :: godot_method_bind , pub set_ssr_depth_tolerance : * mut sys :: godot_method_bind , pub set_ssr_enabled : * mut sys :: godot_method_bind , pub set_ssr_fade_in : * mut sys :: godot_method_bind , pub set_ssr_fade_out : * mut sys :: godot_method_bind , pub set_ssr_max_steps : * mut sys :: godot_method_bind , pub set_ssr_rough : * mut sys :: godot_method_bind , pub set_tonemap_auto_exposure : * mut sys :: godot_method_bind , pub set_tonemap_auto_exposure_grey : * mut sys :: godot_method_bind , pub set_tonemap_auto_exposure_max : * mut sys :: godot_method_bind , pub set_tonemap_auto_exposure_min : * mut sys :: godot_method_bind , pub set_tonemap_auto_exposure_speed : * mut sys :: godot_method_bind , pub set_tonemap_exposure : * mut sys :: godot_method_bind , pub set_tonemap_white : * mut sys :: godot_method_bind , pub set_tonemapper : * mut sys :: godot_method_bind } impl EnvironmentMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EnvironmentMethodTable = EnvironmentMethodTable { class_constructor : None , get_adjustment_brightness : 0 as * mut sys :: godot_method_bind , get_adjustment_color_correction : 0 as * mut sys :: godot_method_bind , get_adjustment_contrast : 0 as * mut sys :: godot_method_bind , get_adjustment_saturation : 0 as * mut sys :: godot_method_bind , get_ambient_light_color : 0 as * mut sys :: godot_method_bind , get_ambient_light_energy : 0 as * mut sys :: godot_method_bind , get_ambient_light_sky_contribution : 0 as * mut sys :: godot_method_bind , get_background : 0 as * mut sys :: godot_method_bind , get_bg_color : 0 as * mut sys :: godot_method_bind , get_bg_energy : 0 as * mut sys :: godot_method_bind , get_camera_feed_id : 0 as * mut sys :: godot_method_bind , get_canvas_max_layer : 0 as * mut sys :: godot_method_bind , get_dof_blur_far_amount : 0 as * mut sys :: godot_method_bind , get_dof_blur_far_distance : 0 as * mut sys :: godot_method_bind , get_dof_blur_far_quality : 0 as * mut sys :: godot_method_bind , get_dof_blur_far_transition : 0 as * mut sys :: godot_method_bind , get_dof_blur_near_amount : 0 as * mut sys :: godot_method_bind , get_dof_blur_near_distance : 0 as * mut sys :: godot_method_bind , get_dof_blur_near_quality : 0 as * mut sys :: godot_method_bind , get_dof_blur_near_transition : 0 as * mut sys :: godot_method_bind , get_fog_color : 0 as * mut sys :: godot_method_bind , get_fog_depth_begin : 0 as * mut sys :: godot_method_bind , get_fog_depth_curve : 0 as * mut sys :: godot_method_bind , get_fog_depth_end : 0 as * mut sys :: godot_method_bind , get_fog_height_curve : 0 as * mut sys :: godot_method_bind , get_fog_height_max : 0 as * mut sys :: godot_method_bind , get_fog_height_min : 0 as * mut sys :: godot_method_bind , get_fog_sun_amount : 0 as * mut sys :: godot_method_bind , get_fog_sun_color : 0 as * mut sys :: godot_method_bind , get_fog_transmit_curve : 0 as * mut sys :: godot_method_bind , get_glow_blend_mode : 0 as * mut sys :: godot_method_bind , get_glow_bloom : 0 as * mut sys :: godot_method_bind , get_glow_hdr_bleed_scale : 0 as * mut sys :: godot_method_bind , get_glow_hdr_bleed_threshold : 0 as * mut sys :: godot_method_bind , get_glow_hdr_luminance_cap : 0 as * mut sys :: godot_method_bind , get_glow_intensity : 0 as * mut sys :: godot_method_bind , get_glow_strength : 0 as * mut sys :: godot_method_bind , get_sky : 0 as * mut sys :: godot_method_bind , get_sky_custom_fov : 0 as * mut sys :: godot_method_bind , get_sky_orientation : 0 as * mut sys :: godot_method_bind , get_sky_rotation : 0 as * mut sys :: godot_method_bind , get_sky_rotation_degrees : 0 as * mut sys :: godot_method_bind , get_ssao_ao_channel_affect : 0 as * mut sys :: godot_method_bind , get_ssao_bias : 0 as * mut sys :: godot_method_bind , get_ssao_blur : 0 as * mut sys :: godot_method_bind , get_ssao_color : 0 as * mut sys :: godot_method_bind , get_ssao_direct_light_affect : 0 as * mut sys :: godot_method_bind , get_ssao_edge_sharpness : 0 as * mut sys :: godot_method_bind , get_ssao_intensity : 0 as * mut sys :: godot_method_bind , get_ssao_intensity2 : 0 as * mut sys :: godot_method_bind , get_ssao_quality : 0 as * mut sys :: godot_method_bind , get_ssao_radius : 0 as * mut sys :: godot_method_bind , get_ssao_radius2 : 0 as * mut sys :: godot_method_bind , get_ssr_depth_tolerance : 0 as * mut sys :: godot_method_bind , get_ssr_fade_in : 0 as * mut sys :: godot_method_bind , get_ssr_fade_out : 0 as * mut sys :: godot_method_bind , get_ssr_max_steps : 0 as * mut sys :: godot_method_bind , get_tonemap_auto_exposure : 0 as * mut sys :: godot_method_bind , get_tonemap_auto_exposure_grey : 0 as * mut sys :: godot_method_bind , get_tonemap_auto_exposure_max : 0 as * mut sys :: godot_method_bind , get_tonemap_auto_exposure_min : 0 as * mut sys :: godot_method_bind , get_tonemap_auto_exposure_speed : 0 as * mut sys :: godot_method_bind , get_tonemap_exposure : 0 as * mut sys :: godot_method_bind , get_tonemap_white : 0 as * mut sys :: godot_method_bind , get_tonemapper : 0 as * mut sys :: godot_method_bind , is_adjustment_enabled : 0 as * mut sys :: godot_method_bind , is_dof_blur_far_enabled : 0 as * mut sys :: godot_method_bind , is_dof_blur_near_enabled : 0 as * mut sys :: godot_method_bind , is_fog_depth_enabled : 0 as * mut sys :: godot_method_bind , is_fog_enabled : 0 as * mut sys :: godot_method_bind , is_fog_height_enabled : 0 as * mut sys :: godot_method_bind , is_fog_transmit_enabled : 0 as * mut sys :: godot_method_bind , is_glow_bicubic_upscale_enabled : 0 as * mut sys :: godot_method_bind , is_glow_enabled : 0 as * mut sys :: godot_method_bind , is_glow_level_enabled : 0 as * mut sys :: godot_method_bind , is_ssao_enabled : 0 as * mut sys :: godot_method_bind , is_ssr_enabled : 0 as * mut sys :: godot_method_bind , is_ssr_rough : 0 as * mut sys :: godot_method_bind , set_adjustment_brightness : 0 as * mut sys :: godot_method_bind , set_adjustment_color_correction : 0 as * mut sys :: godot_method_bind , set_adjustment_contrast : 0 as * mut sys :: godot_method_bind , set_adjustment_enable : 0 as * mut sys :: godot_method_bind , set_adjustment_saturation : 0 as * mut sys :: godot_method_bind , set_ambient_light_color : 0 as * mut sys :: godot_method_bind , set_ambient_light_energy : 0 as * mut sys :: godot_method_bind , set_ambient_light_sky_contribution : 0 as * mut sys :: godot_method_bind , set_background : 0 as * mut sys :: godot_method_bind , set_bg_color : 0 as * mut sys :: godot_method_bind , set_bg_energy : 0 as * mut sys :: godot_method_bind , set_camera_feed_id : 0 as * mut sys :: godot_method_bind , set_canvas_max_layer : 0 as * mut sys :: godot_method_bind , set_dof_blur_far_amount : 0 as * mut sys :: godot_method_bind , set_dof_blur_far_distance : 0 as * mut sys :: godot_method_bind , set_dof_blur_far_enabled : 0 as * mut sys :: godot_method_bind , set_dof_blur_far_quality : 0 as * mut sys :: godot_method_bind , set_dof_blur_far_transition : 0 as * mut sys :: godot_method_bind , set_dof_blur_near_amount : 0 as * mut sys :: godot_method_bind , set_dof_blur_near_distance : 0 as * mut sys :: godot_method_bind , set_dof_blur_near_enabled : 0 as * mut sys :: godot_method_bind , set_dof_blur_near_quality : 0 as * mut sys :: godot_method_bind , set_dof_blur_near_transition : 0 as * mut sys :: godot_method_bind , set_fog_color : 0 as * mut sys :: godot_method_bind , set_fog_depth_begin : 0 as * mut sys :: godot_method_bind , set_fog_depth_curve : 0 as * mut sys :: godot_method_bind , set_fog_depth_enabled : 0 as * mut sys :: godot_method_bind , set_fog_depth_end : 0 as * mut sys :: godot_method_bind , set_fog_enabled : 0 as * mut sys :: godot_method_bind , set_fog_height_curve : 0 as * mut sys :: godot_method_bind , set_fog_height_enabled : 0 as * mut sys :: godot_method_bind , set_fog_height_max : 0 as * mut sys :: godot_method_bind , set_fog_height_min : 0 as * mut sys :: godot_method_bind , set_fog_sun_amount : 0 as * mut sys :: godot_method_bind , set_fog_sun_color : 0 as * mut sys :: godot_method_bind , set_fog_transmit_curve : 0 as * mut sys :: godot_method_bind , set_fog_transmit_enabled : 0 as * mut sys :: godot_method_bind , set_glow_bicubic_upscale : 0 as * mut sys :: godot_method_bind , set_glow_blend_mode : 0 as * mut sys :: godot_method_bind , set_glow_bloom : 0 as * mut sys :: godot_method_bind , set_glow_enabled : 0 as * mut sys :: godot_method_bind , set_glow_hdr_bleed_scale : 0 as * mut sys :: godot_method_bind , set_glow_hdr_bleed_threshold : 0 as * mut sys :: godot_method_bind , set_glow_hdr_luminance_cap : 0 as * mut sys :: godot_method_bind , set_glow_intensity : 0 as * mut sys :: godot_method_bind , set_glow_level : 0 as * mut sys :: godot_method_bind , set_glow_strength : 0 as * mut sys :: godot_method_bind , set_sky : 0 as * mut sys :: godot_method_bind , set_sky_custom_fov : 0 as * mut sys :: godot_method_bind , set_sky_orientation : 0 as * mut sys :: godot_method_bind , set_sky_rotation : 0 as * mut sys :: godot_method_bind , set_sky_rotation_degrees : 0 as * mut sys :: godot_method_bind , set_ssao_ao_channel_affect : 0 as * mut sys :: godot_method_bind , set_ssao_bias : 0 as * mut sys :: godot_method_bind , set_ssao_blur : 0 as * mut sys :: godot_method_bind , set_ssao_color : 0 as * mut sys :: godot_method_bind , set_ssao_direct_light_affect : 0 as * mut sys :: godot_method_bind , set_ssao_edge_sharpness : 0 as * mut sys :: godot_method_bind , set_ssao_enabled : 0 as * mut sys :: godot_method_bind , set_ssao_intensity : 0 as * mut sys :: godot_method_bind , set_ssao_intensity2 : 0 as * mut sys :: godot_method_bind , set_ssao_quality : 0 as * mut sys :: godot_method_bind , set_ssao_radius : 0 as * mut sys :: godot_method_bind , set_ssao_radius2 : 0 as * mut sys :: godot_method_bind , set_ssr_depth_tolerance : 0 as * mut sys :: godot_method_bind , set_ssr_enabled : 0 as * mut sys :: godot_method_bind , set_ssr_fade_in : 0 as * mut sys :: godot_method_bind , set_ssr_fade_out : 0 as * mut sys :: godot_method_bind , set_ssr_max_steps : 0 as * mut sys :: godot_method_bind , set_ssr_rough : 0 as * mut sys :: godot_method_bind , set_tonemap_auto_exposure : 0 as * mut sys :: godot_method_bind , set_tonemap_auto_exposure_grey : 0 as * mut sys :: godot_method_bind , set_tonemap_auto_exposure_max : 0 as * mut sys :: godot_method_bind , set_tonemap_auto_exposure_min : 0 as * mut sys :: godot_method_bind , set_tonemap_auto_exposure_speed : 0 as * mut sys :: godot_method_bind , set_tonemap_exposure : 0 as * mut sys :: godot_method_bind , set_tonemap_white : 0 as * mut sys :: godot_method_bind , set_tonemapper : 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 (|| { EnvironmentMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Environment\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_adjustment_brightness = (gd_api . godot_method_bind_get_method) (class_name , "get_adjustment_brightness\0" . as_ptr () as * const c_char) ; table . get_adjustment_color_correction = (gd_api . godot_method_bind_get_method) (class_name , "get_adjustment_color_correction\0" . as_ptr () as * const c_char) ; table . get_adjustment_contrast = (gd_api . godot_method_bind_get_method) (class_name , "get_adjustment_contrast\0" . as_ptr () as * const c_char) ; table . get_adjustment_saturation = (gd_api . godot_method_bind_get_method) (class_name , "get_adjustment_saturation\0" . as_ptr () as * const c_char) ; table . get_ambient_light_color = (gd_api . godot_method_bind_get_method) (class_name , "get_ambient_light_color\0" . as_ptr () as * const c_char) ; table . get_ambient_light_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_ambient_light_energy\0" . as_ptr () as * const c_char) ; table . get_ambient_light_sky_contribution = (gd_api . godot_method_bind_get_method) (class_name , "get_ambient_light_sky_contribution\0" . as_ptr () as * const c_char) ; table . get_background = (gd_api . godot_method_bind_get_method) (class_name , "get_background\0" . as_ptr () as * const c_char) ; table . get_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "get_bg_color\0" . as_ptr () as * const c_char) ; table . get_bg_energy = (gd_api . godot_method_bind_get_method) (class_name , "get_bg_energy\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_canvas_max_layer = (gd_api . godot_method_bind_get_method) (class_name , "get_canvas_max_layer\0" . as_ptr () as * const c_char) ; table . get_dof_blur_far_amount = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_far_amount\0" . as_ptr () as * const c_char) ; table . get_dof_blur_far_distance = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_far_distance\0" . as_ptr () as * const c_char) ; table . get_dof_blur_far_quality = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_far_quality\0" . as_ptr () as * const c_char) ; table . get_dof_blur_far_transition = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_far_transition\0" . as_ptr () as * const c_char) ; table . get_dof_blur_near_amount = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_near_amount\0" . as_ptr () as * const c_char) ; table . get_dof_blur_near_distance = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_near_distance\0" . as_ptr () as * const c_char) ; table . get_dof_blur_near_quality = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_near_quality\0" . as_ptr () as * const c_char) ; table . get_dof_blur_near_transition = (gd_api . godot_method_bind_get_method) (class_name , "get_dof_blur_near_transition\0" . as_ptr () as * const c_char) ; table . get_fog_color = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_color\0" . as_ptr () as * const c_char) ; table . get_fog_depth_begin = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_depth_begin\0" . as_ptr () as * const c_char) ; table . get_fog_depth_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_depth_curve\0" . as_ptr () as * const c_char) ; table . get_fog_depth_end = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_depth_end\0" . as_ptr () as * const c_char) ; table . get_fog_height_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_height_curve\0" . as_ptr () as * const c_char) ; table . get_fog_height_max = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_height_max\0" . as_ptr () as * const c_char) ; table . get_fog_height_min = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_height_min\0" . as_ptr () as * const c_char) ; table . get_fog_sun_amount = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_sun_amount\0" . as_ptr () as * const c_char) ; table . get_fog_sun_color = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_sun_color\0" . as_ptr () as * const c_char) ; table . get_fog_transmit_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_fog_transmit_curve\0" . as_ptr () as * const c_char) ; table . get_glow_blend_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_glow_blend_mode\0" . as_ptr () as * const c_char) ; table . get_glow_bloom = (gd_api . godot_method_bind_get_method) (class_name , "get_glow_bloom\0" . as_ptr () as * const c_char) ; table . get_glow_hdr_bleed_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_glow_hdr_bleed_scale\0" . as_ptr () as * const c_char) ; table . get_glow_hdr_bleed_threshold = (gd_api . godot_method_bind_get_method) (class_name , "get_glow_hdr_bleed_threshold\0" . as_ptr () as * const c_char) ; table . get_glow_hdr_luminance_cap = (gd_api . godot_method_bind_get_method) (class_name , "get_glow_hdr_luminance_cap\0" . as_ptr () as * const c_char) ; table . get_glow_intensity = (gd_api . godot_method_bind_get_method) (class_name , "get_glow_intensity\0" . as_ptr () as * const c_char) ; table . get_glow_strength = (gd_api . godot_method_bind_get_method) (class_name , "get_glow_strength\0" . as_ptr () as * const c_char) ; table . get_sky = (gd_api . godot_method_bind_get_method) (class_name , "get_sky\0" . as_ptr () as * const c_char) ; table . get_sky_custom_fov = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_custom_fov\0" . as_ptr () as * const c_char) ; table . get_sky_orientation = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_orientation\0" . as_ptr () as * const c_char) ; table . get_sky_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_rotation\0" . as_ptr () as * const c_char) ; table . get_sky_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "get_sky_rotation_degrees\0" . as_ptr () as * const c_char) ; table . get_ssao_ao_channel_affect = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_ao_channel_affect\0" . as_ptr () as * const c_char) ; table . get_ssao_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_bias\0" . as_ptr () as * const c_char) ; table . get_ssao_blur = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_blur\0" . as_ptr () as * const c_char) ; table . get_ssao_color = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_color\0" . as_ptr () as * const c_char) ; table . get_ssao_direct_light_affect = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_direct_light_affect\0" . as_ptr () as * const c_char) ; table . get_ssao_edge_sharpness = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_edge_sharpness\0" . as_ptr () as * const c_char) ; table . get_ssao_intensity = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_intensity\0" . as_ptr () as * const c_char) ; table . get_ssao_intensity2 = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_intensity2\0" . as_ptr () as * const c_char) ; table . get_ssao_quality = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_quality\0" . as_ptr () as * const c_char) ; table . get_ssao_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_radius\0" . as_ptr () as * const c_char) ; table . get_ssao_radius2 = (gd_api . godot_method_bind_get_method) (class_name , "get_ssao_radius2\0" . as_ptr () as * const c_char) ; table . get_ssr_depth_tolerance = (gd_api . godot_method_bind_get_method) (class_name , "get_ssr_depth_tolerance\0" . as_ptr () as * const c_char) ; table . get_ssr_fade_in = (gd_api . godot_method_bind_get_method) (class_name , "get_ssr_fade_in\0" . as_ptr () as * const c_char) ; table . get_ssr_fade_out = (gd_api . godot_method_bind_get_method) (class_name , "get_ssr_fade_out\0" . as_ptr () as * const c_char) ; table . get_ssr_max_steps = (gd_api . godot_method_bind_get_method) (class_name , "get_ssr_max_steps\0" . as_ptr () as * const c_char) ; table . get_tonemap_auto_exposure = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemap_auto_exposure\0" . as_ptr () as * const c_char) ; table . get_tonemap_auto_exposure_grey = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemap_auto_exposure_grey\0" . as_ptr () as * const c_char) ; table . get_tonemap_auto_exposure_max = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemap_auto_exposure_max\0" . as_ptr () as * const c_char) ; table . get_tonemap_auto_exposure_min = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemap_auto_exposure_min\0" . as_ptr () as * const c_char) ; table . get_tonemap_auto_exposure_speed = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemap_auto_exposure_speed\0" . as_ptr () as * const c_char) ; table . get_tonemap_exposure = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemap_exposure\0" . as_ptr () as * const c_char) ; table . get_tonemap_white = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemap_white\0" . as_ptr () as * const c_char) ; table . get_tonemapper = (gd_api . godot_method_bind_get_method) (class_name , "get_tonemapper\0" . as_ptr () as * const c_char) ; table . is_adjustment_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_adjustment_enabled\0" . as_ptr () as * const c_char) ; table . is_dof_blur_far_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_dof_blur_far_enabled\0" . as_ptr () as * const c_char) ; table . is_dof_blur_near_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_dof_blur_near_enabled\0" . as_ptr () as * const c_char) ; table . is_fog_depth_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_fog_depth_enabled\0" . as_ptr () as * const c_char) ; table . is_fog_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_fog_enabled\0" . as_ptr () as * const c_char) ; table . is_fog_height_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_fog_height_enabled\0" . as_ptr () as * const c_char) ; table . is_fog_transmit_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_fog_transmit_enabled\0" . as_ptr () as * const c_char) ; table . is_glow_bicubic_upscale_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_glow_bicubic_upscale_enabled\0" . as_ptr () as * const c_char) ; table . is_glow_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_glow_enabled\0" . as_ptr () as * const c_char) ; table . is_glow_level_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_glow_level_enabled\0" . as_ptr () as * const c_char) ; table . is_ssao_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_ssao_enabled\0" . as_ptr () as * const c_char) ; table . is_ssr_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_ssr_enabled\0" . as_ptr () as * const c_char) ; table . is_ssr_rough = (gd_api . godot_method_bind_get_method) (class_name , "is_ssr_rough\0" . as_ptr () as * const c_char) ; table . set_adjustment_brightness = (gd_api . godot_method_bind_get_method) (class_name , "set_adjustment_brightness\0" . as_ptr () as * const c_char) ; table . set_adjustment_color_correction = (gd_api . godot_method_bind_get_method) (class_name , "set_adjustment_color_correction\0" . as_ptr () as * const c_char) ; table . set_adjustment_contrast = (gd_api . godot_method_bind_get_method) (class_name , "set_adjustment_contrast\0" . as_ptr () as * const c_char) ; table . set_adjustment_enable = (gd_api . godot_method_bind_get_method) (class_name , "set_adjustment_enable\0" . as_ptr () as * const c_char) ; table . set_adjustment_saturation = (gd_api . godot_method_bind_get_method) (class_name , "set_adjustment_saturation\0" . as_ptr () as * const c_char) ; table . set_ambient_light_color = (gd_api . godot_method_bind_get_method) (class_name , "set_ambient_light_color\0" . as_ptr () as * const c_char) ; table . set_ambient_light_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_ambient_light_energy\0" . as_ptr () as * const c_char) ; table . set_ambient_light_sky_contribution = (gd_api . godot_method_bind_get_method) (class_name , "set_ambient_light_sky_contribution\0" . as_ptr () as * const c_char) ; table . set_background = (gd_api . godot_method_bind_get_method) (class_name , "set_background\0" . as_ptr () as * const c_char) ; table . set_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "set_bg_color\0" . as_ptr () as * const c_char) ; table . set_bg_energy = (gd_api . godot_method_bind_get_method) (class_name , "set_bg_energy\0" . as_ptr () as * const c_char) ; table . set_camera_feed_id = (gd_api . godot_method_bind_get_method) (class_name , "set_camera_feed_id\0" . as_ptr () as * const c_char) ; table . set_canvas_max_layer = (gd_api . godot_method_bind_get_method) (class_name , "set_canvas_max_layer\0" . as_ptr () as * const c_char) ; table . set_dof_blur_far_amount = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_far_amount\0" . as_ptr () as * const c_char) ; table . set_dof_blur_far_distance = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_far_distance\0" . as_ptr () as * const c_char) ; table . set_dof_blur_far_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_far_enabled\0" . as_ptr () as * const c_char) ; table . set_dof_blur_far_quality = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_far_quality\0" . as_ptr () as * const c_char) ; table . set_dof_blur_far_transition = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_far_transition\0" . as_ptr () as * const c_char) ; table . set_dof_blur_near_amount = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_near_amount\0" . as_ptr () as * const c_char) ; table . set_dof_blur_near_distance = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_near_distance\0" . as_ptr () as * const c_char) ; table . set_dof_blur_near_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_near_enabled\0" . as_ptr () as * const c_char) ; table . set_dof_blur_near_quality = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_near_quality\0" . as_ptr () as * const c_char) ; table . set_dof_blur_near_transition = (gd_api . godot_method_bind_get_method) (class_name , "set_dof_blur_near_transition\0" . as_ptr () as * const c_char) ; table . set_fog_color = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_color\0" . as_ptr () as * const c_char) ; table . set_fog_depth_begin = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_depth_begin\0" . as_ptr () as * const c_char) ; table . set_fog_depth_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_depth_curve\0" . as_ptr () as * const c_char) ; table . set_fog_depth_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_depth_enabled\0" . as_ptr () as * const c_char) ; table . set_fog_depth_end = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_depth_end\0" . as_ptr () as * const c_char) ; table . set_fog_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_enabled\0" . as_ptr () as * const c_char) ; table . set_fog_height_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_height_curve\0" . as_ptr () as * const c_char) ; table . set_fog_height_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_height_enabled\0" . as_ptr () as * const c_char) ; table . set_fog_height_max = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_height_max\0" . as_ptr () as * const c_char) ; table . set_fog_height_min = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_height_min\0" . as_ptr () as * const c_char) ; table . set_fog_sun_amount = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_sun_amount\0" . as_ptr () as * const c_char) ; table . set_fog_sun_color = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_sun_color\0" . as_ptr () as * const c_char) ; table . set_fog_transmit_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_transmit_curve\0" . as_ptr () as * const c_char) ; table . set_fog_transmit_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_fog_transmit_enabled\0" . as_ptr () as * const c_char) ; table . set_glow_bicubic_upscale = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_bicubic_upscale\0" . as_ptr () as * const c_char) ; table . set_glow_blend_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_blend_mode\0" . as_ptr () as * const c_char) ; table . set_glow_bloom = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_bloom\0" . as_ptr () as * const c_char) ; table . set_glow_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_enabled\0" . as_ptr () as * const c_char) ; table . set_glow_hdr_bleed_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_hdr_bleed_scale\0" . as_ptr () as * const c_char) ; table . set_glow_hdr_bleed_threshold = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_hdr_bleed_threshold\0" . as_ptr () as * const c_char) ; table . set_glow_hdr_luminance_cap = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_hdr_luminance_cap\0" . as_ptr () as * const c_char) ; table . set_glow_intensity = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_intensity\0" . as_ptr () as * const c_char) ; table . set_glow_level = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_level\0" . as_ptr () as * const c_char) ; table . set_glow_strength = (gd_api . godot_method_bind_get_method) (class_name , "set_glow_strength\0" . as_ptr () as * const c_char) ; table . set_sky = (gd_api . godot_method_bind_get_method) (class_name , "set_sky\0" . as_ptr () as * const c_char) ; table . set_sky_custom_fov = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_custom_fov\0" . as_ptr () as * const c_char) ; table . set_sky_orientation = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_orientation\0" . as_ptr () as * const c_char) ; table . set_sky_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_rotation\0" . as_ptr () as * const c_char) ; table . set_sky_rotation_degrees = (gd_api . godot_method_bind_get_method) (class_name , "set_sky_rotation_degrees\0" . as_ptr () as * const c_char) ; table . set_ssao_ao_channel_affect = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_ao_channel_affect\0" . as_ptr () as * const c_char) ; table . set_ssao_bias = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_bias\0" . as_ptr () as * const c_char) ; table . set_ssao_blur = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_blur\0" . as_ptr () as * const c_char) ; table . set_ssao_color = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_color\0" . as_ptr () as * const c_char) ; table . set_ssao_direct_light_affect = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_direct_light_affect\0" . as_ptr () as * const c_char) ; table . set_ssao_edge_sharpness = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_edge_sharpness\0" . as_ptr () as * const c_char) ; table . set_ssao_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_enabled\0" . as_ptr () as * const c_char) ; table . set_ssao_intensity = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_intensity\0" . as_ptr () as * const c_char) ; table . set_ssao_intensity2 = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_intensity2\0" . as_ptr () as * const c_char) ; table . set_ssao_quality = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_quality\0" . as_ptr () as * const c_char) ; table . set_ssao_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_radius\0" . as_ptr () as * const c_char) ; table . set_ssao_radius2 = (gd_api . godot_method_bind_get_method) (class_name , "set_ssao_radius2\0" . as_ptr () as * const c_char) ; table . set_ssr_depth_tolerance = (gd_api . godot_method_bind_get_method) (class_name , "set_ssr_depth_tolerance\0" . as_ptr () as * const c_char) ; table . set_ssr_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_ssr_enabled\0" . as_ptr () as * const c_char) ; table . set_ssr_fade_in = (gd_api . godot_method_bind_get_method) (class_name , "set_ssr_fade_in\0" . as_ptr () as * const c_char) ; table . set_ssr_fade_out = (gd_api . godot_method_bind_get_method) (class_name , "set_ssr_fade_out\0" . as_ptr () as * const c_char) ; table . set_ssr_max_steps = (gd_api . godot_method_bind_get_method) (class_name , "set_ssr_max_steps\0" . as_ptr () as * const c_char) ; table . set_ssr_rough = (gd_api . godot_method_bind_get_method) (class_name , "set_ssr_rough\0" . as_ptr () as * const c_char) ; table . set_tonemap_auto_exposure = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemap_auto_exposure\0" . as_ptr () as * const c_char) ; table . set_tonemap_auto_exposure_grey = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemap_auto_exposure_grey\0" . as_ptr () as * const c_char) ; table . set_tonemap_auto_exposure_max = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemap_auto_exposure_max\0" . as_ptr () as * const c_char) ; table . set_tonemap_auto_exposure_min = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemap_auto_exposure_min\0" . as_ptr () as * const c_char) ; table . set_tonemap_auto_exposure_speed = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemap_auto_exposure_speed\0" . as_ptr () as * const c_char) ; table . set_tonemap_exposure = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemap_exposure\0" . as_ptr () as * const c_char) ; table . set_tonemap_white = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemap_white\0" . as_ptr () as * const c_char) ; table . set_tonemapper = (gd_api . godot_method_bind_get_method) (class_name , "set_tonemapper\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-60c8dbcfaf0f3dfc/out/generated.rs:922:13081 [INFO] [stdout] | [INFO] [stdout] 922 | ... : 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] 922 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:928:45605 [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 class Animation` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animation.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\nAnimation 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 Animation { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct InterpolationType (pub i64) ; impl InterpolationType { pub const NEAREST : InterpolationType = InterpolationType (0i64) ; pub const LINEAR : InterpolationType = InterpolationType (1i64) ; pub const CUBIC : InterpolationType = InterpolationType (2i64) ; } impl From < i64 > for InterpolationType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < InterpolationType > for i64 { # [inline] fn from (v : InterpolationType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TrackType (pub i64) ; impl TrackType { pub const VALUE : TrackType = TrackType (0i64) ; pub const TRANSFORM : TrackType = TrackType (1i64) ; pub const METHOD : TrackType = TrackType (2i64) ; pub const BEZIER : TrackType = TrackType (3i64) ; pub const AUDIO : TrackType = TrackType (4i64) ; pub const ANIMATION : TrackType = TrackType (5i64) ; } impl From < i64 > for TrackType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TrackType > for i64 { # [inline] fn from (v : TrackType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct UpdateMode (pub i64) ; impl UpdateMode { pub const CONTINUOUS : UpdateMode = UpdateMode (0i64) ; pub const DISCRETE : UpdateMode = UpdateMode (1i64) ; pub const TRIGGER : UpdateMode = UpdateMode (2i64) ; pub const CAPTURE : UpdateMode = UpdateMode (3i64) ; } 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 Animation { pub const INTERPOLATION_CUBIC : i64 = 2i64 ; pub const INTERPOLATION_LINEAR : i64 = 1i64 ; pub const INTERPOLATION_NEAREST : i64 = 0i64 ; pub const TYPE_ANIMATION : i64 = 5i64 ; pub const TYPE_AUDIO : i64 = 4i64 ; pub const TYPE_BEZIER : i64 = 3i64 ; pub const TYPE_METHOD : i64 = 2i64 ; pub const TYPE_TRANSFORM : i64 = 1i64 ; pub const TYPE_VALUE : i64 = 0i64 ; pub const UPDATE_CAPTURE : i64 = 3i64 ; pub const UPDATE_CONTINUOUS : i64 = 0i64 ; pub const UPDATE_DISCRETE : i64 = 1i64 ; pub const UPDATE_TRIGGER : i64 = 2i64 ; } impl Animation { # [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 = AnimationMethodTable :: 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 track to the Animation.\n# Default Arguments\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_track (& self , _type : i64 , at_position : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . add_track ; let ret = crate :: icalls :: icallptr_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , _type , at_position) ; ret as _ } } # [doc = "Returns the animation name at the key identified by `key_idx`. The `track_idx` must be the index of an Animation Track."] # [doc = ""] # [inline] pub fn animation_track_get_key_animation (& self , track_idx : i64 , key_idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . animation_track_get_key_animation ; let ret = crate :: icalls :: icallptr_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; GodotString :: from_sys (ret) } } # [doc = "Inserts a key with value `animation` at the given `time` (in seconds). The `track_idx` must be the index of an Animation Track."] # [doc = ""] # [inline] pub fn animation_track_insert_key (& self , track_idx : i64 , time : f64 , animation : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . animation_track_insert_key ; let ret = crate :: icalls :: icallptr_i64_i64_f64_str (method_bind , self . this . sys () . as_ptr () , track_idx , time , animation . into ()) ; ret as _ } } # [doc = "Sets the key identified by `key_idx` to value `animation`. The `track_idx` must be the index of an Animation Track."] # [doc = ""] # [inline] pub fn animation_track_set_key_animation (& self , track_idx : i64 , key_idx : i64 , animation : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . animation_track_set_key_animation ; let ret = crate :: icalls :: icallptr_void_i64_i64_str (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , animation . into ()) ; } } # [doc = "Returns the end offset of the key identified by `key_idx`. The `track_idx` must be the index of an Audio Track.\nEnd offset is the number of seconds cut off at the ending of the audio stream."] # [doc = ""] # [inline] pub fn audio_track_get_key_end_offset (& self , track_idx : i64 , key_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . audio_track_get_key_end_offset ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; ret as _ } } # [doc = "Returns the start offset of the key identified by `key_idx`. The `track_idx` must be the index of an Audio Track.\nStart offset is the number of seconds cut off at the beginning of the audio stream."] # [doc = ""] # [inline] pub fn audio_track_get_key_start_offset (& self , track_idx : i64 , key_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . audio_track_get_key_start_offset ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; ret as _ } } # [doc = "Returns the audio stream of the key identified by `key_idx`. The `track_idx` must be the index of an Audio Track."] # [doc = ""] # [inline] pub fn audio_track_get_key_stream (& self , track_idx : i64 , key_idx : i64) -> Option < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . audio_track_get_key_stream ; let ret = crate :: icalls :: icallptr_obj_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Inserts an Audio Track key at the given `time` in seconds. The `track_idx` must be the index of an Audio Track.\n`stream` is the [AudioStream] resource to play. `start_offset` is the number of seconds cut off at the beginning of the audio stream, while `end_offset` is at the ending.\n# Default Arguments\n* `start_offset` - `0`\n* `end_offset` - `0`"] # [doc = ""] # [inline] pub fn audio_track_insert_key (& self , track_idx : i64 , time : f64 , stream : impl AsArg < crate :: generated :: resource :: Resource > , start_offset : f64 , end_offset : f64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . audio_track_insert_key ; let ret = crate :: icalls :: icallptr_i64_i64_f64_obj_f64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , time , stream . as_arg_ptr () , start_offset , end_offset) ; ret as _ } } # [doc = "Sets the end offset of the key identified by `key_idx` to value `offset`. The `track_idx` must be the index of an Audio Track."] # [doc = ""] # [inline] pub fn audio_track_set_key_end_offset (& self , track_idx : i64 , key_idx : i64 , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . audio_track_set_key_end_offset ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , offset) ; } } # [doc = "Sets the start offset of the key identified by `key_idx` to value `offset`. The `track_idx` must be the index of an Audio Track."] # [doc = ""] # [inline] pub fn audio_track_set_key_start_offset (& self , track_idx : i64 , key_idx : i64 , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . audio_track_set_key_start_offset ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , offset) ; } } # [doc = "Sets the stream of the key identified by `key_idx` to value `offset`. The `track_idx` must be the index of an Audio Track."] # [doc = ""] # [inline] pub fn audio_track_set_key_stream (& self , track_idx : i64 , key_idx : i64 , stream : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . audio_track_set_key_stream ; let ret = crate :: icalls :: icallptr_void_i64_i64_obj (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , stream . as_arg_ptr ()) ; } } # [doc = "Returns the in handle of the key identified by `key_idx`. The `track_idx` must be the index of a Bezier Track."] # [doc = ""] # [inline] pub fn bezier_track_get_key_in_handle (& self , track_idx : i64 , key_idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_get_key_in_handle ; let ret = crate :: icalls :: icallptr_vec2_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; mem :: transmute (ret) } } # [doc = "Returns the out handle of the key identified by `key_idx`. The `track_idx` must be the index of a Bezier Track."] # [doc = ""] # [inline] pub fn bezier_track_get_key_out_handle (& self , track_idx : i64 , key_idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_get_key_out_handle ; let ret = crate :: icalls :: icallptr_vec2_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; mem :: transmute (ret) } } # [doc = "Returns the value of the key identified by `key_idx`. The `track_idx` must be the index of a Bezier Track."] # [doc = ""] # [inline] pub fn bezier_track_get_key_value (& self , track_idx : i64 , key_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_get_key_value ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; ret as _ } } # [doc = "Inserts a Bezier Track key at the given `time` in seconds. The `track_idx` must be the index of a Bezier Track.\n`in_handle` is the left-side weight of the added Bezier curve point, `out_handle` is the right-side one, while `value` is the actual value at this point.\n# Default Arguments\n* `in_handle` - `Vector2( 0, 0 )`\n* `out_handle` - `Vector2( 0, 0 )`"] # [doc = ""] # [inline] pub fn bezier_track_insert_key (& self , track_idx : i64 , time : f64 , value : f64 , in_handle : Vector2 , out_handle : Vector2) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_insert_key ; let ret = crate :: icalls :: icallptr_i64_i64_f64_f64_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , track_idx , time , value , in_handle , out_handle) ; ret as _ } } # [doc = "Returns the interpolated value at the given `time` (in seconds). The `track_idx` must be the index of a Bezier Track."] # [doc = ""] # [inline] pub fn bezier_track_interpolate (& self , track_idx : i64 , time : f64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_interpolate ; let ret = crate :: icalls :: icallptr_f64_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , time) ; ret as _ } } # [doc = "Sets the in handle of the key identified by `key_idx` to value `in_handle`. The `track_idx` must be the index of a Bezier Track."] # [doc = ""] # [inline] pub fn bezier_track_set_key_in_handle (& self , track_idx : i64 , key_idx : i64 , in_handle : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_set_key_in_handle ; let ret = crate :: icalls :: icallptr_void_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , in_handle) ; } } # [doc = "Sets the out handle of the key identified by `key_idx` to value `out_handle`. The `track_idx` must be the index of a Bezier Track."] # [doc = ""] # [inline] pub fn bezier_track_set_key_out_handle (& self , track_idx : i64 , key_idx : i64 , out_handle : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_set_key_out_handle ; let ret = crate :: icalls :: icallptr_void_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , out_handle) ; } } # [doc = "Sets the value of the key identified by `key_idx` to the given value. The `track_idx` must be the index of a Bezier Track."] # [doc = ""] # [inline] pub fn bezier_track_set_key_value (& self , track_idx : i64 , key_idx : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . bezier_track_set_key_value ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , value) ; } } # [doc = "Clear the animation (clear all tracks and reset all)."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Adds a new track that is a copy of the given track from `to_animation`."] # [doc = ""] # [inline] pub fn copy_track (& self , track_idx : i64 , to_animation : impl AsArg < crate :: generated :: animation :: Animation >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . copy_track ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , track_idx , to_animation . as_arg_ptr ()) ; } } # [doc = "Returns the index of the specified track. If the track is not found, return -1."] # [doc = ""] # [inline] pub fn find_track (& self , path : impl Into < NodePath >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . find_track ; let ret = crate :: icalls :: icallptr_i64_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ret as _ } } # [doc = "The total length of the animation (in seconds).\n**Note:** Length is not delimited by the last key, as this one may be before or after the end to ensure correct interpolation and looping."] # [doc = ""] # [inline] pub fn length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . get_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The animation step value."] # [doc = ""] # [inline] pub fn step (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . get_step ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the amount of tracks in the animation."] # [doc = ""] # [inline] pub fn get_track_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . get_track_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "A flag indicating that the animation must loop. This is uses for correct interpolation of animation cycles, and for hinting the player that it must restart the animation."] # [doc = ""] # [inline] pub fn has_loop (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . has_loop ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns all the key indices of a method track, given a position and delta time."] # [doc = ""] # [inline] pub fn method_track_get_key_indices (& self , track_idx : i64 , time_sec : f64 , delta : f64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . method_track_get_key_indices ; let ret = crate :: icalls :: icallptr_i32arr_i64_f64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , time_sec , delta) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the method name of a method track."] # [doc = ""] # [inline] pub fn method_track_get_name (& self , track_idx : i64 , key_idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . method_track_get_name ; let ret = crate :: icalls :: icallptr_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the arguments values to be called on a method track for a given key in a given track."] # [doc = ""] # [inline] pub fn method_track_get_params (& self , track_idx : i64 , key_idx : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . method_track_get_params ; let ret = crate :: icalls :: icallvar__i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Removes a track by specifying the track index."] # [doc = ""] # [inline] pub fn remove_track (& self , track_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . remove_track ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; } } # [doc = "The total length of the animation (in seconds).\n**Note:** Length is not delimited by the last key, as this one may be before or after the end to ensure correct interpolation and looping."] # [doc = ""] # [inline] pub fn set_length (& self , time_sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . set_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time_sec) ; } } # [doc = "A flag indicating that the animation must loop. This is uses for correct interpolation of animation cycles, and for hinting the player that it must restart the animation."] # [doc = ""] # [inline] pub fn set_loop (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . set_loop ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The animation step value."] # [doc = ""] # [inline] pub fn set_step (& self , size_sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . set_step ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , size_sec) ; } } # [doc = "Finds the key index by time in a given track. Optionally, only find it if the exact time is given.\n# Default Arguments\n* `exact` - `false`"] # [doc = ""] # [inline] pub fn track_find_key (& self , track_idx : i64 , time : f64 , exact : bool) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_find_key ; let ret = crate :: icalls :: icallptr_i64_i64_f64_bool (method_bind , self . this . sys () . as_ptr () , track_idx , time , exact) ; ret as _ } } # [doc = "Returns `true` if the track at `idx` wraps the interpolation loop. New tracks wrap the interpolation loop by default."] # [doc = ""] # [inline] pub fn track_get_interpolation_loop_wrap (& self , track_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_interpolation_loop_wrap ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; ret as _ } } # [doc = "Returns the interpolation type of a given track."] # [doc = ""] # [inline] pub fn track_get_interpolation_type (& self , track_idx : i64) -> crate :: generated :: animation :: InterpolationType { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_interpolation_type ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; crate :: generated :: animation :: InterpolationType (ret) } } # [doc = "Returns the amount of keys in a given track."] # [doc = ""] # [inline] pub fn track_get_key_count (& self , track_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_key_count ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; ret as _ } } # [doc = "Returns the time at which the key is located."] # [doc = ""] # [inline] pub fn track_get_key_time (& self , track_idx : i64 , key_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_key_time ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; ret as _ } } # [doc = "Returns the transition curve (easing) for a specific key (see the built-in math function [method @GDScript.ease])."] # [doc = ""] # [inline] pub fn track_get_key_transition (& self , track_idx : i64 , key_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_key_transition ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; ret as _ } } # [doc = "Returns the value of a given key in a given track."] # [doc = ""] # [inline] pub fn track_get_key_value (& self , track_idx : i64 , key_idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_key_value ; let ret = crate :: icalls :: icallptr_var_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; Variant :: from_sys (ret) } } # [doc = "Gets the path of a track. For more information on the path format, see [method track_set_path]."] # [doc = ""] # [inline] pub fn track_get_path (& self , track_idx : i64) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_path ; let ret = crate :: icalls :: icallptr_nodepath_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; NodePath :: from_sys (ret) } } # [doc = "Gets the type of a track."] # [doc = ""] # [inline] pub fn track_get_type (& self , track_idx : i64) -> crate :: generated :: animation :: TrackType { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_get_type ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; crate :: generated :: animation :: TrackType (ret) } } # [doc = "Insert a generic key in a given track.\n# Default Arguments\n* `transition` - `1`"] # [doc = ""] # [inline] pub fn track_insert_key (& self , track_idx : i64 , time : f64 , key : impl OwnedToVariant , transition : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_insert_key ; let ret = crate :: icalls :: icallptr_void_i64_f64_var_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , time , key . owned_to_variant () , transition) ; } } # [doc = "Returns `true` if the track at index `idx` is enabled."] # [doc = ""] # [inline] pub fn track_is_enabled (& self , track_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_is_enabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; ret as _ } } # [doc = "Returns `true` if the given track is imported. Else, return `false`."] # [doc = ""] # [inline] pub fn track_is_imported (& self , track_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_is_imported ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; ret as _ } } # [doc = "Moves a track down."] # [doc = ""] # [inline] pub fn track_move_down (& self , track_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_move_down ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; } } # [doc = "Changes the index position of track `idx` to the one defined in `to_idx`."] # [doc = ""] # [inline] pub fn track_move_to (& self , track_idx : i64 , to_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_move_to ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , to_idx) ; } } # [doc = "Moves a track up."] # [doc = ""] # [inline] pub fn track_move_up (& self , track_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_move_up ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; } } # [doc = "Removes a key by index in a given track."] # [doc = ""] # [inline] pub fn track_remove_key (& self , track_idx : i64 , key_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_remove_key ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx) ; } } # [doc = "Removes a key by position (seconds) in a given track."] # [doc = ""] # [inline] pub fn track_remove_key_at_position (& self , track_idx : i64 , position : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_remove_key_at_position ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , position) ; } } # [doc = "Enables/disables the given track. Tracks are enabled by default."] # [doc = ""] # [inline] pub fn track_set_enabled (& self , track_idx : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_enabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , track_idx , enabled) ; } } # [doc = "Sets the given track as imported or not."] # [doc = ""] # [inline] pub fn track_set_imported (& self , track_idx : i64 , imported : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_imported ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , track_idx , imported) ; } } # [doc = "If `true`, the track at `idx` wraps the interpolation loop."] # [doc = ""] # [inline] pub fn track_set_interpolation_loop_wrap (& self , track_idx : i64 , interpolation : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_interpolation_loop_wrap ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , track_idx , interpolation) ; } } # [doc = "Sets the interpolation type of a given track."] # [doc = ""] # [inline] pub fn track_set_interpolation_type (& self , track_idx : i64 , interpolation : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_interpolation_type ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , interpolation) ; } } # [doc = "Sets the time of an existing key."] # [doc = ""] # [inline] pub fn track_set_key_time (& self , track_idx : i64 , key_idx : i64 , time : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_key_time ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , time) ; } } # [doc = "Sets the transition curve (easing) for a specific key (see the built-in math function [method @GDScript.ease])."] # [doc = ""] # [inline] pub fn track_set_key_transition (& self , track_idx : i64 , key_idx : i64 , transition : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_key_transition ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , key_idx , transition) ; } } # [doc = "Sets the value of an existing key."] # [doc = ""] # [inline] pub fn track_set_key_value (& self , track_idx : i64 , key : i64 , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_key_value ; let ret = crate :: icalls :: icallptr_void_i64_i64_var (method_bind , self . this . sys () . as_ptr () , track_idx , key , value . owned_to_variant ()) ; } } # [doc = "Sets the path of a track. Paths must be valid scene-tree paths to a node, and must be specified starting from the parent node of the node that will reproduce the animation. Tracks that control properties or bones must append their name after the path, separated by `\":\"`.\nFor example, `\"character/skeleton:ankle\"` or `\"character/mesh:transform/local\"`."] # [doc = ""] # [inline] pub fn track_set_path (& self , track_idx : i64 , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_set_path ; let ret = crate :: icalls :: icallptr_void_i64_nodepath (method_bind , self . this . sys () . as_ptr () , track_idx , path . into ()) ; } } # [doc = "Swaps the track `idx`'s index position with the track `with_idx`."] # [doc = ""] # [inline] pub fn track_swap (& self , track_idx : i64 , with_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . track_swap ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , with_idx) ; } } # [doc = "Insert a transform key for a transform track."] # [doc = ""] # [inline] pub fn transform_track_insert_key (& self , track_idx : i64 , time : f64 , location : Vector3 , rotation : Quat , scale : Vector3) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . transform_track_insert_key ; let ret = crate :: icalls :: icallptr_i64_i64_f64_vec3_quat_vec3 (method_bind , self . this . sys () . as_ptr () , track_idx , time , location , rotation , scale) ; ret as _ } } # [doc = "Returns the interpolated value of a transform track at a given time (in seconds). An array consisting of 3 elements: position ([Vector3]), rotation ([Quat]) and scale ([Vector3])."] # [doc = ""] # [inline] pub fn transform_track_interpolate (& self , track_idx : i64 , time_sec : f64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . transform_track_interpolate ; let ret = crate :: icalls :: icallvar__i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , time_sec) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns all the key indices of a value track, given a position and delta time."] # [doc = ""] # [inline] pub fn value_track_get_key_indices (& self , track_idx : i64 , time_sec : f64 , delta : f64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . value_track_get_key_indices ; let ret = crate :: icalls :: icallptr_i32arr_i64_f64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , time_sec , delta) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the update mode of a value track."] # [doc = ""] # [inline] pub fn value_track_get_update_mode (& self , track_idx : i64) -> crate :: generated :: animation :: UpdateMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . value_track_get_update_mode ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx) ; crate :: generated :: animation :: UpdateMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn value_track_interpolate (& self , track_idx : i64 , time_sec : f64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . value_track_interpolate ; let ret = crate :: icalls :: icallptr_var_i64_f64 (method_bind , self . this . sys () . as_ptr () , track_idx , time_sec) ; Variant :: from_sys (ret) } } # [doc = "Sets the update mode (see [enum UpdateMode]) of a value track."] # [doc = ""] # [inline] pub fn value_track_set_update_mode (& self , track_idx : i64 , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationMethodTable :: get (get_api ()) . value_track_set_update_mode ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , track_idx , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Animation { } unsafe impl GodotObject for Animation { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Animation" } } impl std :: ops :: Deref for Animation { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Animation { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Animation { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Animation { } unsafe impl SubClass < crate :: generated :: object :: Object > for Animation { } impl Instanciable for Animation { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Animation :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_track : * mut sys :: godot_method_bind , pub animation_track_get_key_animation : * mut sys :: godot_method_bind , pub animation_track_insert_key : * mut sys :: godot_method_bind , pub animation_track_set_key_animation : * mut sys :: godot_method_bind , pub audio_track_get_key_end_offset : * mut sys :: godot_method_bind , pub audio_track_get_key_start_offset : * mut sys :: godot_method_bind , pub audio_track_get_key_stream : * mut sys :: godot_method_bind , pub audio_track_insert_key : * mut sys :: godot_method_bind , pub audio_track_set_key_end_offset : * mut sys :: godot_method_bind , pub audio_track_set_key_start_offset : * mut sys :: godot_method_bind , pub audio_track_set_key_stream : * mut sys :: godot_method_bind , pub bezier_track_get_key_in_handle : * mut sys :: godot_method_bind , pub bezier_track_get_key_out_handle : * mut sys :: godot_method_bind , pub bezier_track_get_key_value : * mut sys :: godot_method_bind , pub bezier_track_insert_key : * mut sys :: godot_method_bind , pub bezier_track_interpolate : * mut sys :: godot_method_bind , pub bezier_track_set_key_in_handle : * mut sys :: godot_method_bind , pub bezier_track_set_key_out_handle : * mut sys :: godot_method_bind , pub bezier_track_set_key_value : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub copy_track : * mut sys :: godot_method_bind , pub find_track : * mut sys :: godot_method_bind , pub get_length : * mut sys :: godot_method_bind , pub get_step : * mut sys :: godot_method_bind , pub get_track_count : * mut sys :: godot_method_bind , pub has_loop : * mut sys :: godot_method_bind , pub method_track_get_key_indices : * mut sys :: godot_method_bind , pub method_track_get_name : * mut sys :: godot_method_bind , pub method_track_get_params : * mut sys :: godot_method_bind , pub remove_track : * mut sys :: godot_method_bind , pub set_length : * mut sys :: godot_method_bind , pub set_loop : * mut sys :: godot_method_bind , pub set_step : * mut sys :: godot_method_bind , pub track_find_key : * mut sys :: godot_method_bind , pub track_get_interpolation_loop_wrap : * mut sys :: godot_method_bind , pub track_get_interpolation_type : * mut sys :: godot_method_bind , pub track_get_key_count : * mut sys :: godot_method_bind , pub track_get_key_time : * mut sys :: godot_method_bind , pub track_get_key_transition : * mut sys :: godot_method_bind , pub track_get_key_value : * mut sys :: godot_method_bind , pub track_get_path : * mut sys :: godot_method_bind , pub track_get_type : * mut sys :: godot_method_bind , pub track_insert_key : * mut sys :: godot_method_bind , pub track_is_enabled : * mut sys :: godot_method_bind , pub track_is_imported : * mut sys :: godot_method_bind , pub track_move_down : * mut sys :: godot_method_bind , pub track_move_to : * mut sys :: godot_method_bind , pub track_move_up : * mut sys :: godot_method_bind , pub track_remove_key : * mut sys :: godot_method_bind , pub track_remove_key_at_position : * mut sys :: godot_method_bind , pub track_set_enabled : * mut sys :: godot_method_bind , pub track_set_imported : * mut sys :: godot_method_bind , pub track_set_interpolation_loop_wrap : * mut sys :: godot_method_bind , pub track_set_interpolation_type : * mut sys :: godot_method_bind , pub track_set_key_time : * mut sys :: godot_method_bind , pub track_set_key_transition : * mut sys :: godot_method_bind , pub track_set_key_value : * mut sys :: godot_method_bind , pub track_set_path : * mut sys :: godot_method_bind , pub track_swap : * mut sys :: godot_method_bind , pub transform_track_insert_key : * mut sys :: godot_method_bind , pub transform_track_interpolate : * mut sys :: godot_method_bind , pub value_track_get_key_indices : * mut sys :: godot_method_bind , pub value_track_get_update_mode : * mut sys :: godot_method_bind , pub value_track_interpolate : * mut sys :: godot_method_bind , pub value_track_set_update_mode : * mut sys :: godot_method_bind } impl AnimationMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationMethodTable = AnimationMethodTable { class_constructor : None , add_track : 0 as * mut sys :: godot_method_bind , animation_track_get_key_animation : 0 as * mut sys :: godot_method_bind , animation_track_insert_key : 0 as * mut sys :: godot_method_bind , animation_track_set_key_animation : 0 as * mut sys :: godot_method_bind , audio_track_get_key_end_offset : 0 as * mut sys :: godot_method_bind , audio_track_get_key_start_offset : 0 as * mut sys :: godot_method_bind , audio_track_get_key_stream : 0 as * mut sys :: godot_method_bind , audio_track_insert_key : 0 as * mut sys :: godot_method_bind , audio_track_set_key_end_offset : 0 as * mut sys :: godot_method_bind , audio_track_set_key_start_offset : 0 as * mut sys :: godot_method_bind , audio_track_set_key_stream : 0 as * mut sys :: godot_method_bind , bezier_track_get_key_in_handle : 0 as * mut sys :: godot_method_bind , bezier_track_get_key_out_handle : 0 as * mut sys :: godot_method_bind , bezier_track_get_key_value : 0 as * mut sys :: godot_method_bind , bezier_track_insert_key : 0 as * mut sys :: godot_method_bind , bezier_track_interpolate : 0 as * mut sys :: godot_method_bind , bezier_track_set_key_in_handle : 0 as * mut sys :: godot_method_bind , bezier_track_set_key_out_handle : 0 as * mut sys :: godot_method_bind , bezier_track_set_key_value : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , copy_track : 0 as * mut sys :: godot_method_bind , find_track : 0 as * mut sys :: godot_method_bind , get_length : 0 as * mut sys :: godot_method_bind , get_step : 0 as * mut sys :: godot_method_bind , get_track_count : 0 as * mut sys :: godot_method_bind , has_loop : 0 as * mut sys :: godot_method_bind , method_track_get_key_indices : 0 as * mut sys :: godot_method_bind , method_track_get_name : 0 as * mut sys :: godot_method_bind , method_track_get_params : 0 as * mut sys :: godot_method_bind , remove_track : 0 as * mut sys :: godot_method_bind , set_length : 0 as * mut sys :: godot_method_bind , set_loop : 0 as * mut sys :: godot_method_bind , set_step : 0 as * mut sys :: godot_method_bind , track_find_key : 0 as * mut sys :: godot_method_bind , track_get_interpolation_loop_wrap : 0 as * mut sys :: godot_method_bind , track_get_interpolation_type : 0 as * mut sys :: godot_method_bind , track_get_key_count : 0 as * mut sys :: godot_method_bind , track_get_key_time : 0 as * mut sys :: godot_method_bind , track_get_key_transition : 0 as * mut sys :: godot_method_bind , track_get_key_value : 0 as * mut sys :: godot_method_bind , track_get_path : 0 as * mut sys :: godot_method_bind , track_get_type : 0 as * mut sys :: godot_method_bind , track_insert_key : 0 as * mut sys :: godot_method_bind , track_is_enabled : 0 as * mut sys :: godot_method_bind , track_is_imported : 0 as * mut sys :: godot_method_bind , track_move_down : 0 as * mut sys :: godot_method_bind , track_move_to : 0 as * mut sys :: godot_method_bind , track_move_up : 0 as * mut sys :: godot_method_bind , track_remove_key : 0 as * mut sys :: godot_method_bind , track_remove_key_at_position : 0 as * mut sys :: godot_method_bind , track_set_enabled : 0 as * mut sys :: godot_method_bind , track_set_imported : 0 as * mut sys :: godot_method_bind , track_set_interpolation_loop_wrap : 0 as * mut sys :: godot_method_bind , track_set_interpolation_type : 0 as * mut sys :: godot_method_bind , track_set_key_time : 0 as * mut sys :: godot_method_bind , track_set_key_transition : 0 as * mut sys :: godot_method_bind , track_set_key_value : 0 as * mut sys :: godot_method_bind , track_set_path : 0 as * mut sys :: godot_method_bind , track_swap : 0 as * mut sys :: godot_method_bind , transform_track_insert_key : 0 as * mut sys :: godot_method_bind , transform_track_interpolate : 0 as * mut sys :: godot_method_bind , value_track_get_key_indices : 0 as * mut sys :: godot_method_bind , value_track_get_update_mode : 0 as * mut sys :: godot_method_bind , value_track_interpolate : 0 as * mut sys :: godot_method_bind , value_track_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 (|| { AnimationMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Animation\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_track = (gd_api . godot_method_bind_get_method) (class_name , "add_track\0" . as_ptr () as * const c_char) ; table . animation_track_get_key_animation = (gd_api . godot_method_bind_get_method) (class_name , "animation_track_get_key_animation\0" . as_ptr () as * const c_char) ; table . animation_track_insert_key = (gd_api . godot_method_bind_get_method) (class_name , "animation_track_insert_key\0" . as_ptr () as * const c_char) ; table . animation_track_set_key_animation = (gd_api . godot_method_bind_get_method) (class_name , "animation_track_set_key_animation\0" . as_ptr () as * const c_char) ; table . audio_track_get_key_end_offset = (gd_api . godot_method_bind_get_method) (class_name , "audio_track_get_key_end_offset\0" . as_ptr () as * const c_char) ; table . audio_track_get_key_start_offset = (gd_api . godot_method_bind_get_method) (class_name , "audio_track_get_key_start_offset\0" . as_ptr () as * const c_char) ; table . audio_track_get_key_stream = (gd_api . godot_method_bind_get_method) (class_name , "audio_track_get_key_stream\0" . as_ptr () as * const c_char) ; table . audio_track_insert_key = (gd_api . godot_method_bind_get_method) (class_name , "audio_track_insert_key\0" . as_ptr () as * const c_char) ; table . audio_track_set_key_end_offset = (gd_api . godot_method_bind_get_method) (class_name , "audio_track_set_key_end_offset\0" . as_ptr () as * const c_char) ; table . audio_track_set_key_start_offset = (gd_api . godot_method_bind_get_method) (class_name , "audio_track_set_key_start_offset\0" . as_ptr () as * const c_char) ; table . audio_track_set_key_stream = (gd_api . godot_method_bind_get_method) (class_name , "audio_track_set_key_stream\0" . as_ptr () as * const c_char) ; table . bezier_track_get_key_in_handle = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_get_key_in_handle\0" . as_ptr () as * const c_char) ; table . bezier_track_get_key_out_handle = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_get_key_out_handle\0" . as_ptr () as * const c_char) ; table . bezier_track_get_key_value = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_get_key_value\0" . as_ptr () as * const c_char) ; table . bezier_track_insert_key = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_insert_key\0" . as_ptr () as * const c_char) ; table . bezier_track_interpolate = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_interpolate\0" . as_ptr () as * const c_char) ; table . bezier_track_set_key_in_handle = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_set_key_in_handle\0" . as_ptr () as * const c_char) ; table . bezier_track_set_key_out_handle = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_set_key_out_handle\0" . as_ptr () as * const c_char) ; table . bezier_track_set_key_value = (gd_api . godot_method_bind_get_method) (class_name , "bezier_track_set_key_value\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 . copy_track = (gd_api . godot_method_bind_get_method) (class_name , "copy_track\0" . as_ptr () as * const c_char) ; table . find_track = (gd_api . godot_method_bind_get_method) (class_name , "find_track\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 . get_step = (gd_api . godot_method_bind_get_method) (class_name , "get_step\0" . as_ptr () as * const c_char) ; table . get_track_count = (gd_api . godot_method_bind_get_method) (class_name , "get_track_count\0" . as_ptr () as * const c_char) ; table . has_loop = (gd_api . godot_method_bind_get_method) (class_name , "has_loop\0" . as_ptr () as * const c_char) ; table . method_track_get_key_indices = (gd_api . godot_method_bind_get_method) (class_name , "method_track_get_key_indices\0" . as_ptr () as * const c_char) ; table . method_track_get_name = (gd_api . godot_method_bind_get_method) (class_name , "method_track_get_name\0" . as_ptr () as * const c_char) ; table . method_track_get_params = (gd_api . godot_method_bind_get_method) (class_name , "method_track_get_params\0" . as_ptr () as * const c_char) ; table . remove_track = (gd_api . godot_method_bind_get_method) (class_name , "remove_track\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_loop = (gd_api . godot_method_bind_get_method) (class_name , "set_loop\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 . track_find_key = (gd_api . godot_method_bind_get_method) (class_name , "track_find_key\0" . as_ptr () as * const c_char) ; table . track_get_interpolation_loop_wrap = (gd_api . godot_method_bind_get_method) (class_name , "track_get_interpolation_loop_wrap\0" . as_ptr () as * const c_char) ; table . track_get_interpolation_type = (gd_api . godot_method_bind_get_method) (class_name , "track_get_interpolation_type\0" . as_ptr () as * const c_char) ; table . track_get_key_count = (gd_api . godot_method_bind_get_method) (class_name , "track_get_key_count\0" . as_ptr () as * const c_char) ; table . track_get_key_time = (gd_api . godot_method_bind_get_method) (class_name , "track_get_key_time\0" . as_ptr () as * const c_char) ; table . track_get_key_transition = (gd_api . godot_method_bind_get_method) (class_name , "track_get_key_transition\0" . as_ptr () as * const c_char) ; table . track_get_key_value = (gd_api . godot_method_bind_get_method) (class_name , "track_get_key_value\0" . as_ptr () as * const c_char) ; table . track_get_path = (gd_api . godot_method_bind_get_method) (class_name , "track_get_path\0" . as_ptr () as * const c_char) ; table . track_get_type = (gd_api . godot_method_bind_get_method) (class_name , "track_get_type\0" . as_ptr () as * const c_char) ; table . track_insert_key = (gd_api . godot_method_bind_get_method) (class_name , "track_insert_key\0" . as_ptr () as * const c_char) ; table . track_is_enabled = (gd_api . godot_method_bind_get_method) (class_name , "track_is_enabled\0" . as_ptr () as * const c_char) ; table . track_is_imported = (gd_api . godot_method_bind_get_method) (class_name , "track_is_imported\0" . as_ptr () as * const c_char) ; table . track_move_down = (gd_api . godot_method_bind_get_method) (class_name , "track_move_down\0" . as_ptr () as * const c_char) ; table . track_move_to = (gd_api . godot_method_bind_get_method) (class_name , "track_move_to\0" . as_ptr () as * const c_char) ; table . track_move_up = (gd_api . godot_method_bind_get_method) (class_name , "track_move_up\0" . as_ptr () as * const c_char) ; table . track_remove_key = (gd_api . godot_method_bind_get_method) (class_name , "track_remove_key\0" . as_ptr () as * const c_char) ; table . track_remove_key_at_position = (gd_api . godot_method_bind_get_method) (class_name , "track_remove_key_at_position\0" . as_ptr () as * const c_char) ; table . track_set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "track_set_enabled\0" . as_ptr () as * const c_char) ; table . track_set_imported = (gd_api . godot_method_bind_get_method) (class_name , "track_set_imported\0" . as_ptr () as * const c_char) ; table . track_set_interpolation_loop_wrap = (gd_api . godot_method_bind_get_method) (class_name , "track_set_interpolation_loop_wrap\0" . as_ptr () as * const c_char) ; table . track_set_interpolation_type = (gd_api . godot_method_bind_get_method) (class_name , "track_set_interpolation_type\0" . as_ptr () as * const c_char) ; table . track_set_key_time = (gd_api . godot_method_bind_get_method) (class_name , "track_set_key_time\0" . as_ptr () as * const c_char) ; table . track_set_key_transition = (gd_api . godot_method_bind_get_method) (class_name , "track_set_key_transition\0" . as_ptr () as * const c_char) ; table . track_set_key_value = (gd_api . godot_method_bind_get_method) (class_name , "track_set_key_value\0" . as_ptr () as * const c_char) ; table . track_set_path = (gd_api . godot_method_bind_get_method) (class_name , "track_set_path\0" . as_ptr () as * const c_char) ; table . track_swap = (gd_api . godot_method_bind_get_method) (class_name , "track_swap\0" . as_ptr () as * const c_char) ; table . transform_track_insert_key = (gd_api . godot_method_bind_get_method) (class_name , "transform_track_insert_key\0" . as_ptr () as * const c_char) ; table . transform_track_interpolate = (gd_api . godot_method_bind_get_method) (class_name , "transform_track_interpolate\0" . as_ptr () as * const c_char) ; table . value_track_get_key_indices = (gd_api . godot_method_bind_get_method) (class_name , "value_track_get_key_indices\0" . as_ptr () as * const c_char) ; table . value_track_get_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "value_track_get_update_mode\0" . as_ptr () as * const c_char) ; table . value_track_interpolate = (gd_api . godot_method_bind_get_method) (class_name , "value_track_interpolate\0" . as_ptr () as * const c_char) ; table . value_track_set_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "value_track_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-60c8dbcfaf0f3dfc/out/generated.rs:934:5721 [INFO] [stdout] | [INFO] [stdout] 934 | ... : 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] 934 | # [doc = "`core class InputEventJoypadMotion` inherits `InputEvent` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventjoypadmotion.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\nInputEventJoypadMotion 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 InputEventJoypadMotion { this : RawObject < Self > , } impl InputEventJoypadMotion { # [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 = InputEventJoypadMotionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Axis identifier. Use one of the [enum JoystickList] axis constants."] # [doc = ""] # [inline] pub fn axis (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadMotionMethodTable :: get (get_api ()) . get_axis ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Current position of the joystick on the given axis. The value ranges from `-1.0` to `1.0`. A value of `0` means the axis is in its resting position."] # [doc = ""] # [inline] pub fn axis_value (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadMotionMethodTable :: get (get_api ()) . get_axis_value ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Axis identifier. Use one of the [enum JoystickList] axis constants."] # [doc = ""] # [inline] pub fn set_axis (& self , axis : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadMotionMethodTable :: get (get_api ()) . set_axis ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , axis) ; } } # [doc = "Current position of the joystick on the given axis. The value ranges from `-1.0` to `1.0`. A value of `0` means the axis is in its resting position."] # [doc = ""] # [inline] pub fn set_axis_value (& self , axis_value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventJoypadMotionMethodTable :: get (get_api ()) . set_axis_value ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , axis_value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventJoypadMotion { } unsafe impl GodotObject for InputEventJoypadMotion { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventJoypadMotion" } } impl std :: ops :: Deref for InputEventJoypadMotion { 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 InputEventJoypadMotion { # [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 InputEventJoypadMotion { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventJoypadMotion { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventJoypadMotion { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventJoypadMotion { } impl Instanciable for InputEventJoypadMotion { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventJoypadMotion :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventJoypadMotionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_axis : * mut sys :: godot_method_bind , pub get_axis_value : * mut sys :: godot_method_bind , pub set_axis : * mut sys :: godot_method_bind , pub set_axis_value : * mut sys :: godot_method_bind } impl InputEventJoypadMotionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventJoypadMotionMethodTable = InputEventJoypadMotionMethodTable { class_constructor : None , get_axis : 0 as * mut sys :: godot_method_bind , get_axis_value : 0 as * mut sys :: godot_method_bind , set_axis : 0 as * mut sys :: godot_method_bind , set_axis_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 (|| { InputEventJoypadMotionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventJoypadMotion\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_axis = (gd_api . godot_method_bind_get_method) (class_name , "get_axis\0" . as_ptr () as * const c_char) ; table . get_axis_value = (gd_api . godot_method_bind_get_method) (class_name , "get_axis_value\0" . as_ptr () as * const c_char) ; table . set_axis = (gd_api . godot_method_bind_get_method) (class_name , "set_axis\0" . as_ptr () as * const c_char) ; table . set_axis_value = (gd_api . godot_method_bind_get_method) (class_name , "set_axis_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-60c8dbcfaf0f3dfc/out/generated.rs:946:4680 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:952:16687 [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 Curve2D` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_curve2d.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\nCurve2D 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 Curve2D { this : RawObject < Self > , } impl Curve2D { # [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 = Curve2DMethodTable :: 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 a curve at `position`, with control points `in` and `out`.\nIf `at_position` is given, the point is inserted before the point number `at_position`, moving that point (and every point after) after the inserted point. If `at_position` is not given, or is an illegal value (`at_position <0` or `at_position >= [method get_point_count]`), the point will be appended at the end of the point list.\n# Default Arguments\n* `in` - `Vector2( 0, 0 )`\n* `out` - `Vector2( 0, 0 )`\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_point (& self , position : Vector2 , _in : Vector2 , out : Vector2 , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . add_point ; let ret = crate :: icalls :: icallptr_void_vec2_vec2_vec2_i64 (method_bind , self . this . sys () . as_ptr () , position , _in , out , at_position) ; } } # [doc = "Removes all points from the curve."] # [doc = ""] # [inline] pub fn clear_points (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . clear_points ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The distance in pixels between two adjacent cached points. Changing it forces the cache to be recomputed the next time the [method get_baked_points] or [method get_baked_length] function is called. The smaller the distance, the more points in the cache and the more memory it will consume, so use with care."] # [doc = ""] # [inline] pub fn bake_interval (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_bake_interval ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the total length of the curve, based on the cached points. Given enough density (see [member bake_interval]), it should be approximate enough."] # [doc = ""] # [inline] pub fn get_baked_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_baked_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the cache of points as a [PoolVector2Array]."] # [doc = ""] # [inline] pub fn get_baked_points (& self) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_baked_points ; let ret = crate :: icalls :: icallptr_vec2arr (method_bind , self . this . sys () . as_ptr ()) ; Vector2Array :: from_sys (ret) } } # [doc = "Returns the closest offset to `to_point`. This offset is meant to be used in [method interpolate_baked].\n`to_point` must be in this curve's local space."] # [doc = ""] # [inline] pub fn get_closest_offset (& self , to_point : Vector2) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_closest_offset ; let ret = crate :: icalls :: icallptr_f64_vec2 (method_bind , self . this . sys () . as_ptr () , to_point) ; ret as _ } } # [doc = "Returns the closest point (in curve's local space) to `to_point`.\n`to_point` must be in this curve's local space."] # [doc = ""] # [inline] pub fn get_closest_point (& self , to_point : Vector2) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_closest_point ; let ret = crate :: icalls :: icallptr_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , to_point) ; mem :: transmute (ret) } } # [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 = Curve2DMethodTable :: get (get_api ()) . get_point_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the position of the control point leading to the vertex `idx`. If the index is out of bounds, the function sends an error to the console, and returns `(0, 0)`."] # [doc = ""] # [inline] pub fn get_point_in (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_point_in ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the position of the control point leading out of the vertex `idx`. If the index is out of bounds, the function sends an error to the console, and returns `(0, 0)`."] # [doc = ""] # [inline] pub fn get_point_out (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_point_out ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the position of the vertex `idx`. If the index is out of bounds, the function sends an error to the console, and returns `(0, 0)`."] # [doc = ""] # [inline] pub fn get_point_position (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . get_point_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the position between the vertex `idx` and the vertex `idx + 1`, where `t` controls if the point is the first vertex (`t = 0.0`), the last vertex (`t = 1.0`), or in between. Values of `t` outside the range (`0.0 >= t <=1`) give strange, but predictable results.\nIf `idx` is out of bounds it is truncated to the first or last vertex, and `t` is ignored. If the curve has no points, the function sends an error to the console, and returns `(0, 0)`."] # [doc = ""] # [inline] pub fn interpolate (& self , idx : i64 , t : f64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . interpolate ; let ret = crate :: icalls :: icallptr_vec2_i64_f64 (method_bind , self . this . sys () . as_ptr () , idx , t) ; mem :: transmute (ret) } } # [doc = "Returns a point within the curve at position `offset`, where `offset` is measured as a pixel distance along the curve.\nTo do that, it finds the two cached points where the `offset` lies between, then interpolates the values. This interpolation is cubic if `cubic` is set to `true`, or linear if set to `false`.\nCubic interpolation tends to follow the curves better, but linear is faster (and often, precise enough).\n# Default Arguments\n* `cubic` - `false`"] # [doc = ""] # [inline] pub fn interpolate_baked (& self , offset : f64 , cubic : bool) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . interpolate_baked ; let ret = crate :: icalls :: icallptr_vec2_f64_bool (method_bind , self . this . sys () . as_ptr () , offset , cubic) ; mem :: transmute (ret) } } # [doc = "Returns the position at the vertex `fofs`. It calls [method interpolate] using the integer part of `fofs` as `idx`, and its fractional part as `t`."] # [doc = ""] # [inline] pub fn interpolatef (& self , fofs : f64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . interpolatef ; let ret = crate :: icalls :: icallptr_vec2_f64 (method_bind , self . this . sys () . as_ptr () , fofs) ; mem :: transmute (ret) } } # [doc = "Deletes the point `idx` from the curve. Sends an error to the console if `idx` is out of bounds."] # [doc = ""] # [inline] pub fn remove_point (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . remove_point ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "The distance in pixels between two adjacent cached points. Changing it forces the cache to be recomputed the next time the [method get_baked_points] or [method get_baked_length] function is called. The smaller the distance, the more points in the cache and the more memory it will consume, so use with care."] # [doc = ""] # [inline] pub fn set_bake_interval (& self , distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . set_bake_interval ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , distance) ; } } # [doc = "Sets the position of the control point leading to the vertex `idx`. If the index is out of bounds, the function sends an error to the console."] # [doc = ""] # [inline] pub fn set_point_in (& self , idx : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . set_point_in ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , idx , position) ; } } # [doc = "Sets the position of the control point leading out of the vertex `idx`. If the index is out of bounds, the function sends an error to the console."] # [doc = ""] # [inline] pub fn set_point_out (& self , idx : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . set_point_out ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , idx , position) ; } } # [doc = "Sets the position for the vertex `idx`. If the index is out of bounds, the function sends an error to the console."] # [doc = ""] # [inline] pub fn set_point_position (& self , idx : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . set_point_position ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , idx , position) ; } } # [doc = "Returns a list of points along the curve, with a curvature controlled point density. That is, the curvier parts will have more points than the straighter parts.\nThis approximation makes straight segments between each point, then subdivides those segments until the resulting shape is similar enough.\n`max_stages` controls how many subdivisions a curve segment may face before it is considered approximate enough. Each subdivision splits the segment in half, so the default 5 stages may mean up to 32 subdivisions per curve segment. Increase with care!\n`tolerance_degrees` controls how many degrees the midpoint of a segment may deviate from the real curve, before the segment has to be subdivided.\n# Default Arguments\n* `max_stages` - `5`\n* `tolerance_degrees` - `4`"] # [doc = ""] # [inline] pub fn tessellate (& self , max_stages : i64 , tolerance_degrees : f64) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve2DMethodTable :: get (get_api ()) . tessellate ; let ret = crate :: icalls :: icallptr_vec2arr_i64_f64 (method_bind , self . this . sys () . as_ptr () , max_stages , tolerance_degrees) ; Vector2Array :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for Curve2D { } unsafe impl GodotObject for Curve2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Curve2D" } } impl std :: ops :: Deref for Curve2D { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Curve2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Curve2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Curve2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Curve2D { } impl Instanciable for Curve2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Curve2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Curve2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_point : * mut sys :: godot_method_bind , pub clear_points : * mut sys :: godot_method_bind , pub get_bake_interval : * mut sys :: godot_method_bind , pub get_baked_length : * mut sys :: godot_method_bind , pub get_baked_points : * mut sys :: godot_method_bind , pub get_closest_offset : * mut sys :: godot_method_bind , pub get_closest_point : * mut sys :: godot_method_bind , pub get_point_count : * mut sys :: godot_method_bind , pub get_point_in : * mut sys :: godot_method_bind , pub get_point_out : * mut sys :: godot_method_bind , pub get_point_position : * mut sys :: godot_method_bind , pub interpolate : * mut sys :: godot_method_bind , pub interpolate_baked : * mut sys :: godot_method_bind , pub interpolatef : * mut sys :: godot_method_bind , pub remove_point : * mut sys :: godot_method_bind , pub set_bake_interval : * mut sys :: godot_method_bind , pub set_point_in : * mut sys :: godot_method_bind , pub set_point_out : * mut sys :: godot_method_bind , pub set_point_position : * mut sys :: godot_method_bind , pub tessellate : * mut sys :: godot_method_bind } impl Curve2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Curve2DMethodTable = Curve2DMethodTable { class_constructor : None , add_point : 0 as * mut sys :: godot_method_bind , clear_points : 0 as * mut sys :: godot_method_bind , get_bake_interval : 0 as * mut sys :: godot_method_bind , get_baked_length : 0 as * mut sys :: godot_method_bind , get_baked_points : 0 as * mut sys :: godot_method_bind , get_closest_offset : 0 as * mut sys :: godot_method_bind , get_closest_point : 0 as * mut sys :: godot_method_bind , get_point_count : 0 as * mut sys :: godot_method_bind , get_point_in : 0 as * mut sys :: godot_method_bind , get_point_out : 0 as * mut sys :: godot_method_bind , get_point_position : 0 as * mut sys :: godot_method_bind , interpolate : 0 as * mut sys :: godot_method_bind , interpolate_baked : 0 as * mut sys :: godot_method_bind , interpolatef : 0 as * mut sys :: godot_method_bind , remove_point : 0 as * mut sys :: godot_method_bind , set_bake_interval : 0 as * mut sys :: godot_method_bind , set_point_in : 0 as * mut sys :: godot_method_bind , set_point_out : 0 as * mut sys :: godot_method_bind , set_point_position : 0 as * mut sys :: godot_method_bind , tessellate : 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 (|| { Curve2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Curve2D\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 . clear_points = (gd_api . godot_method_bind_get_method) (class_name , "clear_points\0" . as_ptr () as * const c_char) ; table . get_bake_interval = (gd_api . godot_method_bind_get_method) (class_name , "get_bake_interval\0" . as_ptr () as * const c_char) ; table . get_baked_length = (gd_api . godot_method_bind_get_method) (class_name , "get_baked_length\0" . as_ptr () as * const c_char) ; table . get_baked_points = (gd_api . godot_method_bind_get_method) (class_name , "get_baked_points\0" . as_ptr () as * const c_char) ; table . get_closest_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_offset\0" . as_ptr () as * const c_char) ; table . get_closest_point = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_point\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_in = (gd_api . godot_method_bind_get_method) (class_name , "get_point_in\0" . as_ptr () as * const c_char) ; table . get_point_out = (gd_api . godot_method_bind_get_method) (class_name , "get_point_out\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 . 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 . interpolatef = (gd_api . godot_method_bind_get_method) (class_name , "interpolatef\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_interval = (gd_api . godot_method_bind_get_method) (class_name , "set_bake_interval\0" . as_ptr () as * const c_char) ; table . set_point_in = (gd_api . godot_method_bind_get_method) (class_name , "set_point_in\0" . as_ptr () as * const c_char) ; table . set_point_out = (gd_api . godot_method_bind_get_method) (class_name , "set_point_out\0" . as_ptr () as * const c_char) ; table . set_point_position = (gd_api . godot_method_bind_get_method) (class_name , "set_point_position\0" . as_ptr () as * const c_char) ; table . tessellate = (gd_api . godot_method_bind_get_method) (class_name , "tessellate\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-60c8dbcfaf0f3dfc/out/generated.rs:958:9464 [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 SpinBox` inherits `Range` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_spinbox.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`SpinBox` 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\nSpinBox 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 = ""] # [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 SpinBox { this : RawObject < Self > , } impl SpinBox { # [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 = SpinBoxMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Applies the current value of this [SpinBox]."] # [doc = ""] # [inline] pub fn apply (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . apply ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sets the text alignment of the [SpinBox]."] # [doc = ""] # [inline] pub fn align (& self) -> crate :: generated :: line_edit :: Align { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . get_align ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: line_edit :: Align (ret) } } # [doc = "Returns the [LineEdit] instance from this [SpinBox]. You can use it to access properties and methods of [LineEdit]."] # [doc = ""] # [inline] pub fn get_line_edit (& self) -> Option < Ref < crate :: generated :: line_edit :: LineEdit , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . get_line_edit ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: line_edit :: LineEdit , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Adds the specified `prefix` string before the numerical value of the [SpinBox]."] # [doc = ""] # [inline] pub fn prefix (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . get_prefix ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Adds the specified `suffix` string after the numerical value of the [SpinBox]."] # [doc = ""] # [inline] pub fn suffix (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . get_suffix ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "If `true`, the [SpinBox] will be editable. Otherwise, it will be read only."] # [doc = ""] # [inline] pub fn is_editable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . is_editable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the text alignment of the [SpinBox]."] # [doc = ""] # [inline] pub fn set_align (& self , align : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . set_align ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , align) ; } } # [doc = "If `true`, the [SpinBox] will be editable. Otherwise, it will be read only."] # [doc = ""] # [inline] pub fn set_editable (& self , editable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . set_editable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , editable) ; } } # [doc = "Adds the specified `prefix` string before the numerical value of the [SpinBox]."] # [doc = ""] # [inline] pub fn set_prefix (& self , prefix : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . set_prefix ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , prefix . into ()) ; } } # [doc = "Adds the specified `suffix` string after the numerical value of the [SpinBox]."] # [doc = ""] # [inline] pub fn set_suffix (& self , suffix : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpinBoxMethodTable :: get (get_api ()) . set_suffix ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , suffix . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SpinBox { } unsafe impl GodotObject for SpinBox { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "SpinBox" } } impl QueueFree for SpinBox { # [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 SpinBox { type Target = crate :: generated :: range :: Range ; # [inline] fn deref (& self) -> & crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SpinBox { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: range :: Range > for SpinBox { } unsafe impl SubClass < crate :: generated :: control :: Control > for SpinBox { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for SpinBox { } unsafe impl SubClass < crate :: generated :: node :: Node > for SpinBox { } unsafe impl SubClass < crate :: generated :: object :: Object > for SpinBox { } impl Instanciable for SpinBox { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SpinBox :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SpinBoxMethodTable { pub class_constructor : sys :: godot_class_constructor , pub apply : * mut sys :: godot_method_bind , pub get_align : * mut sys :: godot_method_bind , pub get_line_edit : * mut sys :: godot_method_bind , pub get_prefix : * mut sys :: godot_method_bind , pub get_suffix : * mut sys :: godot_method_bind , pub is_editable : * mut sys :: godot_method_bind , pub set_align : * mut sys :: godot_method_bind , pub set_editable : * mut sys :: godot_method_bind , pub set_prefix : * mut sys :: godot_method_bind , pub set_suffix : * mut sys :: godot_method_bind } impl SpinBoxMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SpinBoxMethodTable = SpinBoxMethodTable { class_constructor : None , apply : 0 as * mut sys :: godot_method_bind , get_align : 0 as * mut sys :: godot_method_bind , get_line_edit : 0 as * mut sys :: godot_method_bind , get_prefix : 0 as * mut sys :: godot_method_bind , get_suffix : 0 as * mut sys :: godot_method_bind , is_editable : 0 as * mut sys :: godot_method_bind , set_align : 0 as * mut sys :: godot_method_bind , set_editable : 0 as * mut sys :: godot_method_bind , set_prefix : 0 as * mut sys :: godot_method_bind , set_suffix : 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 (|| { SpinBoxMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SpinBox\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . apply = (gd_api . godot_method_bind_get_method) (class_name , "apply\0" . as_ptr () as * const c_char) ; table . get_align = (gd_api . godot_method_bind_get_method) (class_name , "get_align\0" . as_ptr () as * const c_char) ; table . get_line_edit = (gd_api . godot_method_bind_get_method) (class_name , "get_line_edit\0" . as_ptr () as * const c_char) ; table . get_prefix = (gd_api . godot_method_bind_get_method) (class_name , "get_prefix\0" . as_ptr () as * const c_char) ; table . get_suffix = (gd_api . godot_method_bind_get_method) (class_name , "get_suffix\0" . as_ptr () as * const c_char) ; table . is_editable = (gd_api . godot_method_bind_get_method) (class_name , "is_editable\0" . as_ptr () as * const c_char) ; table . set_align = (gd_api . godot_method_bind_get_method) (class_name , "set_align\0" . as_ptr () as * const c_char) ; table . set_editable = (gd_api . godot_method_bind_get_method) (class_name , "set_editable\0" . as_ptr () as * const c_char) ; table . set_prefix = (gd_api . godot_method_bind_get_method) (class_name , "set_prefix\0" . as_ptr () as * const c_char) ; table . set_suffix = (gd_api . godot_method_bind_get_method) (class_name , "set_suffix\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-60c8dbcfaf0f3dfc/out/generated.rs:964:14782 [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 Generic6DOFJoint` inherits `Joint` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_generic6dofjoint.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`Generic6DOFJoint` 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\nGeneric6DOFJoint inherits methods from:\n - [Joint](struct.Joint.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 Generic6DOFJoint { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Flag (pub i64) ; impl Flag { pub const ENABLE_LINEAR_LIMIT : Flag = Flag (0i64) ; pub const ENABLE_ANGULAR_LIMIT : Flag = Flag (1i64) ; pub const ENABLE_ANGULAR_SPRING : Flag = Flag (2i64) ; pub const ENABLE_LINEAR_SPRING : Flag = Flag (3i64) ; pub const ENABLE_MOTOR : Flag = Flag (4i64) ; pub const ENABLE_LINEAR_MOTOR : Flag = Flag (5i64) ; pub const MAX : Flag = Flag (6i64) ; } impl From < i64 > for Flag { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Flag > for i64 { # [inline] fn from (v : Flag) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Param (pub i64) ; impl Param { pub const LINEAR_LOWER_LIMIT : Param = Param (0i64) ; pub const LINEAR_UPPER_LIMIT : Param = Param (1i64) ; pub const LINEAR_LIMIT_SOFTNESS : Param = Param (2i64) ; pub const LINEAR_RESTITUTION : Param = Param (3i64) ; pub const LINEAR_DAMPING : Param = Param (4i64) ; pub const LINEAR_MOTOR_TARGET_VELOCITY : Param = Param (5i64) ; pub const LINEAR_MOTOR_FORCE_LIMIT : Param = Param (6i64) ; pub const LINEAR_SPRING_STIFFNESS : Param = Param (7i64) ; pub const LINEAR_SPRING_DAMPING : Param = Param (8i64) ; pub const LINEAR_SPRING_EQUILIBRIUM_POINT : Param = Param (9i64) ; pub const ANGULAR_LOWER_LIMIT : Param = Param (10i64) ; pub const ANGULAR_UPPER_LIMIT : Param = Param (11i64) ; pub const ANGULAR_LIMIT_SOFTNESS : Param = Param (12i64) ; pub const ANGULAR_DAMPING : Param = Param (13i64) ; pub const ANGULAR_RESTITUTION : Param = Param (14i64) ; pub const ANGULAR_FORCE_LIMIT : Param = Param (15i64) ; pub const ANGULAR_ERP : Param = Param (16i64) ; pub const ANGULAR_MOTOR_TARGET_VELOCITY : Param = Param (17i64) ; pub const ANGULAR_MOTOR_FORCE_LIMIT : Param = Param (18i64) ; pub const ANGULAR_SPRING_STIFFNESS : Param = Param (19i64) ; pub const ANGULAR_SPRING_DAMPING : Param = Param (20i64) ; pub const ANGULAR_SPRING_EQUILIBRIUM_POINT : Param = Param (21i64) ; pub const MAX : Param = Param (22i64) ; } 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 Generic6DOFJoint { pub const FLAG_ENABLE_ANGULAR_LIMIT : i64 = 1i64 ; pub const FLAG_ENABLE_ANGULAR_SPRING : i64 = 2i64 ; pub const FLAG_ENABLE_LINEAR_LIMIT : i64 = 0i64 ; pub const FLAG_ENABLE_LINEAR_MOTOR : i64 = 5i64 ; pub const FLAG_ENABLE_LINEAR_SPRING : i64 = 3i64 ; pub const FLAG_ENABLE_MOTOR : i64 = 4i64 ; pub const FLAG_MAX : i64 = 6i64 ; pub const PARAM_ANGULAR_DAMPING : i64 = 13i64 ; pub const PARAM_ANGULAR_ERP : i64 = 16i64 ; pub const PARAM_ANGULAR_FORCE_LIMIT : i64 = 15i64 ; pub const PARAM_ANGULAR_LIMIT_SOFTNESS : i64 = 12i64 ; pub const PARAM_ANGULAR_LOWER_LIMIT : i64 = 10i64 ; pub const PARAM_ANGULAR_MOTOR_FORCE_LIMIT : i64 = 18i64 ; pub const PARAM_ANGULAR_MOTOR_TARGET_VELOCITY : i64 = 17i64 ; pub const PARAM_ANGULAR_RESTITUTION : i64 = 14i64 ; pub const PARAM_ANGULAR_SPRING_DAMPING : i64 = 20i64 ; pub const PARAM_ANGULAR_SPRING_EQUILIBRIUM_POINT : i64 = 21i64 ; pub const PARAM_ANGULAR_SPRING_STIFFNESS : i64 = 19i64 ; pub const PARAM_ANGULAR_UPPER_LIMIT : i64 = 11i64 ; pub const PARAM_LINEAR_DAMPING : i64 = 4i64 ; pub const PARAM_LINEAR_LIMIT_SOFTNESS : i64 = 2i64 ; pub const PARAM_LINEAR_LOWER_LIMIT : i64 = 0i64 ; pub const PARAM_LINEAR_MOTOR_FORCE_LIMIT : i64 = 6i64 ; pub const PARAM_LINEAR_MOTOR_TARGET_VELOCITY : i64 = 5i64 ; pub const PARAM_LINEAR_RESTITUTION : i64 = 3i64 ; pub const PARAM_LINEAR_SPRING_DAMPING : i64 = 8i64 ; pub const PARAM_LINEAR_SPRING_EQUILIBRIUM_POINT : i64 = 9i64 ; pub const PARAM_LINEAR_SPRING_STIFFNESS : i64 = 7i64 ; pub const PARAM_LINEAR_UPPER_LIMIT : i64 = 1i64 ; pub const PARAM_MAX : i64 = 22i64 ; } impl Generic6DOFJoint { # [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 = Generic6DOFJointMethodTable :: 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`, then there is a linear motor on the X axis. It will attempt to reach the target velocity while staying within the force limits."] # [doc = ""] # [inline] pub fn flag_x (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . get_flag_x ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; ret as _ } } # [doc = "If `true`, then there is a linear motor on the Y axis. It will attempt to reach the target velocity while staying within the force limits."] # [doc = ""] # [inline] pub fn flag_y (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . get_flag_y ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; ret as _ } } # [doc = "If `true`, then there is a linear motor on the Z axis. It will attempt to reach the target velocity while staying within the force limits."] # [doc = ""] # [inline] pub fn flag_z (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . get_flag_z ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; ret as _ } } # [doc = "The speed that the linear motor will attempt to reach on the X axis."] # [doc = ""] # [inline] pub fn param_x (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . get_param_x ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "The speed that the linear motor will attempt to reach on the Y axis."] # [doc = ""] # [inline] pub fn param_y (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . get_param_y ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "The speed that the linear motor will attempt to reach on the Z axis."] # [doc = ""] # [inline] pub fn param_z (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . get_param_z ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "If `true`, then there is a linear motor on the X axis. It will attempt to reach the target velocity while staying within the force limits."] # [doc = ""] # [inline] pub fn set_flag_x (& self , flag : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . set_flag_x ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , value) ; } } # [doc = "If `true`, then there is a linear motor on the Y axis. It will attempt to reach the target velocity while staying within the force limits."] # [doc = ""] # [inline] pub fn set_flag_y (& self , flag : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . set_flag_y ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , value) ; } } # [doc = "If `true`, then there is a linear motor on the Z axis. It will attempt to reach the target velocity while staying within the force limits."] # [doc = ""] # [inline] pub fn set_flag_z (& self , flag : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . set_flag_z ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , value) ; } } # [doc = "The speed that the linear motor will attempt to reach on the X axis."] # [doc = ""] # [inline] pub fn set_param_x (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . set_param_x ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } # [doc = "The speed that the linear motor will attempt to reach on the Y axis."] # [doc = ""] # [inline] pub fn set_param_y (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . set_param_y ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } # [doc = "The speed that the linear motor will attempt to reach on the Z axis."] # [doc = ""] # [inline] pub fn set_param_z (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Generic6DOFJointMethodTable :: get (get_api ()) . set_param_z ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Generic6DOFJoint { } unsafe impl GodotObject for Generic6DOFJoint { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Generic6DOFJoint" } } impl QueueFree for Generic6DOFJoint { # [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 Generic6DOFJoint { type Target = crate :: generated :: joint :: Joint ; # [inline] fn deref (& self) -> & crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Generic6DOFJoint { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: joint :: Joint > for Generic6DOFJoint { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for Generic6DOFJoint { } unsafe impl SubClass < crate :: generated :: node :: Node > for Generic6DOFJoint { } unsafe impl SubClass < crate :: generated :: object :: Object > for Generic6DOFJoint { } impl Instanciable for Generic6DOFJoint { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Generic6DOFJoint :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Generic6DOFJointMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_flag_x : * mut sys :: godot_method_bind , pub get_flag_y : * mut sys :: godot_method_bind , pub get_flag_z : * mut sys :: godot_method_bind , pub get_param_x : * mut sys :: godot_method_bind , pub get_param_y : * mut sys :: godot_method_bind , pub get_param_z : * mut sys :: godot_method_bind , pub set_flag_x : * mut sys :: godot_method_bind , pub set_flag_y : * mut sys :: godot_method_bind , pub set_flag_z : * mut sys :: godot_method_bind , pub set_param_x : * mut sys :: godot_method_bind , pub set_param_y : * mut sys :: godot_method_bind , pub set_param_z : * mut sys :: godot_method_bind } impl Generic6DOFJointMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Generic6DOFJointMethodTable = Generic6DOFJointMethodTable { class_constructor : None , get_flag_x : 0 as * mut sys :: godot_method_bind , get_flag_y : 0 as * mut sys :: godot_method_bind , get_flag_z : 0 as * mut sys :: godot_method_bind , get_param_x : 0 as * mut sys :: godot_method_bind , get_param_y : 0 as * mut sys :: godot_method_bind , get_param_z : 0 as * mut sys :: godot_method_bind , set_flag_x : 0 as * mut sys :: godot_method_bind , set_flag_y : 0 as * mut sys :: godot_method_bind , set_flag_z : 0 as * mut sys :: godot_method_bind , set_param_x : 0 as * mut sys :: godot_method_bind , set_param_y : 0 as * mut sys :: godot_method_bind , set_param_z : 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 (|| { Generic6DOFJointMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Generic6DOFJoint\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_flag_x = (gd_api . godot_method_bind_get_method) (class_name , "get_flag_x\0" . as_ptr () as * const c_char) ; table . get_flag_y = (gd_api . godot_method_bind_get_method) (class_name , "get_flag_y\0" . as_ptr () as * const c_char) ; table . get_flag_z = (gd_api . godot_method_bind_get_method) (class_name , "get_flag_z\0" . as_ptr () as * const c_char) ; table . get_param_x = (gd_api . godot_method_bind_get_method) (class_name , "get_param_x\0" . as_ptr () as * const c_char) ; table . get_param_y = (gd_api . godot_method_bind_get_method) (class_name , "get_param_y\0" . as_ptr () as * const c_char) ; table . get_param_z = (gd_api . godot_method_bind_get_method) (class_name , "get_param_z\0" . as_ptr () as * const c_char) ; table . set_flag_x = (gd_api . godot_method_bind_get_method) (class_name , "set_flag_x\0" . as_ptr () as * const c_char) ; table . set_flag_y = (gd_api . godot_method_bind_get_method) (class_name , "set_flag_y\0" . as_ptr () as * const c_char) ; table . set_flag_z = (gd_api . godot_method_bind_get_method) (class_name , "set_flag_z\0" . as_ptr () as * const c_char) ; table . set_param_x = (gd_api . godot_method_bind_get_method) (class_name , "set_param_x\0" . as_ptr () as * const c_char) ; table . set_param_y = (gd_api . godot_method_bind_get_method) (class_name , "set_param_y\0" . as_ptr () as * const c_char) ; table . set_param_z = (gd_api . godot_method_bind_get_method) (class_name , "set_param_z\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-60c8dbcfaf0f3dfc/out/generated.rs:970:3553 [INFO] [stdout] | [INFO] [stdout] 970 | ...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] 970 | # [doc = "`core class VisualScriptSelf` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptself.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\nVisualScriptSelf 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 VisualScriptSelf { this : RawObject < Self > , } impl VisualScriptSelf { # [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 = VisualScriptSelfMethodTable :: 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 VisualScriptSelf { } unsafe impl GodotObject for VisualScriptSelf { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptSelf" } } impl std :: ops :: Deref for VisualScriptSelf { 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 VisualScriptSelf { # [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 VisualScriptSelf { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptSelf { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptSelf { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptSelf { } impl Instanciable for VisualScriptSelf { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptSelf :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptSelfMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptSelfMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptSelfMethodTable = VisualScriptSelfMethodTable { 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 (|| { VisualScriptSelfMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptSelf\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-60c8dbcfaf0f3dfc/out/generated.rs:976:6387 [INFO] [stdout] | [INFO] [stdout] 976 | ... : 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] 976 | # [doc = "`core class Crypto` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_crypto.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\nCrypto 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 Crypto { this : RawObject < Self > , } impl Crypto { # [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 = CryptoMethodTable :: 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 a [PoolByteArray] of cryptographically secure random bytes with given `size`."] # [doc = ""] # [inline] pub fn generate_random_bytes (& self , size : i64) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = CryptoMethodTable :: get (get_api ()) . generate_random_bytes ; let ret = crate :: icalls :: icallptr_bytearr_i64 (method_bind , self . this . sys () . as_ptr () , size) ; ByteArray :: from_sys (ret) } } # [doc = "Generates an RSA [CryptoKey] that can be used for creating self-signed certificates and passed to [method StreamPeerSSL.accept_stream]."] # [doc = ""] # [inline] pub fn generate_rsa (& self , size : i64) -> Option < Ref < crate :: generated :: crypto_key :: CryptoKey , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CryptoMethodTable :: get (get_api ()) . generate_rsa ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , size) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: crypto_key :: CryptoKey , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nGenerates a self-signed [X509Certificate] from the given [CryptoKey] and `issuer_name`. The certificate validity will be defined by `not_before` and `not_after` (first valid date and last valid date). The `issuer_name` must contain at least \"CN=\" (common name, i.e. the domain name), \"O=\" (organization, i.e. your company name), \"C=\" (country, i.e. 2 lettered ISO-3166 code of the country the organization is based in).\nA small example to generate an RSA key and a X509 self-signed certificate.\n```gdscript\nvar crypto = Crypto.new()\n# Generate 4096 bits RSA key.\nvar key = crypto.generate_rsa(4096)\n# Generate self-signed certificate using the given key.\nvar cert = crypto.generate_self_signed_certificate(key, \"CN=example.com,O=A Game Company,C=IT\")\n```\n# Default Arguments\n* `issuer_name` - `\"CN=myserver,O=myorganisation,C=IT\"`\n* `not_before` - `\"20140101000000\"`\n* `not_after` - `\"20340101000000\"`"] # [doc = ""] # [inline] pub fn generate_self_signed_certificate (& self , key : impl AsArg < crate :: generated :: crypto_key :: CryptoKey > , issuer_name : impl Into < GodotString > , not_before : impl Into < GodotString > , not_after : impl Into < GodotString >) -> Option < Ref < crate :: generated :: x509_certificate :: X509Certificate , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CryptoMethodTable :: get (get_api ()) . generate_self_signed_certificate ; let ret = crate :: icalls :: icallptr_obj_obj_str_str_str (method_bind , self . this . sys () . as_ptr () , key . as_arg_ptr () , issuer_name . into () , not_before . into () , not_after . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: x509_certificate :: X509Certificate , thread_access :: Shared >> :: move_from_sys (sys)) } } } impl gdnative_core :: private :: godot_object :: Sealed for Crypto { } unsafe impl GodotObject for Crypto { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Crypto" } } impl std :: ops :: Deref for Crypto { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Crypto { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Crypto { } unsafe impl SubClass < crate :: generated :: object :: Object > for Crypto { } impl Instanciable for Crypto { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Crypto :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CryptoMethodTable { pub class_constructor : sys :: godot_class_constructor , pub generate_random_bytes : * mut sys :: godot_method_bind , pub generate_rsa : * mut sys :: godot_method_bind , pub generate_self_signed_certificate : * mut sys :: godot_method_bind } impl CryptoMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CryptoMethodTable = CryptoMethodTable { class_constructor : None , generate_random_bytes : 0 as * mut sys :: godot_method_bind , generate_rsa : 0 as * mut sys :: godot_method_bind , generate_self_signed_certificate : 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 (|| { CryptoMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Crypto\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . generate_random_bytes = (gd_api . godot_method_bind_get_method) (class_name , "generate_random_bytes\0" . as_ptr () as * const c_char) ; table . generate_rsa = (gd_api . godot_method_bind_get_method) (class_name , "generate_rsa\0" . as_ptr () as * const c_char) ; table . generate_self_signed_certificate = (gd_api . godot_method_bind_get_method) (class_name , "generate_self_signed_certificate\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-60c8dbcfaf0f3dfc/out/generated.rs:982:10661 [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 = "`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-60c8dbcfaf0f3dfc/out/generated.rs:988:16499 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:994:21601 [INFO] [stdout] | [INFO] [stdout] 994 | ... : 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] 994 | # [doc = "`core class GridMap` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_gridmap.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`GridMap` 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\nGridMap 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 GridMap { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl GridMap { pub const INVALID_CELL_ITEM : i64 = - 1i64 ; } impl GridMap { # [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 = GridMapMethodTable :: 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 = GridMapMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn clear_baked_meshes (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . clear_baked_meshes ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_bake_mesh_instance (& self , idx : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_bake_mesh_instance ; let ret = crate :: icalls :: icallptr_rid_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_bake_meshes (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_bake_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 get_cell_item (& self , x : i64 , y : i64 , z : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_cell_item ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , x , y , z) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_cell_item_orientation (& self , x : i64 , y : i64 , z : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_cell_item_orientation ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , x , y , z) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn cell_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_cell_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn cell_size (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_cell_size ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn center_x (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_center_x ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn center_y (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_center_y ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn center_z (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_center_z ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn collision_layer (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: 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 = GridMapMethodTable :: 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 = GridMapMethodTable :: 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 = GridMapMethodTable :: 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 mesh_library (& self) -> Option < Ref < crate :: generated :: mesh_library :: MeshLibrary , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_mesh_library ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: mesh_library :: MeshLibrary , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_meshes (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: 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 octant_size (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_octant_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn use_in_baked_light (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_use_in_baked_light ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_used_cells (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . get_used_cells ; 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 make_baked_meshes (& self , gen_lightmap_uv : bool , lightmap_uv_texel_size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . make_baked_meshes ; let ret = crate :: icalls :: icallptr_void_bool_f64 (method_bind , self . this . sys () . as_ptr () , gen_lightmap_uv , lightmap_uv_texel_size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn map_to_world (& self , x : i64 , y : i64 , z : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . map_to_world ; let ret = crate :: icalls :: icallptr_vec3_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , x , y , z) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn resource_changed (& self , resource : impl AsArg < crate :: generated :: resource :: Resource >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . resource_changed ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , resource . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_item (& self , x : i64 , y : i64 , z : i64 , item : i64 , orientation : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_cell_item ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , x , y , z , item , orientation) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_cell_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_size (& self , size : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_cell_size ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_center_x (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_center_x ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_center_y (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_center_y ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_center_z (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_center_z ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_clip (& self , enabled : bool , clipabove : bool , floor : i64 , axis : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_clip ; let ret = crate :: icalls :: icallptr_void_bool_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , enabled , clipabove , floor , axis) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_collision_layer (& self , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: 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 = GridMapMethodTable :: 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 = GridMapMethodTable :: 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 = GridMapMethodTable :: 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_mesh_library (& self , mesh_library : impl AsArg < crate :: generated :: mesh_library :: MeshLibrary >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_mesh_library ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , mesh_library . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_octant_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_octant_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_use_in_baked_light (& self , use_in_baked_light : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . set_use_in_baked_light ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , use_in_baked_light) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn world_to_map (& self , pos : Vector3) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = GridMapMethodTable :: get (get_api ()) . world_to_map ; let ret = crate :: icalls :: icallptr_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , pos) ; mem :: transmute (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for GridMap { } unsafe impl GodotObject for GridMap { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "GridMap" } } impl QueueFree for GridMap { # [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 GridMap { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GridMap { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for GridMap { } unsafe impl SubClass < crate :: generated :: node :: Node > for GridMap { } unsafe impl SubClass < crate :: generated :: object :: Object > for GridMap { } impl Instanciable for GridMap { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GridMap :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GridMapMethodTable { pub class_constructor : sys :: godot_class_constructor , pub clear : * mut sys :: godot_method_bind , pub clear_baked_meshes : * mut sys :: godot_method_bind , pub get_bake_mesh_instance : * mut sys :: godot_method_bind , pub get_bake_meshes : * mut sys :: godot_method_bind , pub get_cell_item : * mut sys :: godot_method_bind , pub get_cell_item_orientation : * mut sys :: godot_method_bind , pub get_cell_scale : * mut sys :: godot_method_bind , pub get_cell_size : * mut sys :: godot_method_bind , pub get_center_x : * mut sys :: godot_method_bind , pub get_center_y : * mut sys :: godot_method_bind , pub get_center_z : * 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_mesh_library : * mut sys :: godot_method_bind , pub get_meshes : * mut sys :: godot_method_bind , pub get_octant_size : * mut sys :: godot_method_bind , pub get_use_in_baked_light : * mut sys :: godot_method_bind , pub get_used_cells : * mut sys :: godot_method_bind , pub make_baked_meshes : * mut sys :: godot_method_bind , pub map_to_world : * mut sys :: godot_method_bind , pub resource_changed : * mut sys :: godot_method_bind , pub set_cell_item : * mut sys :: godot_method_bind , pub set_cell_scale : * mut sys :: godot_method_bind , pub set_cell_size : * mut sys :: godot_method_bind , pub set_center_x : * mut sys :: godot_method_bind , pub set_center_y : * mut sys :: godot_method_bind , pub set_center_z : * mut sys :: godot_method_bind , pub set_clip : * 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_mesh_library : * mut sys :: godot_method_bind , pub set_octant_size : * mut sys :: godot_method_bind , pub set_use_in_baked_light : * mut sys :: godot_method_bind , pub world_to_map : * mut sys :: godot_method_bind } impl GridMapMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GridMapMethodTable = GridMapMethodTable { class_constructor : None , clear : 0 as * mut sys :: godot_method_bind , clear_baked_meshes : 0 as * mut sys :: godot_method_bind , get_bake_mesh_instance : 0 as * mut sys :: godot_method_bind , get_bake_meshes : 0 as * mut sys :: godot_method_bind , get_cell_item : 0 as * mut sys :: godot_method_bind , get_cell_item_orientation : 0 as * mut sys :: godot_method_bind , get_cell_scale : 0 as * mut sys :: godot_method_bind , get_cell_size : 0 as * mut sys :: godot_method_bind , get_center_x : 0 as * mut sys :: godot_method_bind , get_center_y : 0 as * mut sys :: godot_method_bind , get_center_z : 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_mesh_library : 0 as * mut sys :: godot_method_bind , get_meshes : 0 as * mut sys :: godot_method_bind , get_octant_size : 0 as * mut sys :: godot_method_bind , get_use_in_baked_light : 0 as * mut sys :: godot_method_bind , get_used_cells : 0 as * mut sys :: godot_method_bind , make_baked_meshes : 0 as * mut sys :: godot_method_bind , map_to_world : 0 as * mut sys :: godot_method_bind , resource_changed : 0 as * mut sys :: godot_method_bind , set_cell_item : 0 as * mut sys :: godot_method_bind , set_cell_scale : 0 as * mut sys :: godot_method_bind , set_cell_size : 0 as * mut sys :: godot_method_bind , set_center_x : 0 as * mut sys :: godot_method_bind , set_center_y : 0 as * mut sys :: godot_method_bind , set_center_z : 0 as * mut sys :: godot_method_bind , set_clip : 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_mesh_library : 0 as * mut sys :: godot_method_bind , set_octant_size : 0 as * mut sys :: godot_method_bind , set_use_in_baked_light : 0 as * mut sys :: godot_method_bind , world_to_map : 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 (|| { GridMapMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GridMap\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 . clear_baked_meshes = (gd_api . godot_method_bind_get_method) (class_name , "clear_baked_meshes\0" . as_ptr () as * const c_char) ; table . get_bake_mesh_instance = (gd_api . godot_method_bind_get_method) (class_name , "get_bake_mesh_instance\0" . as_ptr () as * const c_char) ; table . get_bake_meshes = (gd_api . godot_method_bind_get_method) (class_name , "get_bake_meshes\0" . as_ptr () as * const c_char) ; table . get_cell_item = (gd_api . godot_method_bind_get_method) (class_name , "get_cell_item\0" . as_ptr () as * const c_char) ; table . get_cell_item_orientation = (gd_api . godot_method_bind_get_method) (class_name , "get_cell_item_orientation\0" . as_ptr () as * const c_char) ; table . get_cell_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_cell_scale\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_center_x = (gd_api . godot_method_bind_get_method) (class_name , "get_center_x\0" . as_ptr () as * const c_char) ; table . get_center_y = (gd_api . godot_method_bind_get_method) (class_name , "get_center_y\0" . as_ptr () as * const c_char) ; table . get_center_z = (gd_api . godot_method_bind_get_method) (class_name , "get_center_z\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_mesh_library = (gd_api . godot_method_bind_get_method) (class_name , "get_mesh_library\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_octant_size = (gd_api . godot_method_bind_get_method) (class_name , "get_octant_size\0" . as_ptr () as * const c_char) ; table . get_use_in_baked_light = (gd_api . godot_method_bind_get_method) (class_name , "get_use_in_baked_light\0" . as_ptr () as * const c_char) ; table . get_used_cells = (gd_api . godot_method_bind_get_method) (class_name , "get_used_cells\0" . as_ptr () as * const c_char) ; table . make_baked_meshes = (gd_api . godot_method_bind_get_method) (class_name , "make_baked_meshes\0" . as_ptr () as * const c_char) ; table . map_to_world = (gd_api . godot_method_bind_get_method) (class_name , "map_to_world\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_cell_item = (gd_api . godot_method_bind_get_method) (class_name , "set_cell_item\0" . as_ptr () as * const c_char) ; table . set_cell_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_cell_scale\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_center_x = (gd_api . godot_method_bind_get_method) (class_name , "set_center_x\0" . as_ptr () as * const c_char) ; table . set_center_y = (gd_api . godot_method_bind_get_method) (class_name , "set_center_y\0" . as_ptr () as * const c_char) ; table . set_center_z = (gd_api . godot_method_bind_get_method) (class_name , "set_center_z\0" . as_ptr () as * const c_char) ; table . set_clip = (gd_api . godot_method_bind_get_method) (class_name , "set_clip\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_mesh_library = (gd_api . godot_method_bind_get_method) (class_name , "set_mesh_library\0" . as_ptr () as * const c_char) ; table . set_octant_size = (gd_api . godot_method_bind_get_method) (class_name , "set_octant_size\0" . as_ptr () as * const c_char) ; table . set_use_in_baked_light = (gd_api . godot_method_bind_get_method) (class_name , "set_use_in_baked_light\0" . as_ptr () as * const c_char) ; table . world_to_map = (gd_api . godot_method_bind_get_method) (class_name , "world_to_map\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-60c8dbcfaf0f3dfc/out/generated.rs:1000:15446 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:1006:13362 [INFO] [stdout] | [INFO] [stdout] 1006 | ... : 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] 1006 | # [doc = "`core class MeshInstance` inherits `GeometryInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_meshinstance.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`MeshInstance` 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\nMeshInstance 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 MeshInstance { this : RawObject < Self > , } impl MeshInstance { # [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 = MeshInstanceMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "This helper creates a [StaticBody] child node with a [ConvexPolygonShape] collision shape calculated from the mesh geometry. It's mainly used for testing."] # [doc = ""] # [inline] pub fn create_convex_collision (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . create_convex_collision ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "This helper creates a [MeshInstance] child node with gizmos at every vertex calculated from the mesh geometry. It's mainly used for testing."] # [doc = ""] # [inline] pub fn create_debug_tangents (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . create_debug_tangents ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "This helper creates a [StaticBody] child node with a [ConcavePolygonShape] collision shape calculated from the mesh geometry. It's mainly used for testing."] # [doc = ""] # [inline] pub fn create_trimesh_collision (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . create_trimesh_collision ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_active_material (& self , surface : i64) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . get_active_material ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , surface) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: material :: Material , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [Mesh] resource for the instance."] # [doc = ""] # [inline] pub fn mesh (& self) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: 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 = "[NodePath] to the [Skeleton] associated with the instance."] # [doc = ""] # [inline] pub fn skeleton_path (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . get_skeleton_path ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "Sets the skin to be used by this instance."] # [doc = ""] # [inline] pub fn skin (& self) -> Option < Ref < crate :: generated :: skin :: Skin , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . get_skin ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: skin :: Skin , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the [Material] for a surface of the [Mesh] resource."] # [doc = ""] # [inline] pub fn get_surface_material (& self , surface : i64) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . get_surface_material ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , surface) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: material :: Material , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of surface materials."] # [doc = ""] # [inline] pub fn get_surface_material_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . get_surface_material_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_software_skinning_transform_normals_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . is_software_skinning_transform_normals_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [Mesh] resource for the instance."] # [doc = ""] # [inline] pub fn set_mesh (& self , mesh : impl AsArg < crate :: generated :: mesh :: Mesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . set_mesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , mesh . as_arg_ptr ()) ; } } # [doc = "[NodePath] to the [Skeleton] associated with the instance."] # [doc = ""] # [inline] pub fn set_skeleton_path (& self , skeleton_path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . set_skeleton_path ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , skeleton_path . into ()) ; } } # [doc = "Sets the skin to be used by this instance."] # [doc = ""] # [inline] pub fn set_skin (& self , skin : impl AsArg < crate :: generated :: skin :: Skin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . set_skin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , skin . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_software_skinning_transform_normals (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . set_software_skinning_transform_normals ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Sets the [Material] for a surface of the [Mesh] resource."] # [doc = ""] # [inline] pub fn set_surface_material (& self , surface : i64 , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshInstanceMethodTable :: get (get_api ()) . set_surface_material ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , surface , material . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for MeshInstance { } unsafe impl GodotObject for MeshInstance { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "MeshInstance" } } impl QueueFree for MeshInstance { # [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 MeshInstance { 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 MeshInstance { # [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 MeshInstance { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for MeshInstance { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for MeshInstance { } unsafe impl SubClass < crate :: generated :: node :: Node > for MeshInstance { } unsafe impl SubClass < crate :: generated :: object :: Object > for MeshInstance { } impl Instanciable for MeshInstance { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MeshInstance :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MeshInstanceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub create_convex_collision : * mut sys :: godot_method_bind , pub create_debug_tangents : * mut sys :: godot_method_bind , pub create_trimesh_collision : * mut sys :: godot_method_bind , pub get_active_material : * mut sys :: godot_method_bind , pub get_mesh : * mut sys :: godot_method_bind , pub get_skeleton_path : * mut sys :: godot_method_bind , pub get_skin : * mut sys :: godot_method_bind , pub get_surface_material : * mut sys :: godot_method_bind , pub get_surface_material_count : * mut sys :: godot_method_bind , pub is_software_skinning_transform_normals_enabled : * mut sys :: godot_method_bind , pub set_mesh : * mut sys :: godot_method_bind , pub set_skeleton_path : * mut sys :: godot_method_bind , pub set_skin : * mut sys :: godot_method_bind , pub set_software_skinning_transform_normals : * mut sys :: godot_method_bind , pub set_surface_material : * mut sys :: godot_method_bind } impl MeshInstanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MeshInstanceMethodTable = MeshInstanceMethodTable { class_constructor : None , create_convex_collision : 0 as * mut sys :: godot_method_bind , create_debug_tangents : 0 as * mut sys :: godot_method_bind , create_trimesh_collision : 0 as * mut sys :: godot_method_bind , get_active_material : 0 as * mut sys :: godot_method_bind , get_mesh : 0 as * mut sys :: godot_method_bind , get_skeleton_path : 0 as * mut sys :: godot_method_bind , get_skin : 0 as * mut sys :: godot_method_bind , get_surface_material : 0 as * mut sys :: godot_method_bind , get_surface_material_count : 0 as * mut sys :: godot_method_bind , is_software_skinning_transform_normals_enabled : 0 as * mut sys :: godot_method_bind , set_mesh : 0 as * mut sys :: godot_method_bind , set_skeleton_path : 0 as * mut sys :: godot_method_bind , set_skin : 0 as * mut sys :: godot_method_bind , set_software_skinning_transform_normals : 0 as * mut sys :: godot_method_bind , set_surface_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 (|| { MeshInstanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MeshInstance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . create_convex_collision = (gd_api . godot_method_bind_get_method) (class_name , "create_convex_collision\0" . as_ptr () as * const c_char) ; table . create_debug_tangents = (gd_api . godot_method_bind_get_method) (class_name , "create_debug_tangents\0" . as_ptr () as * const c_char) ; table . create_trimesh_collision = (gd_api . godot_method_bind_get_method) (class_name , "create_trimesh_collision\0" . as_ptr () as * const c_char) ; table . get_active_material = (gd_api . godot_method_bind_get_method) (class_name , "get_active_material\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 . get_skeleton_path = (gd_api . godot_method_bind_get_method) (class_name , "get_skeleton_path\0" . as_ptr () as * const c_char) ; table . get_skin = (gd_api . godot_method_bind_get_method) (class_name , "get_skin\0" . as_ptr () as * const c_char) ; table . get_surface_material = (gd_api . godot_method_bind_get_method) (class_name , "get_surface_material\0" . as_ptr () as * const c_char) ; table . get_surface_material_count = (gd_api . godot_method_bind_get_method) (class_name , "get_surface_material_count\0" . as_ptr () as * const c_char) ; table . is_software_skinning_transform_normals_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_software_skinning_transform_normals_enabled\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_skeleton_path = (gd_api . godot_method_bind_get_method) (class_name , "set_skeleton_path\0" . as_ptr () as * const c_char) ; table . set_skin = (gd_api . godot_method_bind_get_method) (class_name , "set_skin\0" . as_ptr () as * const c_char) ; table . set_software_skinning_transform_normals = (gd_api . godot_method_bind_get_method) (class_name , "set_software_skinning_transform_normals\0" . as_ptr () as * const c_char) ; table . set_surface_material = (gd_api . godot_method_bind_get_method) (class_name , "set_surface_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-60c8dbcfaf0f3dfc/out/generated.rs:1012:4051 [INFO] [stdout] | [INFO] [stdout] 1012 | ...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] 1012 | # [doc = "`core class VisualShaderNodeScalarSwitch` inherits `VisualShaderNodeSwitch` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodescalarswitch.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\nVisualShaderNodeScalarSwitch inherits methods from:\n - [VisualShaderNodeSwitch](struct.VisualShaderNodeSwitch.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 VisualShaderNodeScalarSwitch { this : RawObject < Self > , } impl VisualShaderNodeScalarSwitch { # [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 = VisualShaderNodeScalarSwitchMethodTable :: 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 VisualShaderNodeScalarSwitch { } unsafe impl GodotObject for VisualShaderNodeScalarSwitch { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeScalarSwitch" } } impl std :: ops :: Deref for VisualShaderNodeScalarSwitch { type Target = crate :: generated :: visual_shader_node_switch :: VisualShaderNodeSwitch ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node_switch :: VisualShaderNodeSwitch { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeScalarSwitch { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node_switch :: VisualShaderNodeSwitch { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node_switch :: VisualShaderNodeSwitch > for VisualShaderNodeScalarSwitch { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeScalarSwitch { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeScalarSwitch { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeScalarSwitch { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeScalarSwitch { } impl Instanciable for VisualShaderNodeScalarSwitch { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeScalarSwitch :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeScalarSwitchMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeScalarSwitchMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeScalarSwitchMethodTable = VisualShaderNodeScalarSwitchMethodTable { 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 (|| { VisualShaderNodeScalarSwitchMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeScalarSwitch\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-60c8dbcfaf0f3dfc/out/generated.rs:1018:4411 [INFO] [stdout] | [INFO] [stdout] 1018 | ...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] 1018 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1024:4656 [INFO] [stdout] | [INFO] [stdout] 1024 | ...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] 1024 | # [doc = "`core class CSGCombiner` inherits `CSGShape` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_csgcombiner.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`CSGCombiner` 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\nCSGCombiner inherits methods from:\n - [CSGShape](struct.CSGShape.html)\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 CSGCombiner { this : RawObject < Self > , } impl CSGCombiner { # [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 = CSGCombinerMethodTable :: 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 CSGCombiner { } unsafe impl GodotObject for CSGCombiner { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CSGCombiner" } } impl QueueFree for CSGCombiner { # [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 CSGCombiner { type Target = crate :: generated :: csg_shape :: CSGShape ; # [inline] fn deref (& self) -> & crate :: generated :: csg_shape :: CSGShape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CSGCombiner { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: csg_shape :: CSGShape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: csg_shape :: CSGShape > for CSGCombiner { } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for CSGCombiner { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for CSGCombiner { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CSGCombiner { } unsafe impl SubClass < crate :: generated :: node :: Node > for CSGCombiner { } unsafe impl SubClass < crate :: generated :: object :: Object > for CSGCombiner { } impl Instanciable for CSGCombiner { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CSGCombiner :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CSGCombinerMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl CSGCombinerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CSGCombinerMethodTable = CSGCombinerMethodTable { 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 (|| { CSGCombinerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CSGCombiner\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-60c8dbcfaf0f3dfc/out/generated.rs:1030:5245 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:1042:10863 [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 Resource` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_resource.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\nResource 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 Resource { this : RawObject < Self > , } impl Resource { # [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 = ResourceMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Duplicates the resource, returning a new resource. By default, sub-resources are shared between resource copies for efficiency. This can be changed by passing `true` to the `subresources` argument which will copy the subresources.\n**Note:** If `subresources` is `true`, this method will only perform a shallow copy. Nested resources within subresources will not be duplicated and will still be shared.\n# Default Arguments\n* `subresources` - `false`"] # [doc = ""] # [inline] pub fn duplicate (& self , subresources : bool) -> Option < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . duplicate ; let ret = crate :: icalls :: icallptr_obj_bool (method_bind , self . this . sys () . as_ptr () , subresources) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: resource :: Resource , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn emit_changed (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . emit_changed ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If [member resource_local_to_scene] is enabled and the resource was loaded from a [PackedScene] instantiation, returns the local scene where this resource's unique copy is in use. Otherwise, returns `null`."] # [doc = ""] # [inline] pub fn get_local_scene (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . get_local_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 name of the resource. This is an optional identifier."] # [doc = ""] # [inline] pub fn name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . get_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The path to the resource. In case it has its own file, it will return its filepath. If it's tied to the scene, it will return the scene's path, followed by the resource's index."] # [doc = ""] # [inline] pub fn path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: 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 RID of the resource (or an empty RID). Many resources (such as [Texture], [Mesh], etc) are high-level abstractions of resources stored in a server, so this function will return the original RID."] # [doc = ""] # [inline] pub fn get_rid (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . get_rid ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "If `true`, the resource will be made unique in each instance of its local scene. It can thus be modified in a scene instance without impacting other instances of that same scene."] # [doc = ""] # [inline] pub fn is_local_to_scene (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . is_local_to_scene ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the resource will be made unique in each instance of its local scene. It can thus be modified in a scene instance without impacting other instances of that same scene."] # [doc = ""] # [inline] pub fn set_local_to_scene (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . set_local_to_scene ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The name of the resource. This is an optional identifier."] # [doc = ""] # [inline] pub fn set_name (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . set_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "The path to the resource. In case it has its own file, it will return its filepath. If it's tied to the scene, it will return the scene's path, followed by the resource's index."] # [doc = ""] # [inline] pub fn set_path (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . set_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "This method is called when a resource with [member resource_local_to_scene] enabled is loaded from a [PackedScene] instantiation. Its behavior can be customized by overriding [method _setup_local_to_scene] from script.\nFor most resources, this method performs no base logic. [ViewportTexture] performs custom logic to properly set the proxy texture and flags in the local viewport."] # [doc = ""] # [inline] pub fn setup_local_to_scene (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . setup_local_to_scene ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sets the path of the resource, potentially overriding an existing cache entry for this path. This differs from setting [member resource_path], as the latter would error out if another resource was already cached for the given path."] # [doc = ""] # [inline] pub fn take_over_path (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ResourceMethodTable :: get (get_api ()) . take_over_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Resource { } unsafe impl GodotObject for Resource { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Resource" } } impl std :: ops :: Deref for Resource { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Resource { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Resource { } unsafe impl SubClass < crate :: generated :: object :: Object > for Resource { } impl Instanciable for Resource { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Resource :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ResourceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub duplicate : * mut sys :: godot_method_bind , pub emit_changed : * mut sys :: godot_method_bind , pub get_local_scene : * mut sys :: godot_method_bind , pub get_name : * mut sys :: godot_method_bind , pub get_path : * mut sys :: godot_method_bind , pub get_rid : * mut sys :: godot_method_bind , pub is_local_to_scene : * mut sys :: godot_method_bind , pub set_local_to_scene : * mut sys :: godot_method_bind , pub set_name : * mut sys :: godot_method_bind , pub set_path : * mut sys :: godot_method_bind , pub setup_local_to_scene : * mut sys :: godot_method_bind , pub take_over_path : * mut sys :: godot_method_bind } impl ResourceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ResourceMethodTable = ResourceMethodTable { class_constructor : None , duplicate : 0 as * mut sys :: godot_method_bind , emit_changed : 0 as * mut sys :: godot_method_bind , get_local_scene : 0 as * mut sys :: godot_method_bind , get_name : 0 as * mut sys :: godot_method_bind , get_path : 0 as * mut sys :: godot_method_bind , get_rid : 0 as * mut sys :: godot_method_bind , is_local_to_scene : 0 as * mut sys :: godot_method_bind , set_local_to_scene : 0 as * mut sys :: godot_method_bind , set_name : 0 as * mut sys :: godot_method_bind , set_path : 0 as * mut sys :: godot_method_bind , setup_local_to_scene : 0 as * mut sys :: godot_method_bind , take_over_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 (|| { ResourceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Resource\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . duplicate = (gd_api . godot_method_bind_get_method) (class_name , "duplicate\0" . as_ptr () as * const c_char) ; table . emit_changed = (gd_api . godot_method_bind_get_method) (class_name , "emit_changed\0" . as_ptr () as * const c_char) ; table . get_local_scene = (gd_api . godot_method_bind_get_method) (class_name , "get_local_scene\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_path = (gd_api . godot_method_bind_get_method) (class_name , "get_path\0" . as_ptr () as * const c_char) ; table . get_rid = (gd_api . godot_method_bind_get_method) (class_name , "get_rid\0" . as_ptr () as * const c_char) ; table . is_local_to_scene = (gd_api . godot_method_bind_get_method) (class_name , "is_local_to_scene\0" . as_ptr () as * const c_char) ; table . set_local_to_scene = (gd_api . godot_method_bind_get_method) (class_name , "set_local_to_scene\0" . as_ptr () as * const c_char) ; table . set_name = (gd_api . godot_method_bind_get_method) (class_name , "set_name\0" . as_ptr () as * const c_char) ; table . set_path = (gd_api . godot_method_bind_get_method) (class_name , "set_path\0" . as_ptr () as * const c_char) ; table . setup_local_to_scene = (gd_api . godot_method_bind_get_method) (class_name , "setup_local_to_scene\0" . as_ptr () as * const c_char) ; table . take_over_path = (gd_api . godot_method_bind_get_method) (class_name , "take_over_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-60c8dbcfaf0f3dfc/out/generated.rs:1048:9385 [INFO] [stdout] | [INFO] [stdout] 1048 | ... : 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] 1048 | # [doc = "`core class AudioEffectDistortion` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectdistortion.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\nAudioEffectDistortion 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 AudioEffectDistortion { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Mode (pub i64) ; impl Mode { pub const CLIP : Mode = Mode (0i64) ; pub const ATAN : Mode = Mode (1i64) ; pub const LOFI : Mode = Mode (2i64) ; pub const OVERDRIVE : Mode = Mode (3i64) ; pub const WAVESHAPE : Mode = Mode (4i64) ; } 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 AudioEffectDistortion { pub const MODE_ATAN : i64 = 1i64 ; pub const MODE_CLIP : i64 = 0i64 ; pub const MODE_LOFI : i64 = 2i64 ; pub const MODE_OVERDRIVE : i64 = 3i64 ; pub const MODE_WAVESHAPE : i64 = 4i64 ; } impl AudioEffectDistortion { # [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 = AudioEffectDistortionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Distortion power. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn drive (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . get_drive ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "High-pass filter, in Hz. Frequencies higher than this value will not be affected by the distortion. Value can range from 1 to 20000."] # [doc = ""] # [inline] pub fn keep_hf_hz (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . get_keep_hf_hz ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Distortion type."] # [doc = ""] # [inline] pub fn mode (& self) -> crate :: generated :: audio_effect_distortion :: Mode { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . get_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: audio_effect_distortion :: Mode (ret) } } # [doc = "Increases or decreases the volume after the effect. Value can range from -80 to 24."] # [doc = ""] # [inline] pub fn post_gain (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . get_post_gain ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Increases or decreases the volume before the effect. Value can range from -60 to 60."] # [doc = ""] # [inline] pub fn pre_gain (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . get_pre_gain ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Distortion power. Value can range from 0 to 1."] # [doc = ""] # [inline] pub fn set_drive (& self , drive : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . set_drive ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , drive) ; } } # [doc = "High-pass filter, in Hz. Frequencies higher than this value will not be affected by the distortion. Value can range from 1 to 20000."] # [doc = ""] # [inline] pub fn set_keep_hf_hz (& self , keep_hf_hz : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . set_keep_hf_hz ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , keep_hf_hz) ; } } # [doc = "Distortion type."] # [doc = ""] # [inline] pub fn set_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . set_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Increases or decreases the volume after the effect. Value can range from -80 to 24."] # [doc = ""] # [inline] pub fn set_post_gain (& self , post_gain : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . set_post_gain ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , post_gain) ; } } # [doc = "Increases or decreases the volume before the effect. Value can range from -60 to 60."] # [doc = ""] # [inline] pub fn set_pre_gain (& self , pre_gain : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectDistortionMethodTable :: get (get_api ()) . set_pre_gain ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , pre_gain) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectDistortion { } unsafe impl GodotObject for AudioEffectDistortion { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectDistortion" } } impl std :: ops :: Deref for AudioEffectDistortion { 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 AudioEffectDistortion { # [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 AudioEffectDistortion { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectDistortion { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectDistortion { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectDistortion { } impl Instanciable for AudioEffectDistortion { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectDistortion :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectDistortionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_drive : * mut sys :: godot_method_bind , pub get_keep_hf_hz : * mut sys :: godot_method_bind , pub get_mode : * mut sys :: godot_method_bind , pub get_post_gain : * mut sys :: godot_method_bind , pub get_pre_gain : * mut sys :: godot_method_bind , pub set_drive : * mut sys :: godot_method_bind , pub set_keep_hf_hz : * mut sys :: godot_method_bind , pub set_mode : * mut sys :: godot_method_bind , pub set_post_gain : * mut sys :: godot_method_bind , pub set_pre_gain : * mut sys :: godot_method_bind } impl AudioEffectDistortionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectDistortionMethodTable = AudioEffectDistortionMethodTable { class_constructor : None , get_drive : 0 as * mut sys :: godot_method_bind , get_keep_hf_hz : 0 as * mut sys :: godot_method_bind , get_mode : 0 as * mut sys :: godot_method_bind , get_post_gain : 0 as * mut sys :: godot_method_bind , get_pre_gain : 0 as * mut sys :: godot_method_bind , set_drive : 0 as * mut sys :: godot_method_bind , set_keep_hf_hz : 0 as * mut sys :: godot_method_bind , set_mode : 0 as * mut sys :: godot_method_bind , set_post_gain : 0 as * mut sys :: godot_method_bind , set_pre_gain : 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 (|| { AudioEffectDistortionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectDistortion\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_drive = (gd_api . godot_method_bind_get_method) (class_name , "get_drive\0" . as_ptr () as * const c_char) ; table . get_keep_hf_hz = (gd_api . godot_method_bind_get_method) (class_name , "get_keep_hf_hz\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_post_gain = (gd_api . godot_method_bind_get_method) (class_name , "get_post_gain\0" . as_ptr () as * const c_char) ; table . get_pre_gain = (gd_api . godot_method_bind_get_method) (class_name , "get_pre_gain\0" . as_ptr () as * const c_char) ; table . set_drive = (gd_api . godot_method_bind_get_method) (class_name , "set_drive\0" . as_ptr () as * const c_char) ; table . set_keep_hf_hz = (gd_api . godot_method_bind_get_method) (class_name , "set_keep_hf_hz\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_post_gain = (gd_api . godot_method_bind_get_method) (class_name , "set_post_gain\0" . as_ptr () as * const c_char) ; table . set_pre_gain = (gd_api . godot_method_bind_get_method) (class_name , "set_pre_gain\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-60c8dbcfaf0f3dfc/out/generated.rs:1054:8941 [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 = "`core class Gradient` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_gradient.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\nGradient 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 Gradient { this : RawObject < Self > , } impl Gradient { # [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 = GradientMethodTable :: 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 color to the end of the ramp, with the specified offset."] # [doc = ""] # [inline] pub fn add_point (& self , offset : f64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . add_point ; let ret = crate :: icalls :: icallptr_void_f64_color (method_bind , self . this . sys () . as_ptr () , offset , color) ; } } # [doc = "Returns the color of the ramp color at index `point`."] # [doc = ""] # [inline] pub fn get_color (& self , point : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , point) ; mem :: transmute (ret) } } # [doc = "Gradient's colors returned as a [PoolColorArray]."] # [doc = ""] # [inline] pub fn colors (& self) -> ColorArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . get_colors ; let ret = crate :: icalls :: icallptr_colorarr (method_bind , self . this . sys () . as_ptr ()) ; ColorArray :: from_sys (ret) } } # [doc = "Returns the offset of the ramp color at index `point`."] # [doc = ""] # [inline] pub fn get_offset (& self , point : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , point) ; ret as _ } } # [doc = "Gradient's offsets returned as a [PoolRealArray]."] # [doc = ""] # [inline] pub fn offsets (& self) -> Float32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . get_offsets ; let ret = crate :: icalls :: icallptr_f32arr (method_bind , self . this . sys () . as_ptr ()) ; Float32Array :: from_sys (ret) } } # [doc = "Returns the number of colors in the ramp."] # [doc = ""] # [inline] pub fn get_point_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . get_point_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the interpolated color specified by `offset`."] # [doc = ""] # [inline] pub fn interpolate (& self , offset : f64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . interpolate ; let ret = crate :: icalls :: icallptr_color_f64 (method_bind , self . this . sys () . as_ptr () , offset) ; mem :: transmute (ret) } } # [doc = "Removes the color at the index `offset`."] # [doc = ""] # [inline] pub fn remove_point (& self , point : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . remove_point ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , point) ; } } # [doc = "Sets the color of the ramp color at index `point`."] # [doc = ""] # [inline] pub fn set_color (& self , point : i64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_i64_color (method_bind , self . this . sys () . as_ptr () , point , color) ; } } # [doc = "Gradient's colors returned as a [PoolColorArray]."] # [doc = ""] # [inline] pub fn set_colors (& self , colors : ColorArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . set_colors ; let ret = crate :: icalls :: icallptr_void_colorarr (method_bind , self . this . sys () . as_ptr () , colors) ; } } # [doc = "Sets the offset for the ramp color at index `point`."] # [doc = ""] # [inline] pub fn set_offset (& self , point : i64 , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , point , offset) ; } } # [doc = "Gradient's offsets returned as a [PoolRealArray]."] # [doc = ""] # [inline] pub fn set_offsets (& self , offsets : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GradientMethodTable :: get (get_api ()) . set_offsets ; let ret = crate :: icalls :: icallptr_void_f32arr (method_bind , self . this . sys () . as_ptr () , offsets) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Gradient { } unsafe impl GodotObject for Gradient { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Gradient" } } impl std :: ops :: Deref for Gradient { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Gradient { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Gradient { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Gradient { } unsafe impl SubClass < crate :: generated :: object :: Object > for Gradient { } impl Instanciable for Gradient { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Gradient :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GradientMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_point : * mut sys :: godot_method_bind , pub get_color : * mut sys :: godot_method_bind , pub get_colors : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_offsets : * mut sys :: godot_method_bind , pub get_point_count : * mut sys :: godot_method_bind , pub interpolate : * mut sys :: godot_method_bind , pub remove_point : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_colors : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_offsets : * mut sys :: godot_method_bind } impl GradientMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GradientMethodTable = GradientMethodTable { class_constructor : None , add_point : 0 as * mut sys :: godot_method_bind , get_color : 0 as * mut sys :: godot_method_bind , get_colors : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_offsets : 0 as * mut sys :: godot_method_bind , get_point_count : 0 as * mut sys :: godot_method_bind , interpolate : 0 as * mut sys :: godot_method_bind , remove_point : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_colors : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_offsets : 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 (|| { GradientMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Gradient\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 . get_color = (gd_api . godot_method_bind_get_method) (class_name , "get_color\0" . as_ptr () as * const c_char) ; table . get_colors = (gd_api . godot_method_bind_get_method) (class_name , "get_colors\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_offsets = (gd_api . godot_method_bind_get_method) (class_name , "get_offsets\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 . interpolate = (gd_api . godot_method_bind_get_method) (class_name , "interpolate\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_color = (gd_api . godot_method_bind_get_method) (class_name , "set_color\0" . as_ptr () as * const c_char) ; table . set_colors = (gd_api . godot_method_bind_get_method) (class_name , "set_colors\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_offsets = (gd_api . godot_method_bind_get_method) (class_name , "set_offsets\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-60c8dbcfaf0f3dfc/out/generated.rs:1060:4275 [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 BoxShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_boxshape.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\nBoxShape 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 BoxShape { this : RawObject < Self > , } impl BoxShape { # [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 = BoxShapeMethodTable :: 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 box's half extents. The width, height and depth of this shape is twice the half extents."] # [doc = ""] # [inline] pub fn extents (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = BoxShapeMethodTable :: get (get_api ()) . get_extents ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The box's half extents. The width, height and depth of this shape is twice the half extents."] # [doc = ""] # [inline] pub fn set_extents (& self , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = BoxShapeMethodTable :: get (get_api ()) . set_extents ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , extents) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for BoxShape { } unsafe impl GodotObject for BoxShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "BoxShape" } } impl std :: ops :: Deref for BoxShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for BoxShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for BoxShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for BoxShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for BoxShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for BoxShape { } impl Instanciable for BoxShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { BoxShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct BoxShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_extents : * mut sys :: godot_method_bind , pub set_extents : * mut sys :: godot_method_bind } impl BoxShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : BoxShapeMethodTable = BoxShapeMethodTable { class_constructor : None , get_extents : 0 as * mut sys :: godot_method_bind , set_extents : 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 (|| { BoxShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "BoxShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_extents = (gd_api . godot_method_bind_get_method) (class_name , "get_extents\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) ; } } } [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-60c8dbcfaf0f3dfc/out/generated.rs:1072:5629 [INFO] [stdout] | [INFO] [stdout] 1072 | ... : 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] 1072 | # [doc = "`core class SpatialVelocityTracker` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_spatialvelocitytracker.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\nSpatialVelocityTracker 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 SpatialVelocityTracker { this : RawObject < Self > , } impl SpatialVelocityTracker { # [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 = SpatialVelocityTrackerMethodTable :: 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_tracked_linear_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialVelocityTrackerMethodTable :: get (get_api ()) . get_tracked_linear_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn is_tracking_physics_step (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialVelocityTrackerMethodTable :: get (get_api ()) . is_tracking_physics_step ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn reset (& self , position : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialVelocityTrackerMethodTable :: get (get_api ()) . reset ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_track_physics_step (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialVelocityTrackerMethodTable :: get (get_api ()) . set_track_physics_step ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn update_position (& self , position : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpatialVelocityTrackerMethodTable :: get (get_api ()) . update_position ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , position) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SpatialVelocityTracker { } unsafe impl GodotObject for SpatialVelocityTracker { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "SpatialVelocityTracker" } } impl std :: ops :: Deref for SpatialVelocityTracker { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SpatialVelocityTracker { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for SpatialVelocityTracker { } unsafe impl SubClass < crate :: generated :: object :: Object > for SpatialVelocityTracker { } impl Instanciable for SpatialVelocityTracker { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SpatialVelocityTracker :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SpatialVelocityTrackerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_tracked_linear_velocity : * mut sys :: godot_method_bind , pub is_tracking_physics_step : * mut sys :: godot_method_bind , pub reset : * mut sys :: godot_method_bind , pub set_track_physics_step : * mut sys :: godot_method_bind , pub update_position : * mut sys :: godot_method_bind } impl SpatialVelocityTrackerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SpatialVelocityTrackerMethodTable = SpatialVelocityTrackerMethodTable { class_constructor : None , get_tracked_linear_velocity : 0 as * mut sys :: godot_method_bind , is_tracking_physics_step : 0 as * mut sys :: godot_method_bind , reset : 0 as * mut sys :: godot_method_bind , set_track_physics_step : 0 as * mut sys :: godot_method_bind , update_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 (|| { SpatialVelocityTrackerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SpatialVelocityTracker\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_tracked_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_tracked_linear_velocity\0" . as_ptr () as * const c_char) ; table . is_tracking_physics_step = (gd_api . godot_method_bind_get_method) (class_name , "is_tracking_physics_step\0" . as_ptr () as * const c_char) ; table . reset = (gd_api . godot_method_bind_get_method) (class_name , "reset\0" . as_ptr () as * const c_char) ; table . set_track_physics_step = (gd_api . godot_method_bind_get_method) (class_name , "set_track_physics_step\0" . as_ptr () as * const c_char) ; table . update_position = (gd_api . godot_method_bind_get_method) (class_name , "update_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-60c8dbcfaf0f3dfc/out/generated.rs:1078:8440 [INFO] [stdout] | [INFO] [stdout] 1078 | ... : 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] 1078 | # [doc = "`core class StyleBoxLine` inherits `StyleBox` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_styleboxline.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\nStyleBoxLine 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 StyleBoxLine { this : RawObject < Self > , } impl StyleBoxLine { # [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 = StyleBoxLineMethodTable :: 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 line's color."] # [doc = ""] # [inline] pub fn color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The number of pixels the line will extend before the [StyleBoxLine]'s bounds. If set to a negative value, the line will begin inside the [StyleBoxLine]'s bounds."] # [doc = ""] # [inline] pub fn grow_begin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . get_grow_begin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The number of pixels the line will extend past the [StyleBoxLine]'s bounds. If set to a negative value, the line will end inside the [StyleBoxLine]'s bounds."] # [doc = ""] # [inline] pub fn grow_end (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . get_grow_end ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The line's thickness in pixels."] # [doc = ""] # [inline] pub fn thickness (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . get_thickness ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the line will be vertical. If `false`, the line will be horizontal."] # [doc = ""] # [inline] pub fn is_vertical (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . is_vertical ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The line's color."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The number of pixels the line will extend before the [StyleBoxLine]'s bounds. If set to a negative value, the line will begin inside the [StyleBoxLine]'s bounds."] # [doc = ""] # [inline] pub fn set_grow_begin (& self , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . set_grow_begin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The number of pixels the line will extend past the [StyleBoxLine]'s bounds. If set to a negative value, the line will end inside the [StyleBoxLine]'s bounds."] # [doc = ""] # [inline] pub fn set_grow_end (& self , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . set_grow_end ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The line's thickness in pixels."] # [doc = ""] # [inline] pub fn set_thickness (& self , thickness : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . set_thickness ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , thickness) ; } } # [doc = "If `true`, the line will be vertical. If `false`, the line will be horizontal."] # [doc = ""] # [inline] pub fn set_vertical (& self , vertical : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StyleBoxLineMethodTable :: get (get_api ()) . set_vertical ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , vertical) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for StyleBoxLine { } unsafe impl GodotObject for StyleBoxLine { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StyleBoxLine" } } impl std :: ops :: Deref for StyleBoxLine { 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 StyleBoxLine { # [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 StyleBoxLine { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for StyleBoxLine { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StyleBoxLine { } unsafe impl SubClass < crate :: generated :: object :: Object > for StyleBoxLine { } impl Instanciable for StyleBoxLine { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StyleBoxLine :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StyleBoxLineMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_color : * mut sys :: godot_method_bind , pub get_grow_begin : * mut sys :: godot_method_bind , pub get_grow_end : * mut sys :: godot_method_bind , pub get_thickness : * mut sys :: godot_method_bind , pub is_vertical : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_grow_begin : * mut sys :: godot_method_bind , pub set_grow_end : * mut sys :: godot_method_bind , pub set_thickness : * mut sys :: godot_method_bind , pub set_vertical : * mut sys :: godot_method_bind } impl StyleBoxLineMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StyleBoxLineMethodTable = StyleBoxLineMethodTable { class_constructor : None , get_color : 0 as * mut sys :: godot_method_bind , get_grow_begin : 0 as * mut sys :: godot_method_bind , get_grow_end : 0 as * mut sys :: godot_method_bind , get_thickness : 0 as * mut sys :: godot_method_bind , is_vertical : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_grow_begin : 0 as * mut sys :: godot_method_bind , set_grow_end : 0 as * mut sys :: godot_method_bind , set_thickness : 0 as * mut sys :: godot_method_bind , set_vertical : 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 (|| { StyleBoxLineMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StyleBoxLine\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_color = (gd_api . godot_method_bind_get_method) (class_name , "get_color\0" . as_ptr () as * const c_char) ; table . get_grow_begin = (gd_api . godot_method_bind_get_method) (class_name , "get_grow_begin\0" . as_ptr () as * const c_char) ; table . get_grow_end = (gd_api . godot_method_bind_get_method) (class_name , "get_grow_end\0" . as_ptr () as * const c_char) ; table . get_thickness = (gd_api . godot_method_bind_get_method) (class_name , "get_thickness\0" . as_ptr () as * const c_char) ; table . is_vertical = (gd_api . godot_method_bind_get_method) (class_name , "is_vertical\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_grow_begin = (gd_api . godot_method_bind_get_method) (class_name , "set_grow_begin\0" . as_ptr () as * const c_char) ; table . set_grow_end = (gd_api . godot_method_bind_get_method) (class_name , "set_grow_end\0" . as_ptr () as * const c_char) ; table . set_thickness = (gd_api . godot_method_bind_get_method) (class_name , "set_thickness\0" . as_ptr () as * const c_char) ; table . set_vertical = (gd_api . godot_method_bind_get_method) (class_name , "set_vertical\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-60c8dbcfaf0f3dfc/out/generated.rs:1084:4452 [INFO] [stdout] | [INFO] [stdout] 1084 | ... : 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] 1084 | # [doc = "`core class VisualScriptSequence` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptsequence.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\nVisualScriptSequence 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 VisualScriptSequence { this : RawObject < Self > , } impl VisualScriptSequence { # [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 = VisualScriptSequenceMethodTable :: 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 steps (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptSequenceMethodTable :: get (get_api ()) . get_steps ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_steps (& self , steps : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptSequenceMethodTable :: get (get_api ()) . set_steps ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , steps) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptSequence { } unsafe impl GodotObject for VisualScriptSequence { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptSequence" } } impl std :: ops :: Deref for VisualScriptSequence { 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 VisualScriptSequence { # [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 VisualScriptSequence { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptSequence { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptSequence { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptSequence { } impl Instanciable for VisualScriptSequence { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptSequence :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptSequenceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_steps : * mut sys :: godot_method_bind , pub set_steps : * mut sys :: godot_method_bind } impl VisualScriptSequenceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptSequenceMethodTable = VisualScriptSequenceMethodTable { class_constructor : None , get_steps : 0 as * mut sys :: godot_method_bind , set_steps : 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 (|| { VisualScriptSequenceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptSequence\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_steps = (gd_api . godot_method_bind_get_method) (class_name , "get_steps\0" . as_ptr () as * const c_char) ; table . set_steps = (gd_api . godot_method_bind_get_method) (class_name , "set_steps\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-60c8dbcfaf0f3dfc/out/generated.rs:1090:3574 [INFO] [stdout] | [INFO] [stdout] 1090 | ...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] 1090 | # [doc = "`core class VisualScriptWhile` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptwhile.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\nVisualScriptWhile 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 VisualScriptWhile { this : RawObject < Self > , } impl VisualScriptWhile { # [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 = VisualScriptWhileMethodTable :: 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 VisualScriptWhile { } unsafe impl GodotObject for VisualScriptWhile { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptWhile" } } impl std :: ops :: Deref for VisualScriptWhile { 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 VisualScriptWhile { # [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 VisualScriptWhile { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptWhile { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptWhile { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptWhile { } impl Instanciable for VisualScriptWhile { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptWhile :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptWhileMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptWhileMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptWhileMethodTable = VisualScriptWhileMethodTable { 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 (|| { VisualScriptWhileMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptWhile\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-60c8dbcfaf0f3dfc/out/generated.rs:1096:23002 [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 Theme` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_theme.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\nTheme 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 Theme { this : RawObject < Self > , } impl Theme { # [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 = ThemeMethodTable :: 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 values on the theme."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Clears the [Color] at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn clear_color (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . clear_color ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; } } # [doc = "Clears the constant at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn clear_constant (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . clear_constant ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; } } # [doc = "Clears the [Font] at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn clear_font (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . clear_font ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; } } # [doc = "Clears the icon at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn clear_icon (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . clear_icon ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; } } # [doc = "Clears [StyleBox] at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn clear_stylebox (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . clear_stylebox ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; } } # [doc = "Sets the theme's values to a copy of the default theme values."] # [doc = ""] # [inline] pub fn copy_default_theme (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . copy_default_theme ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sets the theme's values to a copy of a given theme."] # [doc = ""] # [inline] pub fn copy_theme (& self , other : impl AsArg < crate :: generated :: theme :: Theme >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . copy_theme ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , other . as_arg_ptr ()) ; } } # [doc = "Returns the [Color] at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn get_color (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; mem :: transmute (ret) } } # [doc = "Returns all the [Color]s as a [PoolStringArray] filled with each [Color]'s name, for use in [method get_color], if the theme has `type`."] # [doc = ""] # [inline] pub fn get_color_list (& self , node_type : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_color_list ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , node_type . into ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the constant at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn get_constant (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_constant ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns all the constants as a [PoolStringArray] filled with each constant's name, for use in [method get_constant], if the theme has `type`."] # [doc = ""] # [inline] pub fn get_constant_list (& self , node_type : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_constant_list ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , node_type . into ()) ; StringArray :: from_sys (ret) } } # [doc = "The theme's default font."] # [doc = ""] # [inline] pub fn default_font (& self) -> Option < Ref < crate :: generated :: font :: Font , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_default_font ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: font :: Font , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the [Font] at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn get_font (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Option < Ref < crate :: generated :: font :: Font , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_font ; let ret = crate :: icalls :: icallptr_obj_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: font :: Font , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns all the [Font]s as a [PoolStringArray] filled with each [Font]'s name, for use in [method get_font], if the theme has `type`."] # [doc = ""] # [inline] pub fn get_font_list (& self , node_type : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_font_list ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , node_type . into ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the icon [Texture] at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn get_icon (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_icon ; let ret = crate :: icalls :: icallptr_obj_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns all the icons as a [PoolStringArray] filled with each [Texture]'s name, for use in [method get_icon], if the theme has `type`."] # [doc = ""] # [inline] pub fn get_icon_list (& self , node_type : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_icon_list ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , node_type . into ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the icon [StyleBox] at `name` if the theme has `type`."] # [doc = ""] # [inline] pub fn get_stylebox (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Option < Ref < crate :: generated :: style_box :: StyleBox , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_stylebox ; let ret = crate :: icalls :: icallptr_obj_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: style_box :: StyleBox , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns all the [StyleBox]s as a [PoolStringArray] filled with each [StyleBox]'s name, for use in [method get_stylebox], if the theme has `type`."] # [doc = ""] # [inline] pub fn get_stylebox_list (& self , node_type : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_stylebox_list ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , node_type . into ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns all the [StyleBox] types as a [PoolStringArray] filled with each [StyleBox]'s type, for use in [method get_stylebox] and/or [method get_stylebox_list], if the theme has `type`."] # [doc = ""] # [inline] pub fn get_stylebox_types (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_stylebox_types ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns all the types in `type` as a [PoolStringArray] for use in any of the `get_*` functions, if the theme has `type`."] # [doc = ""] # [inline] pub fn get_type_list (& self , node_type : impl Into < GodotString >) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . get_type_list ; let ret = crate :: icalls :: icallptr_strarr_str (method_bind , self . this . sys () . as_ptr () , node_type . into ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns `true` if [Color] with `name` is in `type`.\nReturns `false` if the theme does not have `type`."] # [doc = ""] # [inline] pub fn has_color (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . has_color ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if constant with `name` is in `type`.\nReturns `false` if the theme does not have `type`."] # [doc = ""] # [inline] pub fn has_constant (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . has_constant ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if [Font] with `name` is in `type`.\nReturns `false` if the theme does not have `type`."] # [doc = ""] # [inline] pub fn has_font (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . has_font ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if icon [Texture] with `name` is in `type`.\nReturns `false` if the theme does not have `type`."] # [doc = ""] # [inline] pub fn has_icon (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . has_icon ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if [StyleBox] with `name` is in `type`.\nReturns `false` if the theme does not have `type`."] # [doc = ""] # [inline] pub fn has_stylebox (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . has_stylebox ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Sets the theme's [Color] to `color` at `name` in `type`.\nDoes nothing if the theme does not have `type`."] # [doc = ""] # [inline] pub fn set_color (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString > , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_str_str_color (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into () , color) ; } } # [doc = "Sets the theme's constant to `constant` at `name` in `type`.\nDoes nothing if the theme does not have `type`."] # [doc = ""] # [inline] pub fn set_constant (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString > , constant : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . set_constant ; let ret = crate :: icalls :: icallptr_void_str_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into () , constant) ; } } # [doc = "The theme's default font."] # [doc = ""] # [inline] pub fn set_default_font (& self , font : impl AsArg < crate :: generated :: font :: Font >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . set_default_font ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , font . as_arg_ptr ()) ; } } # [doc = "Sets the theme's [Font] to `font` at `name` in `type`.\nDoes nothing if the theme does not have `type`."] # [doc = ""] # [inline] pub fn set_font (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString > , font : impl AsArg < crate :: generated :: font :: Font >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . set_font ; let ret = crate :: icalls :: icallptr_void_str_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into () , font . as_arg_ptr ()) ; } } # [doc = "Sets the theme's icon [Texture] to `texture` at `name` in `type`.\nDoes nothing if the theme does not have `type`."] # [doc = ""] # [inline] pub fn set_icon (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString > , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . set_icon ; let ret = crate :: icalls :: icallptr_void_str_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into () , texture . as_arg_ptr ()) ; } } # [doc = "Sets theme's [StyleBox] to `stylebox` at `name` in `type`.\nDoes nothing if the theme does not have `type`."] # [doc = ""] # [inline] pub fn set_stylebox (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString > , texture : impl AsArg < crate :: generated :: style_box :: StyleBox >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ThemeMethodTable :: get (get_api ()) . set_stylebox ; let ret = crate :: icalls :: icallptr_void_str_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into () , texture . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Theme { } unsafe impl GodotObject for Theme { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Theme" } } impl std :: ops :: Deref for Theme { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Theme { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Theme { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Theme { } unsafe impl SubClass < crate :: generated :: object :: Object > for Theme { } impl Instanciable for Theme { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Theme :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ThemeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub clear : * mut sys :: godot_method_bind , pub clear_color : * mut sys :: godot_method_bind , pub clear_constant : * mut sys :: godot_method_bind , pub clear_font : * mut sys :: godot_method_bind , pub clear_icon : * mut sys :: godot_method_bind , pub clear_stylebox : * mut sys :: godot_method_bind , pub copy_default_theme : * mut sys :: godot_method_bind , pub copy_theme : * mut sys :: godot_method_bind , pub get_color : * mut sys :: godot_method_bind , pub get_color_list : * mut sys :: godot_method_bind , pub get_constant : * mut sys :: godot_method_bind , pub get_constant_list : * mut sys :: godot_method_bind , pub get_default_font : * mut sys :: godot_method_bind , pub get_font : * mut sys :: godot_method_bind , pub get_font_list : * mut sys :: godot_method_bind , pub get_icon : * mut sys :: godot_method_bind , pub get_icon_list : * mut sys :: godot_method_bind , pub get_stylebox : * mut sys :: godot_method_bind , pub get_stylebox_list : * mut sys :: godot_method_bind , pub get_stylebox_types : * mut sys :: godot_method_bind , pub get_type_list : * mut sys :: godot_method_bind , pub has_color : * mut sys :: godot_method_bind , pub has_constant : * mut sys :: godot_method_bind , pub has_font : * mut sys :: godot_method_bind , pub has_icon : * mut sys :: godot_method_bind , pub has_stylebox : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_constant : * mut sys :: godot_method_bind , pub set_default_font : * mut sys :: godot_method_bind , pub set_font : * mut sys :: godot_method_bind , pub set_icon : * mut sys :: godot_method_bind , pub set_stylebox : * mut sys :: godot_method_bind } impl ThemeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ThemeMethodTable = ThemeMethodTable { class_constructor : None , clear : 0 as * mut sys :: godot_method_bind , clear_color : 0 as * mut sys :: godot_method_bind , clear_constant : 0 as * mut sys :: godot_method_bind , clear_font : 0 as * mut sys :: godot_method_bind , clear_icon : 0 as * mut sys :: godot_method_bind , clear_stylebox : 0 as * mut sys :: godot_method_bind , copy_default_theme : 0 as * mut sys :: godot_method_bind , copy_theme : 0 as * mut sys :: godot_method_bind , get_color : 0 as * mut sys :: godot_method_bind , get_color_list : 0 as * mut sys :: godot_method_bind , get_constant : 0 as * mut sys :: godot_method_bind , get_constant_list : 0 as * mut sys :: godot_method_bind , get_default_font : 0 as * mut sys :: godot_method_bind , get_font : 0 as * mut sys :: godot_method_bind , get_font_list : 0 as * mut sys :: godot_method_bind , get_icon : 0 as * mut sys :: godot_method_bind , get_icon_list : 0 as * mut sys :: godot_method_bind , get_stylebox : 0 as * mut sys :: godot_method_bind , get_stylebox_list : 0 as * mut sys :: godot_method_bind , get_stylebox_types : 0 as * mut sys :: godot_method_bind , get_type_list : 0 as * mut sys :: godot_method_bind , has_color : 0 as * mut sys :: godot_method_bind , has_constant : 0 as * mut sys :: godot_method_bind , has_font : 0 as * mut sys :: godot_method_bind , has_icon : 0 as * mut sys :: godot_method_bind , has_stylebox : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_constant : 0 as * mut sys :: godot_method_bind , set_default_font : 0 as * mut sys :: godot_method_bind , set_font : 0 as * mut sys :: godot_method_bind , set_icon : 0 as * mut sys :: godot_method_bind , set_stylebox : 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 (|| { ThemeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Theme\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 . clear_color = (gd_api . godot_method_bind_get_method) (class_name , "clear_color\0" . as_ptr () as * const c_char) ; table . clear_constant = (gd_api . godot_method_bind_get_method) (class_name , "clear_constant\0" . as_ptr () as * const c_char) ; table . clear_font = (gd_api . godot_method_bind_get_method) (class_name , "clear_font\0" . as_ptr () as * const c_char) ; table . clear_icon = (gd_api . godot_method_bind_get_method) (class_name , "clear_icon\0" . as_ptr () as * const c_char) ; table . clear_stylebox = (gd_api . godot_method_bind_get_method) (class_name , "clear_stylebox\0" . as_ptr () as * const c_char) ; table . copy_default_theme = (gd_api . godot_method_bind_get_method) (class_name , "copy_default_theme\0" . as_ptr () as * const c_char) ; table . copy_theme = (gd_api . godot_method_bind_get_method) (class_name , "copy_theme\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_color_list = (gd_api . godot_method_bind_get_method) (class_name , "get_color_list\0" . as_ptr () as * const c_char) ; table . get_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_constant\0" . as_ptr () as * const c_char) ; table . get_constant_list = (gd_api . godot_method_bind_get_method) (class_name , "get_constant_list\0" . as_ptr () as * const c_char) ; table . get_default_font = (gd_api . godot_method_bind_get_method) (class_name , "get_default_font\0" . as_ptr () as * const c_char) ; table . get_font = (gd_api . godot_method_bind_get_method) (class_name , "get_font\0" . as_ptr () as * const c_char) ; table . get_font_list = (gd_api . godot_method_bind_get_method) (class_name , "get_font_list\0" . as_ptr () as * const c_char) ; table . get_icon = (gd_api . godot_method_bind_get_method) (class_name , "get_icon\0" . as_ptr () as * const c_char) ; table . get_icon_list = (gd_api . godot_method_bind_get_method) (class_name , "get_icon_list\0" . as_ptr () as * const c_char) ; table . get_stylebox = (gd_api . godot_method_bind_get_method) (class_name , "get_stylebox\0" . as_ptr () as * const c_char) ; table . get_stylebox_list = (gd_api . godot_method_bind_get_method) (class_name , "get_stylebox_list\0" . as_ptr () as * const c_char) ; table . get_stylebox_types = (gd_api . godot_method_bind_get_method) (class_name , "get_stylebox_types\0" . as_ptr () as * const c_char) ; table . get_type_list = (gd_api . godot_method_bind_get_method) (class_name , "get_type_list\0" . as_ptr () as * const c_char) ; table . has_color = (gd_api . godot_method_bind_get_method) (class_name , "has_color\0" . as_ptr () as * const c_char) ; table . has_constant = (gd_api . godot_method_bind_get_method) (class_name , "has_constant\0" . as_ptr () as * const c_char) ; table . has_font = (gd_api . godot_method_bind_get_method) (class_name , "has_font\0" . as_ptr () as * const c_char) ; table . has_icon = (gd_api . godot_method_bind_get_method) (class_name , "has_icon\0" . as_ptr () as * const c_char) ; table . has_stylebox = (gd_api . godot_method_bind_get_method) (class_name , "has_stylebox\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_constant = (gd_api . godot_method_bind_get_method) (class_name , "set_constant\0" . as_ptr () as * const c_char) ; table . set_default_font = (gd_api . godot_method_bind_get_method) (class_name , "set_default_font\0" . as_ptr () as * const c_char) ; table . set_font = (gd_api . godot_method_bind_get_method) (class_name , "set_font\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_stylebox = (gd_api . godot_method_bind_get_method) (class_name , "set_stylebox\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-60c8dbcfaf0f3dfc/out/generated.rs:1102:7422 [INFO] [stdout] | [INFO] [stdout] 1102 | ... : 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] 1102 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1108:4421 [INFO] [stdout] | [INFO] [stdout] 1108 | ... : 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] 1108 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1114:4819 [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 VisualShaderNodeColorConstant` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodecolorconstant.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\nVisualShaderNodeColorConstant 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 VisualShaderNodeColorConstant { this : RawObject < Self > , } impl VisualShaderNodeColorConstant { # [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 = VisualShaderNodeColorConstantMethodTable :: 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 [Color] constant which represents a state of this node."] # [doc = ""] # [inline] pub fn constant (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeColorConstantMethodTable :: get (get_api ()) . get_constant ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "A [Color] constant which represents a state of this node."] # [doc = ""] # [inline] pub fn set_constant (& self , value : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeColorConstantMethodTable :: get (get_api ()) . set_constant ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeColorConstant { } unsafe impl GodotObject for VisualShaderNodeColorConstant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeColorConstant" } } impl std :: ops :: Deref for VisualShaderNodeColorConstant { 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 VisualShaderNodeColorConstant { # [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 VisualShaderNodeColorConstant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeColorConstant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeColorConstant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeColorConstant { } impl Instanciable for VisualShaderNodeColorConstant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeColorConstant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeColorConstantMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_constant : * mut sys :: godot_method_bind , pub set_constant : * mut sys :: godot_method_bind } impl VisualShaderNodeColorConstantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeColorConstantMethodTable = VisualShaderNodeColorConstantMethodTable { class_constructor : None , get_constant : 0 as * mut sys :: godot_method_bind , set_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 (|| { VisualShaderNodeColorConstantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeColorConstant\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_constant\0" . as_ptr () as * const c_char) ; table . set_constant = (gd_api . godot_method_bind_get_method) (class_name , "set_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-60c8dbcfaf0f3dfc/out/generated.rs:1120:13215 [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 = "`tools class EditorProperty` inherits `Container` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorproperty.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\nEditorProperty 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 = "\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 EditorProperty { this : RawObject < Self > , } impl EditorProperty { # [doc = "If any of the controls added can gain keyboard focus, add it here. This ensures that focus will be restored if the inspector is refreshed."] # [doc = ""] # [inline] pub fn add_focusable (& self , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . add_focusable ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , control . as_arg_ptr ()) ; } } # [doc = "If one or several properties have changed, this must be called. `field` is used in case your editor can modify fields separately (as an example, Vector3.x). The `changing` argument avoids the editor requesting this property to be refreshed (leave as `false` if unsure).\n# Default Arguments\n* `field` - `\"\"`\n* `changing` - `false`"] # [doc = ""] # [inline] pub fn emit_changed (& self , property : impl Into < GodotString > , value : impl OwnedToVariant , field : impl Into < GodotString > , changing : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . emit_changed ; let ret = crate :: icalls :: icallptr_void_str_var_str_bool (method_bind , self . this . sys () . as_ptr () , property . into () , value . owned_to_variant () , field . into () , changing) ; } } # [doc = "Gets the edited object."] # [doc = ""] # [inline] pub fn get_edited_object (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . get_edited_object ; 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 = "Gets the edited property. If your editor is for a single property (added via [method EditorInspectorPlugin.parse_property]), then this will return the property."] # [doc = ""] # [inline] pub fn get_edited_property (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . get_edited_property ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Set this property to change the label (if you want to show one)."] # [doc = ""] # [inline] pub fn label (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . get_label ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Override if you want to allow a custom tooltip over your property."] # [doc = ""] # [inline] pub fn get_tooltip_text (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . get_tooltip_text ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Used by the inspector, set to `true` when the property is checkable."] # [doc = ""] # [inline] pub fn is_checkable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . is_checkable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Used by the inspector, set to `true` when the property is checked."] # [doc = ""] # [inline] pub fn is_checked (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . is_checked ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Used by the inspector, set to `true` when the property must draw with error color. This is used for editable children's properties."] # [doc = ""] # [inline] pub fn is_draw_red (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . is_draw_red ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Used by the inspector, set to `true` when the property can add keys for animation."] # [doc = ""] # [inline] pub fn is_keying (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . is_keying ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Used by the inspector, set to `true` when the property is read-only."] # [doc = ""] # [inline] pub fn is_read_only (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . is_read_only ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Adds controls with this function if you want them on the bottom (below the label)."] # [doc = ""] # [inline] pub fn set_bottom_editor (& self , editor : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . set_bottom_editor ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , editor . as_arg_ptr ()) ; } } # [doc = "Used by the inspector, set to `true` when the property is checkable."] # [doc = ""] # [inline] pub fn set_checkable (& self , checkable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . set_checkable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , checkable) ; } } # [doc = "Used by the inspector, set to `true` when the property is checked."] # [doc = ""] # [inline] pub fn set_checked (& self , checked : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . set_checked ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , checked) ; } } # [doc = "Used by the inspector, set to `true` when the property must draw with error color. This is used for editable children's properties."] # [doc = ""] # [inline] pub fn set_draw_red (& self , draw_red : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . set_draw_red ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , draw_red) ; } } # [doc = "Used by the inspector, set to `true` when the property can add keys for animation."] # [doc = ""] # [inline] pub fn set_keying (& self , keying : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . set_keying ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , keying) ; } } # [doc = "Set this property to change the label (if you want to show one)."] # [doc = ""] # [inline] pub fn set_label (& self , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: get (get_api ()) . set_label ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , text . into ()) ; } } # [doc = "Used by the inspector, set to `true` when the property is read-only."] # [doc = ""] # [inline] pub fn set_read_only (& self , read_only : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPropertyMethodTable :: 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 EditorProperty { } unsafe impl GodotObject for EditorProperty { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorProperty" } } impl QueueFree for EditorProperty { # [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 EditorProperty { type Target = crate :: generated :: container :: Container ; # [inline] fn deref (& self) -> & crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorProperty { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: container :: Container > for EditorProperty { } unsafe impl SubClass < crate :: generated :: control :: Control > for EditorProperty { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for EditorProperty { } unsafe impl SubClass < crate :: generated :: node :: Node > for EditorProperty { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorProperty { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorPropertyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_focusable : * mut sys :: godot_method_bind , pub emit_changed : * mut sys :: godot_method_bind , pub get_edited_object : * mut sys :: godot_method_bind , pub get_edited_property : * mut sys :: godot_method_bind , pub get_label : * mut sys :: godot_method_bind , pub get_tooltip_text : * mut sys :: godot_method_bind , pub is_checkable : * mut sys :: godot_method_bind , pub is_checked : * mut sys :: godot_method_bind , pub is_draw_red : * mut sys :: godot_method_bind , pub is_keying : * mut sys :: godot_method_bind , pub is_read_only : * mut sys :: godot_method_bind , pub set_bottom_editor : * mut sys :: godot_method_bind , pub set_checkable : * mut sys :: godot_method_bind , pub set_checked : * mut sys :: godot_method_bind , pub set_draw_red : * mut sys :: godot_method_bind , pub set_keying : * mut sys :: godot_method_bind , pub set_label : * mut sys :: godot_method_bind , pub set_read_only : * mut sys :: godot_method_bind } impl EditorPropertyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorPropertyMethodTable = EditorPropertyMethodTable { class_constructor : None , add_focusable : 0 as * mut sys :: godot_method_bind , emit_changed : 0 as * mut sys :: godot_method_bind , get_edited_object : 0 as * mut sys :: godot_method_bind , get_edited_property : 0 as * mut sys :: godot_method_bind , get_label : 0 as * mut sys :: godot_method_bind , get_tooltip_text : 0 as * mut sys :: godot_method_bind , is_checkable : 0 as * mut sys :: godot_method_bind , is_checked : 0 as * mut sys :: godot_method_bind , is_draw_red : 0 as * mut sys :: godot_method_bind , is_keying : 0 as * mut sys :: godot_method_bind , is_read_only : 0 as * mut sys :: godot_method_bind , set_bottom_editor : 0 as * mut sys :: godot_method_bind , set_checkable : 0 as * mut sys :: godot_method_bind , set_checked : 0 as * mut sys :: godot_method_bind , set_draw_red : 0 as * mut sys :: godot_method_bind , set_keying : 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 (|| { EditorPropertyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorProperty\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_focusable = (gd_api . godot_method_bind_get_method) (class_name , "add_focusable\0" . as_ptr () as * const c_char) ; table . emit_changed = (gd_api . godot_method_bind_get_method) (class_name , "emit_changed\0" . as_ptr () as * const c_char) ; table . get_edited_object = (gd_api . godot_method_bind_get_method) (class_name , "get_edited_object\0" . as_ptr () as * const c_char) ; table . get_edited_property = (gd_api . godot_method_bind_get_method) (class_name , "get_edited_property\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_tooltip_text = (gd_api . godot_method_bind_get_method) (class_name , "get_tooltip_text\0" . as_ptr () as * const c_char) ; table . is_checkable = (gd_api . godot_method_bind_get_method) (class_name , "is_checkable\0" . as_ptr () as * const c_char) ; table . is_checked = (gd_api . godot_method_bind_get_method) (class_name , "is_checked\0" . as_ptr () as * const c_char) ; table . is_draw_red = (gd_api . godot_method_bind_get_method) (class_name , "is_draw_red\0" . as_ptr () as * const c_char) ; table . is_keying = (gd_api . godot_method_bind_get_method) (class_name , "is_keying\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_bottom_editor = (gd_api . godot_method_bind_get_method) (class_name , "set_bottom_editor\0" . as_ptr () as * const c_char) ; table . set_checkable = (gd_api . godot_method_bind_get_method) (class_name , "set_checkable\0" . as_ptr () as * const c_char) ; table . set_checked = (gd_api . godot_method_bind_get_method) (class_name , "set_checked\0" . as_ptr () as * const c_char) ; table . set_draw_red = (gd_api . godot_method_bind_get_method) (class_name , "set_draw_red\0" . as_ptr () as * const c_char) ; table . set_keying = (gd_api . godot_method_bind_get_method) (class_name , "set_keying\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-60c8dbcfaf0f3dfc/out/generated.rs:1126:8641 [INFO] [stdout] | [INFO] [stdout] 1126 | ... : 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] 1126 | # [doc = "`core class PhysicsDirectSpaceState` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physicsdirectspacestate.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\nPhysicsDirectSpaceState 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 PhysicsDirectSpaceState { this : RawObject < Self > , } impl PhysicsDirectSpaceState { # [doc = "Checks whether the shape can travel to a point. 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]`.\nIf the shape can not move, the returned array will be `[0, 0]` under Bullet, and empty under GodotPhysics."] # [doc = ""] # [inline] pub fn cast_motion (& self , shape : impl AsArg < crate :: generated :: physics_shape_query_parameters :: PhysicsShapeQueryParameters > , motion : Vector3) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectSpaceStateMethodTable :: get (get_api ()) . cast_motion ; let ret = crate :: icalls :: icallvar__obj_vec3 (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr () , motion) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Checks the intersections of a shape, given through a [PhysicsShapeQueryParameters] 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_shape_query_parameters :: PhysicsShapeQueryParameters > , max_results : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectSpaceStateMethodTable :: 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 [PhysicsShapeQueryParameters] object, against the space. If it collides with more than one shape, the nearest one is selected. 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 [Vector3]. If the object is an [Area], the result is `(0, 0, 0)`.\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.\nIf the shape did not intersect anything, then an empty dictionary is returned instead."] # [doc = ""] # [inline] pub fn get_rest_info (& self , shape : impl AsArg < crate :: generated :: physics_shape_query_parameters :: PhysicsShapeQueryParameters >) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectSpaceStateMethodTable :: 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 = "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`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_mask` - `2147483647`\n* `collide_with_bodies` - `true`\n* `collide_with_areas` - `false`"] # [doc = ""] # [inline] pub fn intersect_ray (& self , from : Vector3 , to : Vector3 , exclude : VariantArray , collision_mask : i64 , collide_with_bodies : bool , collide_with_areas : bool) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectSpaceStateMethodTable :: get (get_api ()) . intersect_ray ; let ret = crate :: icalls :: icallptr_dict_vec3_vec3_arr_i64_bool_bool (method_bind , self . this . sys () . as_ptr () , from , to , exclude , collision_mask , collide_with_bodies , collide_with_areas) ; Dictionary :: from_sys (ret) } } # [doc = "Checks the intersections of a shape, given through a [PhysicsShapeQueryParameters] object, against the space. 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`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_shape_query_parameters :: PhysicsShapeQueryParameters > , max_results : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicsDirectSpaceStateMethodTable :: 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 PhysicsDirectSpaceState { } unsafe impl GodotObject for PhysicsDirectSpaceState { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "PhysicsDirectSpaceState" } } impl std :: ops :: Deref for PhysicsDirectSpaceState { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PhysicsDirectSpaceState { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for PhysicsDirectSpaceState { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PhysicsDirectSpaceStateMethodTable { 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_ray : * mut sys :: godot_method_bind , pub intersect_shape : * mut sys :: godot_method_bind } impl PhysicsDirectSpaceStateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PhysicsDirectSpaceStateMethodTable = PhysicsDirectSpaceStateMethodTable { 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_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 (|| { PhysicsDirectSpaceStateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PhysicsDirectSpaceState\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_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-60c8dbcfaf0f3dfc/out/generated.rs:1132:4875 [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 = "`core class VisualScriptNode` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptnode.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\nVisualScriptNode 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 VisualScriptNode { this : RawObject < Self > , } impl VisualScriptNode { # [doc = ""] # [doc = ""] # [inline] pub fn get_default_input_value (& self , port_idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptNodeMethodTable :: get (get_api ()) . get_default_input_value ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , port_idx) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_visual_script (& self) -> Option < Ref < crate :: generated :: visual_script :: VisualScript , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptNodeMethodTable :: get (get_api ()) . get_visual_script ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: visual_script :: VisualScript , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn ports_changed_notify (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptNodeMethodTable :: get (get_api ()) . ports_changed_notify ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_default_input_value (& self , port_idx : i64 , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptNodeMethodTable :: get (get_api ()) . set_default_input_value ; let ret = crate :: icalls :: icallptr_void_i64_var (method_bind , self . this . sys () . as_ptr () , port_idx , value . owned_to_variant ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptNode { } unsafe impl GodotObject for VisualScriptNode { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptNode" } } impl std :: ops :: Deref for VisualScriptNode { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScriptNode { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptNode { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptNode { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptNode { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptNodeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_default_input_value : * mut sys :: godot_method_bind , pub get_visual_script : * mut sys :: godot_method_bind , pub ports_changed_notify : * mut sys :: godot_method_bind , pub set_default_input_value : * mut sys :: godot_method_bind } impl VisualScriptNodeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptNodeMethodTable = VisualScriptNodeMethodTable { class_constructor : None , get_default_input_value : 0 as * mut sys :: godot_method_bind , get_visual_script : 0 as * mut sys :: godot_method_bind , ports_changed_notify : 0 as * mut sys :: godot_method_bind , set_default_input_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 (|| { VisualScriptNodeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptNode\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_default_input_value = (gd_api . godot_method_bind_get_method) (class_name , "get_default_input_value\0" . as_ptr () as * const c_char) ; table . get_visual_script = (gd_api . godot_method_bind_get_method) (class_name , "get_visual_script\0" . as_ptr () as * const c_char) ; table . ports_changed_notify = (gd_api . godot_method_bind_get_method) (class_name , "ports_changed_notify\0" . as_ptr () as * const c_char) ; table . set_default_input_value = (gd_api . godot_method_bind_get_method) (class_name , "set_default_input_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-60c8dbcfaf0f3dfc/out/generated.rs:1138:12584 [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 = "`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-60c8dbcfaf0f3dfc/out/generated.rs:1144:14333 [INFO] [stdout] | [INFO] [stdout] 1144 | ... : 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] 1144 | # [doc = "`core class CollisionObject` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_collisionobject.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\nCollisionObject 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 CollisionObject { this : RawObject < Self > , } impl CollisionObject { # [doc = "Creates a new shape owner for the given object. Returns `owner_id` of the new owner for future reference."] # [doc = ""] # [inline] pub fn create_shape_owner (& self , owner : impl AsArg < crate :: generated :: object :: Object >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . create_shape_owner ; let ret = crate :: icalls :: icallptr_i64_obj (method_bind , self . this . sys () . as_ptr () , owner . as_arg_ptr ()) ; ret as _ } } # [doc = "If `true`, the [CollisionObject] will continue to receive input events as the mouse is dragged across its shapes."] # [doc = ""] # [inline] pub fn capture_input_on_drag (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . get_capture_input_on_drag ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the object's [RID]."] # [doc = ""] # [inline] pub fn get_rid (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . get_rid ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns an [Array] of `owner_id` identifiers. You can use these ids in other methods that take `owner_id` as an argument."] # [doc = ""] # [inline] pub fn get_shape_owners (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . get_shape_owners ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "If `true`, the [CollisionObject]'s shapes will respond to [RayCast]s."] # [doc = ""] # [inline] pub fn is_ray_pickable (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . is_ray_pickable ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the shape owner and its shapes are disabled."] # [doc = ""] # [inline] pub fn is_shape_owner_disabled (& self , owner_id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . is_shape_owner_disabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , owner_id) ; ret as _ } } # [doc = "Removes the given shape owner."] # [doc = ""] # [inline] pub fn remove_shape_owner (& self , owner_id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . remove_shape_owner ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , owner_id) ; } } # [doc = "If `true`, the [CollisionObject] will continue to receive input events as the mouse is dragged across its shapes."] # [doc = ""] # [inline] pub fn set_capture_input_on_drag (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . set_capture_input_on_drag ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the [CollisionObject]'s shapes will respond to [RayCast]s."] # [doc = ""] # [inline] pub fn set_ray_pickable (& self , ray_pickable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . set_ray_pickable ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , ray_pickable) ; } } # [doc = "Returns the `owner_id` of the given shape."] # [doc = ""] # [inline] pub fn shape_find_owner (& self , shape_index : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_find_owner ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , shape_index) ; ret as _ } } # [doc = "Adds a [Shape] to the shape owner."] # [doc = ""] # [inline] pub fn shape_owner_add_shape (& self , owner_id : i64 , shape : impl AsArg < crate :: generated :: shape :: Shape >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_add_shape ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , owner_id , shape . as_arg_ptr ()) ; } } # [doc = "Removes all shapes from the shape owner."] # [doc = ""] # [inline] pub fn shape_owner_clear_shapes (& self , owner_id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_clear_shapes ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , owner_id) ; } } # [doc = "Returns the parent object of the given shape owner."] # [doc = ""] # [inline] pub fn shape_owner_get_owner (& self , owner_id : i64) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_get_owner ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , owner_id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the [Shape] with the given id from the given shape owner."] # [doc = ""] # [inline] pub fn shape_owner_get_shape (& self , owner_id : i64 , shape_id : i64) -> Option < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_get_shape ; let ret = crate :: icalls :: icallptr_obj_i64_i64 (method_bind , self . this . sys () . as_ptr () , owner_id , shape_id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of shapes the given shape owner contains."] # [doc = ""] # [inline] pub fn shape_owner_get_shape_count (& self , owner_id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_get_shape_count ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , owner_id) ; ret as _ } } # [doc = "Returns the child index of the [Shape] with the given id from the given shape owner."] # [doc = ""] # [inline] pub fn shape_owner_get_shape_index (& self , owner_id : i64 , shape_id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_get_shape_index ; let ret = crate :: icalls :: icallptr_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , owner_id , shape_id) ; ret as _ } } # [doc = "Returns the shape owner's [Transform]."] # [doc = ""] # [inline] pub fn shape_owner_get_transform (& self , owner_id : i64) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_get_transform ; let ret = crate :: icalls :: icallptr_trans_i64 (method_bind , self . this . sys () . as_ptr () , owner_id) ; mem :: transmute (ret) } } # [doc = "Removes a shape from the given shape owner."] # [doc = ""] # [inline] pub fn shape_owner_remove_shape (& self , owner_id : i64 , shape_id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_remove_shape ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , owner_id , shape_id) ; } } # [doc = "If `true`, disables the given shape owner."] # [doc = ""] # [inline] pub fn shape_owner_set_disabled (& self , owner_id : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_set_disabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , owner_id , disabled) ; } } # [doc = "Sets the [Transform] of the given shape owner."] # [doc = ""] # [inline] pub fn shape_owner_set_transform (& self , owner_id : i64 , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionObjectMethodTable :: get (get_api ()) . shape_owner_set_transform ; let ret = crate :: icalls :: icallptr_void_i64_trans (method_bind , self . this . sys () . as_ptr () , owner_id , transform) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CollisionObject { } unsafe impl GodotObject for CollisionObject { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CollisionObject" } } impl QueueFree for CollisionObject { # [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 CollisionObject { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CollisionObject { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CollisionObject { } unsafe impl SubClass < crate :: generated :: node :: Node > for CollisionObject { } unsafe impl SubClass < crate :: generated :: object :: Object > for CollisionObject { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CollisionObjectMethodTable { pub class_constructor : sys :: godot_class_constructor , pub create_shape_owner : * mut sys :: godot_method_bind , pub get_capture_input_on_drag : * mut sys :: godot_method_bind , pub get_rid : * mut sys :: godot_method_bind , pub get_shape_owners : * mut sys :: godot_method_bind , pub is_ray_pickable : * mut sys :: godot_method_bind , pub is_shape_owner_disabled : * mut sys :: godot_method_bind , pub remove_shape_owner : * mut sys :: godot_method_bind , pub set_capture_input_on_drag : * mut sys :: godot_method_bind , pub set_ray_pickable : * mut sys :: godot_method_bind , pub shape_find_owner : * mut sys :: godot_method_bind , pub shape_owner_add_shape : * mut sys :: godot_method_bind , pub shape_owner_clear_shapes : * mut sys :: godot_method_bind , pub shape_owner_get_owner : * mut sys :: godot_method_bind , pub shape_owner_get_shape : * mut sys :: godot_method_bind , pub shape_owner_get_shape_count : * mut sys :: godot_method_bind , pub shape_owner_get_shape_index : * mut sys :: godot_method_bind , pub shape_owner_get_transform : * mut sys :: godot_method_bind , pub shape_owner_remove_shape : * mut sys :: godot_method_bind , pub shape_owner_set_disabled : * mut sys :: godot_method_bind , pub shape_owner_set_transform : * mut sys :: godot_method_bind } impl CollisionObjectMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CollisionObjectMethodTable = CollisionObjectMethodTable { class_constructor : None , create_shape_owner : 0 as * mut sys :: godot_method_bind , get_capture_input_on_drag : 0 as * mut sys :: godot_method_bind , get_rid : 0 as * mut sys :: godot_method_bind , get_shape_owners : 0 as * mut sys :: godot_method_bind , is_ray_pickable : 0 as * mut sys :: godot_method_bind , is_shape_owner_disabled : 0 as * mut sys :: godot_method_bind , remove_shape_owner : 0 as * mut sys :: godot_method_bind , set_capture_input_on_drag : 0 as * mut sys :: godot_method_bind , set_ray_pickable : 0 as * mut sys :: godot_method_bind , shape_find_owner : 0 as * mut sys :: godot_method_bind , shape_owner_add_shape : 0 as * mut sys :: godot_method_bind , shape_owner_clear_shapes : 0 as * mut sys :: godot_method_bind , shape_owner_get_owner : 0 as * mut sys :: godot_method_bind , shape_owner_get_shape : 0 as * mut sys :: godot_method_bind , shape_owner_get_shape_count : 0 as * mut sys :: godot_method_bind , shape_owner_get_shape_index : 0 as * mut sys :: godot_method_bind , shape_owner_get_transform : 0 as * mut sys :: godot_method_bind , shape_owner_remove_shape : 0 as * mut sys :: godot_method_bind , shape_owner_set_disabled : 0 as * mut sys :: godot_method_bind , shape_owner_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 (|| { CollisionObjectMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CollisionObject\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . create_shape_owner = (gd_api . godot_method_bind_get_method) (class_name , "create_shape_owner\0" . as_ptr () as * const c_char) ; table . get_capture_input_on_drag = (gd_api . godot_method_bind_get_method) (class_name , "get_capture_input_on_drag\0" . as_ptr () as * const c_char) ; table . get_rid = (gd_api . godot_method_bind_get_method) (class_name , "get_rid\0" . as_ptr () as * const c_char) ; table . get_shape_owners = (gd_api . godot_method_bind_get_method) (class_name , "get_shape_owners\0" . as_ptr () as * const c_char) ; table . is_ray_pickable = (gd_api . godot_method_bind_get_method) (class_name , "is_ray_pickable\0" . as_ptr () as * const c_char) ; table . is_shape_owner_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_shape_owner_disabled\0" . as_ptr () as * const c_char) ; table . remove_shape_owner = (gd_api . godot_method_bind_get_method) (class_name , "remove_shape_owner\0" . as_ptr () as * const c_char) ; table . set_capture_input_on_drag = (gd_api . godot_method_bind_get_method) (class_name , "set_capture_input_on_drag\0" . as_ptr () as * const c_char) ; table . set_ray_pickable = (gd_api . godot_method_bind_get_method) (class_name , "set_ray_pickable\0" . as_ptr () as * const c_char) ; table . shape_find_owner = (gd_api . godot_method_bind_get_method) (class_name , "shape_find_owner\0" . as_ptr () as * const c_char) ; table . shape_owner_add_shape = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_add_shape\0" . as_ptr () as * const c_char) ; table . shape_owner_clear_shapes = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_clear_shapes\0" . as_ptr () as * const c_char) ; table . shape_owner_get_owner = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_get_owner\0" . as_ptr () as * const c_char) ; table . shape_owner_get_shape = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_get_shape\0" . as_ptr () as * const c_char) ; table . shape_owner_get_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_get_shape_count\0" . as_ptr () as * const c_char) ; table . shape_owner_get_shape_index = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_get_shape_index\0" . as_ptr () as * const c_char) ; table . shape_owner_get_transform = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_get_transform\0" . as_ptr () as * const c_char) ; table . shape_owner_remove_shape = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_remove_shape\0" . as_ptr () as * const c_char) ; table . shape_owner_set_disabled = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_set_disabled\0" . as_ptr () as * const c_char) ; table . shape_owner_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "shape_owner_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-60c8dbcfaf0f3dfc/out/generated.rs:1150:32552 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:1156:4440 [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 VisualScriptSelect` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptselect.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\nVisualScriptSelect 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 VisualScriptSelect { this : RawObject < Self > , } impl VisualScriptSelect { # [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 = VisualScriptSelectMethodTable :: 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 typed (& self) -> VariantType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptSelectMethodTable :: get (get_api ()) . get_typed ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; VariantType :: from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_typed (& self , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptSelectMethodTable :: get (get_api ()) . set_typed ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptSelect { } unsafe impl GodotObject for VisualScriptSelect { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptSelect" } } impl std :: ops :: Deref for VisualScriptSelect { 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 VisualScriptSelect { # [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 VisualScriptSelect { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptSelect { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptSelect { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptSelect { } impl Instanciable for VisualScriptSelect { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptSelect :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptSelectMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_typed : * mut sys :: godot_method_bind , pub set_typed : * mut sys :: godot_method_bind } impl VisualScriptSelectMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptSelectMethodTable = VisualScriptSelectMethodTable { class_constructor : None , get_typed : 0 as * mut sys :: godot_method_bind , set_typed : 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 (|| { VisualScriptSelectMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptSelect\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_typed = (gd_api . godot_method_bind_get_method) (class_name , "get_typed\0" . as_ptr () as * const c_char) ; table . set_typed = (gd_api . godot_method_bind_get_method) (class_name , "set_typed\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-60c8dbcfaf0f3dfc/out/generated.rs:1162:7609 [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 = "`core class Physics2DTestMotionResult` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physics2dtestmotionresult.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\nPhysics2DTestMotionResult 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 Physics2DTestMotionResult { this : RawObject < Self > , } impl Physics2DTestMotionResult { # [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 = Physics2DTestMotionResultMethodTable :: 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 collider (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: 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 = ""] # [doc = ""] # [inline] pub fn collider_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_collider_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn collider_rid (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_collider_rid ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn collider_shape (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_collider_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn collider_velocity (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_collider_velocity ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn collision_normal (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_collision_normal ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn collision_point (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_collision_point ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn motion (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_motion ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn motion_remainder (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Physics2DTestMotionResultMethodTable :: get (get_api ()) . get_motion_remainder ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for Physics2DTestMotionResult { } unsafe impl GodotObject for Physics2DTestMotionResult { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Physics2DTestMotionResult" } } impl std :: ops :: Deref for Physics2DTestMotionResult { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Physics2DTestMotionResult { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Physics2DTestMotionResult { } unsafe impl SubClass < crate :: generated :: object :: Object > for Physics2DTestMotionResult { } impl Instanciable for Physics2DTestMotionResult { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Physics2DTestMotionResult :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Physics2DTestMotionResultMethodTable { 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_rid : * mut sys :: godot_method_bind , pub get_collider_shape : * mut sys :: godot_method_bind , pub get_collider_velocity : * 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_motion : * mut sys :: godot_method_bind , pub get_motion_remainder : * mut sys :: godot_method_bind } impl Physics2DTestMotionResultMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Physics2DTestMotionResultMethodTable = Physics2DTestMotionResultMethodTable { class_constructor : None , get_collider : 0 as * mut sys :: godot_method_bind , get_collider_id : 0 as * mut sys :: godot_method_bind , get_collider_rid : 0 as * mut sys :: godot_method_bind , get_collider_shape : 0 as * mut sys :: godot_method_bind , get_collider_velocity : 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_motion : 0 as * mut sys :: godot_method_bind , get_motion_remainder : 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 (|| { Physics2DTestMotionResultMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Physics2DTestMotionResult\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_rid = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_rid\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_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_velocity\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_motion = (gd_api . godot_method_bind_get_method) (class_name , "get_motion\0" . as_ptr () as * const c_char) ; table . get_motion_remainder = (gd_api . godot_method_bind_get_method) (class_name , "get_motion_remainder\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-60c8dbcfaf0f3dfc/out/generated.rs:1168:4564 [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 ToolButton` inherits `Button` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_toolbutton.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`ToolButton` 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\nToolButton 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 ToolButton { this : RawObject < Self > , } impl ToolButton { # [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 = ToolButtonMethodTable :: 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 ToolButton { } unsafe impl GodotObject for ToolButton { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ToolButton" } } impl QueueFree for ToolButton { # [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 ToolButton { type Target = crate :: generated :: button :: Button ; # [inline] fn deref (& self) -> & crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ToolButton { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: button :: Button > for ToolButton { } unsafe impl SubClass < crate :: generated :: base_button :: BaseButton > for ToolButton { } unsafe impl SubClass < crate :: generated :: control :: Control > for ToolButton { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ToolButton { } unsafe impl SubClass < crate :: generated :: node :: Node > for ToolButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for ToolButton { } impl Instanciable for ToolButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ToolButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ToolButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl ToolButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ToolButtonMethodTable = ToolButtonMethodTable { 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 (|| { ToolButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ToolButton\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-60c8dbcfaf0f3dfc/out/generated.rs:1174:20180 [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 StreamPeer` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_streampeer.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\nStreamPeer 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 StreamPeer { this : RawObject < Self > , } impl StreamPeer { # [doc = "Gets a signed 16-bit value from the stream."] # [doc = ""] # [inline] pub fn get_16 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_16 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets a signed 32-bit value from the stream."] # [doc = ""] # [inline] pub fn get_32 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_32 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets a signed 64-bit value from the stream."] # [doc = ""] # [inline] pub fn get_64 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_64 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets a signed byte from the stream."] # [doc = ""] # [inline] pub fn get_8 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_8 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the amount of bytes this [StreamPeer] has available."] # [doc = ""] # [inline] pub fn get_available_bytes (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_available_bytes ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a chunk data with the received bytes. The amount of bytes to be received can be requested in the `bytes` argument. If not enough bytes are available, the function will block until the desired amount is received. This function returns two values, an [enum @GlobalScope.Error] code and a data array."] # [doc = ""] # [inline] pub fn get_data (& self , bytes : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_data ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , bytes) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Gets a double-precision float from the stream."] # [doc = ""] # [inline] pub fn get_double (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_double ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets a single-precision float from the stream."] # [doc = ""] # [inline] pub fn get_float (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_float ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a chunk data with the received bytes. The amount of bytes to be received can be requested in the \"bytes\" argument. If not enough bytes are available, the function will return how many were actually received. This function returns two values, an [enum @GlobalScope.Error] code, and a data array."] # [doc = ""] # [inline] pub fn get_partial_data (& self , bytes : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_partial_data ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , bytes) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Gets a string with byte-length `bytes` from the stream. If `bytes` is negative (default) the length will be read from the stream using the reverse process of [method put_string].\n# Default Arguments\n* `bytes` - `-1`"] # [doc = ""] # [inline] pub fn get_string (& self , bytes : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_string ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , bytes) ; GodotString :: from_sys (ret) } } # [doc = "Gets an unsigned 16-bit value from the stream."] # [doc = ""] # [inline] pub fn get_u16 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_u16 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets an unsigned 32-bit value from the stream."] # [doc = ""] # [inline] pub fn get_u32 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_u32 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets an unsigned 64-bit value from the stream."] # [doc = ""] # [inline] pub fn get_u64 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_u64 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets an unsigned byte from the stream."] # [doc = ""] # [inline] pub fn get_u8 (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_u8 ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets an UTF-8 string with byte-length `bytes` from the stream (this decodes the string sent as UTF-8). If `bytes` is negative (default) the length will be read from the stream using the reverse process of [method put_utf8_string].\n# Default Arguments\n* `bytes` - `-1`"] # [doc = ""] # [inline] pub fn get_utf8_string (& self , bytes : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . get_utf8_string ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , bytes) ; GodotString :: from_sys (ret) } } # [doc = "Gets a Variant from the stream. 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 = StreamPeerMethodTable :: 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 = "If `true`, this [StreamPeer] will using big-endian format for encoding and decoding."] # [doc = ""] # [inline] pub fn is_big_endian_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . is_big_endian_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Puts a signed 16-bit value into the stream."] # [doc = ""] # [inline] pub fn put_16 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_16 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Puts a signed 32-bit value into the stream."] # [doc = ""] # [inline] pub fn put_32 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_32 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Puts a signed 64-bit value into the stream."] # [doc = ""] # [inline] pub fn put_64 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_64 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Puts a signed byte into the stream."] # [doc = ""] # [inline] pub fn put_8 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_8 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Sends a chunk of data through the connection, blocking if necessary until the data is done sending. This function returns an [enum @GlobalScope.Error] code."] # [doc = ""] # [inline] pub fn put_data (& self , data : ByteArray) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_data ; let ret = crate :: icalls :: icallptr_i64_bytearr (method_bind , self . this . sys () . as_ptr () , data) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Puts a double-precision float into the stream."] # [doc = ""] # [inline] pub fn put_double (& self , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_double ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Puts a single-precision float into the stream."] # [doc = ""] # [inline] pub fn put_float (& self , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_float ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Sends a chunk of data through the connection. If all the data could not be sent at once, only part of it will. This function returns two values, an [enum @GlobalScope.Error] code and an integer, describing how much data was actually sent."] # [doc = ""] # [inline] pub fn put_partial_data (& self , data : ByteArray) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_partial_data ; let ret = crate :: icalls :: icallvar__bytearr (method_bind , self . this . sys () . as_ptr () , data) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nPuts a zero-terminated ASCII string into the stream prepended by a 32-bit unsigned integer representing its size.\nNote: To put an ASCII string without prepending its size, you can use [method put_data]:\n```gdscript\nput_data(\"Hello world\".to_ascii())\n```"] # [doc = ""] # [inline] pub fn put_string (& self , value : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_string ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , value . into ()) ; } } # [doc = "Puts an unsigned 16-bit value into the stream."] # [doc = ""] # [inline] pub fn put_u16 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_u16 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Puts an unsigned 32-bit value into the stream."] # [doc = ""] # [inline] pub fn put_u32 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_u32 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Puts an unsigned 64-bit value into the stream."] # [doc = ""] # [inline] pub fn put_u64 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_u64 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "Puts an unsigned byte into the stream."] # [doc = ""] # [inline] pub fn put_u8 (& self , value : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_u8 ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , value) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nPuts a zero-terminated UTF-8 string into the stream prepended by a 32 bits unsigned integer representing its size.\nNote: To put an UTF-8 string without prepending its size, you can use [method put_data]:\n```gdscript\nput_data(\"Hello world\".to_utf8())\n```"] # [doc = ""] # [inline] pub fn put_utf8_string (& self , value : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_utf8_string ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , value . into ()) ; } } # [doc = "Puts a Variant into the stream. 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 put_var (& self , value : impl OwnedToVariant , full_objects : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . put_var ; let ret = crate :: icalls :: icallptr_void_var_bool (method_bind , self . this . sys () . as_ptr () , value . owned_to_variant () , full_objects) ; } } # [doc = "If `true`, this [StreamPeer] will using big-endian format for encoding and decoding."] # [doc = ""] # [inline] pub fn set_big_endian (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StreamPeerMethodTable :: get (get_api ()) . set_big_endian ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for StreamPeer { } unsafe impl GodotObject for StreamPeer { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StreamPeer" } } impl std :: ops :: Deref for StreamPeer { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for StreamPeer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StreamPeer { } unsafe impl SubClass < crate :: generated :: object :: Object > for StreamPeer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StreamPeerMethodTable { pub class_constructor : sys :: godot_class_constructor , 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_available_bytes : * mut sys :: godot_method_bind , pub get_data : * mut sys :: godot_method_bind , pub get_double : * mut sys :: godot_method_bind , pub get_float : * mut sys :: godot_method_bind , pub get_partial_data : * mut sys :: godot_method_bind , pub get_string : * mut sys :: godot_method_bind , pub get_u16 : * mut sys :: godot_method_bind , pub get_u32 : * mut sys :: godot_method_bind , pub get_u64 : * mut sys :: godot_method_bind , pub get_u8 : * mut sys :: godot_method_bind , pub get_utf8_string : * mut sys :: godot_method_bind , pub get_var : * mut sys :: godot_method_bind , pub is_big_endian_enabled : * mut sys :: godot_method_bind , pub put_16 : * mut sys :: godot_method_bind , pub put_32 : * mut sys :: godot_method_bind , pub put_64 : * mut sys :: godot_method_bind , pub put_8 : * mut sys :: godot_method_bind , pub put_data : * mut sys :: godot_method_bind , pub put_double : * mut sys :: godot_method_bind , pub put_float : * mut sys :: godot_method_bind , pub put_partial_data : * mut sys :: godot_method_bind , pub put_string : * mut sys :: godot_method_bind , pub put_u16 : * mut sys :: godot_method_bind , pub put_u32 : * mut sys :: godot_method_bind , pub put_u64 : * mut sys :: godot_method_bind , pub put_u8 : * mut sys :: godot_method_bind , pub put_utf8_string : * mut sys :: godot_method_bind , pub put_var : * mut sys :: godot_method_bind , pub set_big_endian : * mut sys :: godot_method_bind } impl StreamPeerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StreamPeerMethodTable = StreamPeerMethodTable { class_constructor : None , 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_available_bytes : 0 as * mut sys :: godot_method_bind , get_data : 0 as * mut sys :: godot_method_bind , get_double : 0 as * mut sys :: godot_method_bind , get_float : 0 as * mut sys :: godot_method_bind , get_partial_data : 0 as * mut sys :: godot_method_bind , get_string : 0 as * mut sys :: godot_method_bind , get_u16 : 0 as * mut sys :: godot_method_bind , get_u32 : 0 as * mut sys :: godot_method_bind , get_u64 : 0 as * mut sys :: godot_method_bind , get_u8 : 0 as * mut sys :: godot_method_bind , get_utf8_string : 0 as * mut sys :: godot_method_bind , get_var : 0 as * mut sys :: godot_method_bind , is_big_endian_enabled : 0 as * mut sys :: godot_method_bind , put_16 : 0 as * mut sys :: godot_method_bind , put_32 : 0 as * mut sys :: godot_method_bind , put_64 : 0 as * mut sys :: godot_method_bind , put_8 : 0 as * mut sys :: godot_method_bind , put_data : 0 as * mut sys :: godot_method_bind , put_double : 0 as * mut sys :: godot_method_bind , put_float : 0 as * mut sys :: godot_method_bind , put_partial_data : 0 as * mut sys :: godot_method_bind , put_string : 0 as * mut sys :: godot_method_bind , put_u16 : 0 as * mut sys :: godot_method_bind , put_u32 : 0 as * mut sys :: godot_method_bind , put_u64 : 0 as * mut sys :: godot_method_bind , put_u8 : 0 as * mut sys :: godot_method_bind , put_utf8_string : 0 as * mut sys :: godot_method_bind , put_var : 0 as * mut sys :: godot_method_bind , set_big_endian : 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 (|| { StreamPeerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StreamPeer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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_available_bytes = (gd_api . godot_method_bind_get_method) (class_name , "get_available_bytes\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_double = (gd_api . godot_method_bind_get_method) (class_name , "get_double\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_partial_data = (gd_api . godot_method_bind_get_method) (class_name , "get_partial_data\0" . as_ptr () as * const c_char) ; table . get_string = (gd_api . godot_method_bind_get_method) (class_name , "get_string\0" . as_ptr () as * const c_char) ; table . get_u16 = (gd_api . godot_method_bind_get_method) (class_name , "get_u16\0" . as_ptr () as * const c_char) ; table . get_u32 = (gd_api . godot_method_bind_get_method) (class_name , "get_u32\0" . as_ptr () as * const c_char) ; table . get_u64 = (gd_api . godot_method_bind_get_method) (class_name , "get_u64\0" . as_ptr () as * const c_char) ; table . get_u8 = (gd_api . godot_method_bind_get_method) (class_name , "get_u8\0" . as_ptr () as * const c_char) ; table . get_utf8_string = (gd_api . godot_method_bind_get_method) (class_name , "get_utf8_string\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_big_endian_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_big_endian_enabled\0" . as_ptr () as * const c_char) ; table . put_16 = (gd_api . godot_method_bind_get_method) (class_name , "put_16\0" . as_ptr () as * const c_char) ; table . put_32 = (gd_api . godot_method_bind_get_method) (class_name , "put_32\0" . as_ptr () as * const c_char) ; table . put_64 = (gd_api . godot_method_bind_get_method) (class_name , "put_64\0" . as_ptr () as * const c_char) ; table . put_8 = (gd_api . godot_method_bind_get_method) (class_name , "put_8\0" . as_ptr () as * const c_char) ; table . put_data = (gd_api . godot_method_bind_get_method) (class_name , "put_data\0" . as_ptr () as * const c_char) ; table . put_double = (gd_api . godot_method_bind_get_method) (class_name , "put_double\0" . as_ptr () as * const c_char) ; table . put_float = (gd_api . godot_method_bind_get_method) (class_name , "put_float\0" . as_ptr () as * const c_char) ; table . put_partial_data = (gd_api . godot_method_bind_get_method) (class_name , "put_partial_data\0" . as_ptr () as * const c_char) ; table . put_string = (gd_api . godot_method_bind_get_method) (class_name , "put_string\0" . as_ptr () as * const c_char) ; table . put_u16 = (gd_api . godot_method_bind_get_method) (class_name , "put_u16\0" . as_ptr () as * const c_char) ; table . put_u32 = (gd_api . godot_method_bind_get_method) (class_name , "put_u32\0" . as_ptr () as * const c_char) ; table . put_u64 = (gd_api . godot_method_bind_get_method) (class_name , "put_u64\0" . as_ptr () as * const c_char) ; table . put_u8 = (gd_api . godot_method_bind_get_method) (class_name , "put_u8\0" . as_ptr () as * const c_char) ; table . put_utf8_string = (gd_api . godot_method_bind_get_method) (class_name , "put_utf8_string\0" . as_ptr () as * const c_char) ; table . put_var = (gd_api . godot_method_bind_get_method) (class_name , "put_var\0" . as_ptr () as * const c_char) ; table . set_big_endian = (gd_api . godot_method_bind_get_method) (class_name , "set_big_endian\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-60c8dbcfaf0f3dfc/out/generated.rs:1180:7448 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:1186:32579 [INFO] [stdout] | [INFO] [stdout] 1186 | ... : 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] 1186 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1192:16373 [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 SpriteBase3D` inherits `GeometryInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_spritebase3d.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\nSpriteBase3D 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 SpriteBase3D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AlphaCutMode (pub i64) ; impl AlphaCutMode { pub const DISABLED : AlphaCutMode = AlphaCutMode (0i64) ; pub const DISCARD : AlphaCutMode = AlphaCutMode (1i64) ; pub const OPAQUE_PREPASS : AlphaCutMode = AlphaCutMode (2i64) ; } impl From < i64 > for AlphaCutMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AlphaCutMode > for i64 { # [inline] fn from (v : AlphaCutMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct DrawFlags (pub i64) ; impl DrawFlags { pub const TRANSPARENT : DrawFlags = DrawFlags (0i64) ; pub const SHADED : DrawFlags = DrawFlags (1i64) ; pub const DOUBLE_SIDED : DrawFlags = DrawFlags (2i64) ; pub const MAX : DrawFlags = DrawFlags (3i64) ; } impl From < i64 > for DrawFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < DrawFlags > for i64 { # [inline] fn from (v : DrawFlags) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl SpriteBase3D { pub const ALPHA_CUT_DISABLED : i64 = 0i64 ; pub const ALPHA_CUT_DISCARD : i64 = 1i64 ; pub const ALPHA_CUT_OPAQUE_PREPASS : i64 = 2i64 ; pub const FLAG_DOUBLE_SIDED : i64 = 2i64 ; pub const FLAG_MAX : i64 = 3i64 ; pub const FLAG_SHADED : i64 = 1i64 ; pub const FLAG_TRANSPARENT : i64 = 0i64 ; } impl SpriteBase3D { # [doc = ""] # [doc = ""] # [inline] pub fn generate_triangle_mesh (& self) -> Option < Ref < crate :: generated :: triangle_mesh :: TriangleMesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . generate_triangle_mesh ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: triangle_mesh :: TriangleMesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn alpha_cut_mode (& self) -> crate :: generated :: sprite_base_3d :: AlphaCutMode { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_alpha_cut_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: sprite_base_3d :: AlphaCutMode (ret) } } # [doc = "The direction in which the front of the texture faces."] # [doc = ""] # [inline] pub fn axis (& self) -> vector3 :: Axis { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_axis ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret as u32) } } # [doc = ""] # [doc = ""] # [inline] pub fn billboard_mode (& self) -> crate :: generated :: spatial_material :: BillboardMode { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_billboard_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: spatial_material :: BillboardMode (ret) } } # [doc = "If `true`, the texture's transparency and the opacity are used to make those parts of the sprite invisible."] # [doc = ""] # [inline] pub fn draw_flag (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_draw_flag ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; ret as _ } } # [doc = "Returns the rectangle representing this sprite."] # [doc = ""] # [inline] pub fn get_item_rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_item_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "A color value that gets multiplied on, could be used for mood-coloring or to simulate the color of light."] # [doc = ""] # [inline] pub fn modulate (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_modulate ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The texture's drawing offset."] # [doc = ""] # [inline] pub fn offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The objects visibility on a scale from `0` fully invisible to `1` fully visible."] # [doc = ""] # [inline] pub fn opacity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_opacity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The size of one pixel's width on the sprite to scale it in 3D."] # [doc = ""] # [inline] pub fn pixel_size (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . get_pixel_size ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, texture will be centered."] # [doc = ""] # [inline] pub fn is_centered (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . is_centered ; 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 = SpriteBase3DMethodTable :: 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 = SpriteBase3DMethodTable :: get (get_api ()) . is_flipped_v ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_alpha_cut_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_alpha_cut_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The direction in which the front of the texture faces."] # [doc = ""] # [inline] pub fn set_axis (& self , axis : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_axis ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , axis) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_billboard_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_billboard_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "If `true`, texture will be centered."] # [doc = ""] # [inline] pub fn set_centered (& self , centered : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_centered ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , centered) ; } } # [doc = "If `true`, the texture's transparency and the opacity are used to make those parts of the sprite invisible."] # [doc = ""] # [inline] pub fn set_draw_flag (& self , flag : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_draw_flag ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , enabled) ; } } # [doc = "If `true`, texture is flipped horizontally."] # [doc = ""] # [inline] pub fn set_flip_h (& self , flip_h : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_flip_h ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , flip_h) ; } } # [doc = "If `true`, texture is flipped vertically."] # [doc = ""] # [inline] pub fn set_flip_v (& self , flip_v : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_flip_v ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , flip_v) ; } } # [doc = "A color value that gets multiplied on, could be used for mood-coloring or to simulate the color of light."] # [doc = ""] # [inline] pub fn set_modulate (& self , modulate : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_modulate ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , modulate) ; } } # [doc = "The texture's drawing offset."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The objects visibility on a scale from `0` fully invisible to `1` fully visible."] # [doc = ""] # [inline] pub fn set_opacity (& self , opacity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_opacity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , opacity) ; } } # [doc = "The size of one pixel's width on the sprite to scale it in 3D."] # [doc = ""] # [inline] pub fn set_pixel_size (& self , pixel_size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SpriteBase3DMethodTable :: get (get_api ()) . set_pixel_size ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , pixel_size) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SpriteBase3D { } unsafe impl GodotObject for SpriteBase3D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "SpriteBase3D" } } impl QueueFree for SpriteBase3D { # [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 SpriteBase3D { 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 SpriteBase3D { # [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 SpriteBase3D { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for SpriteBase3D { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for SpriteBase3D { } unsafe impl SubClass < crate :: generated :: node :: Node > for SpriteBase3D { } unsafe impl SubClass < crate :: generated :: object :: Object > for SpriteBase3D { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SpriteBase3DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub generate_triangle_mesh : * mut sys :: godot_method_bind , pub get_alpha_cut_mode : * mut sys :: godot_method_bind , pub get_axis : * mut sys :: godot_method_bind , pub get_billboard_mode : * mut sys :: godot_method_bind , pub get_draw_flag : * mut sys :: godot_method_bind , pub get_item_rect : * mut sys :: godot_method_bind , pub get_modulate : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_opacity : * mut sys :: godot_method_bind , pub get_pixel_size : * mut sys :: godot_method_bind , pub is_centered : * 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_alpha_cut_mode : * mut sys :: godot_method_bind , pub set_axis : * mut sys :: godot_method_bind , pub set_billboard_mode : * mut sys :: godot_method_bind , pub set_centered : * mut sys :: godot_method_bind , pub set_draw_flag : * 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_modulate : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_opacity : * mut sys :: godot_method_bind , pub set_pixel_size : * mut sys :: godot_method_bind } impl SpriteBase3DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SpriteBase3DMethodTable = SpriteBase3DMethodTable { class_constructor : None , generate_triangle_mesh : 0 as * mut sys :: godot_method_bind , get_alpha_cut_mode : 0 as * mut sys :: godot_method_bind , get_axis : 0 as * mut sys :: godot_method_bind , get_billboard_mode : 0 as * mut sys :: godot_method_bind , get_draw_flag : 0 as * mut sys :: godot_method_bind , get_item_rect : 0 as * mut sys :: godot_method_bind , get_modulate : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_opacity : 0 as * mut sys :: godot_method_bind , get_pixel_size : 0 as * mut sys :: godot_method_bind , is_centered : 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_alpha_cut_mode : 0 as * mut sys :: godot_method_bind , set_axis : 0 as * mut sys :: godot_method_bind , set_billboard_mode : 0 as * mut sys :: godot_method_bind , set_centered : 0 as * mut sys :: godot_method_bind , set_draw_flag : 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_modulate : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_opacity : 0 as * mut sys :: godot_method_bind , set_pixel_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 (|| { SpriteBase3DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SpriteBase3D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . generate_triangle_mesh = (gd_api . godot_method_bind_get_method) (class_name , "generate_triangle_mesh\0" . as_ptr () as * const c_char) ; table . get_alpha_cut_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_alpha_cut_mode\0" . as_ptr () as * const c_char) ; table . get_axis = (gd_api . godot_method_bind_get_method) (class_name , "get_axis\0" . as_ptr () as * const c_char) ; table . get_billboard_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_billboard_mode\0" . as_ptr () as * const c_char) ; table . get_draw_flag = (gd_api . godot_method_bind_get_method) (class_name , "get_draw_flag\0" . as_ptr () as * const c_char) ; table . get_item_rect = (gd_api . godot_method_bind_get_method) (class_name , "get_item_rect\0" . as_ptr () as * const c_char) ; table . get_modulate = (gd_api . godot_method_bind_get_method) (class_name , "get_modulate\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_opacity = (gd_api . godot_method_bind_get_method) (class_name , "get_opacity\0" . as_ptr () as * const c_char) ; table . get_pixel_size = (gd_api . godot_method_bind_get_method) (class_name , "get_pixel_size\0" . as_ptr () as * const c_char) ; table . is_centered = (gd_api . godot_method_bind_get_method) (class_name , "is_centered\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_alpha_cut_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_alpha_cut_mode\0" . as_ptr () as * const c_char) ; table . set_axis = (gd_api . godot_method_bind_get_method) (class_name , "set_axis\0" . as_ptr () as * const c_char) ; table . set_billboard_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_billboard_mode\0" . as_ptr () as * const c_char) ; table . set_centered = (gd_api . godot_method_bind_get_method) (class_name , "set_centered\0" . as_ptr () as * const c_char) ; table . set_draw_flag = (gd_api . godot_method_bind_get_method) (class_name , "set_draw_flag\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_modulate = (gd_api . godot_method_bind_get_method) (class_name , "set_modulate\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_opacity = (gd_api . godot_method_bind_get_method) (class_name , "set_opacity\0" . as_ptr () as * const c_char) ; table . set_pixel_size = (gd_api . godot_method_bind_get_method) (class_name , "set_pixel_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-60c8dbcfaf0f3dfc/out/generated.rs:1198:10939 [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 VisualScriptPropertyGet` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptpropertyget.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\nVisualScriptPropertyGet 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 VisualScriptPropertyGet { this : RawObject < Self > , } # [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 VisualScriptPropertyGet { 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 VisualScriptPropertyGet { # [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 = VisualScriptPropertyGetMethodTable :: 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_path (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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_get :: CallMode { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertyGetMethodTable :: get (get_api ()) . get_call_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_script_property_get :: CallMode (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn index (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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_base_path (& self , base_path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 = VisualScriptPropertyGetMethodTable :: 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 VisualScriptPropertyGet { } unsafe impl GodotObject for VisualScriptPropertyGet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptPropertyGet" } } impl std :: ops :: Deref for VisualScriptPropertyGet { 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 VisualScriptPropertyGet { # [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 VisualScriptPropertyGet { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptPropertyGet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptPropertyGet { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptPropertyGet { } impl Instanciable for VisualScriptPropertyGet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptPropertyGet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptPropertyGetMethodTable { pub class_constructor : sys :: godot_class_constructor , 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_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 VisualScriptPropertyGetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptPropertyGetMethodTable = VisualScriptPropertyGetMethodTable { class_constructor : None , 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_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 (|| { VisualScriptPropertyGetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptPropertyGet\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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_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-60c8dbcfaf0f3dfc/out/generated.rs:1204:83248 [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 Control` inherits `CanvasItem` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_control.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`Control` 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\nControl 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 Control { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Anchor (pub i64) ; impl Anchor { pub const BEGIN : Anchor = Anchor (0i64) ; pub const END : Anchor = Anchor (1i64) ; } impl From < i64 > for Anchor { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Anchor > for i64 { # [inline] fn from (v : Anchor) -> Self { v . 0 } } # [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 FocusMode (pub i64) ; impl FocusMode { pub const NONE : FocusMode = FocusMode (0i64) ; pub const CLICK : FocusMode = FocusMode (1i64) ; pub const ALL : FocusMode = FocusMode (2i64) ; } impl From < i64 > for FocusMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < FocusMode > for i64 { # [inline] fn from (v : FocusMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct GrowDirection (pub i64) ; impl GrowDirection { pub const BEGIN : GrowDirection = GrowDirection (0i64) ; pub const END : GrowDirection = GrowDirection (1i64) ; pub const BOTH : GrowDirection = GrowDirection (2i64) ; } impl From < i64 > for GrowDirection { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < GrowDirection > for i64 { # [inline] fn from (v : GrowDirection) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LayoutPreset (pub i64) ; impl LayoutPreset { pub const TOP_LEFT : LayoutPreset = LayoutPreset (0i64) ; pub const TOP_RIGHT : LayoutPreset = LayoutPreset (1i64) ; pub const BOTTOM_LEFT : LayoutPreset = LayoutPreset (2i64) ; pub const BOTTOM_RIGHT : LayoutPreset = LayoutPreset (3i64) ; pub const CENTER_LEFT : LayoutPreset = LayoutPreset (4i64) ; pub const CENTER_TOP : LayoutPreset = LayoutPreset (5i64) ; pub const CENTER_RIGHT : LayoutPreset = LayoutPreset (6i64) ; pub const CENTER_BOTTOM : LayoutPreset = LayoutPreset (7i64) ; pub const CENTER : LayoutPreset = LayoutPreset (8i64) ; pub const LEFT_WIDE : LayoutPreset = LayoutPreset (9i64) ; pub const TOP_WIDE : LayoutPreset = LayoutPreset (10i64) ; pub const RIGHT_WIDE : LayoutPreset = LayoutPreset (11i64) ; pub const BOTTOM_WIDE : LayoutPreset = LayoutPreset (12i64) ; pub const VCENTER_WIDE : LayoutPreset = LayoutPreset (13i64) ; pub const HCENTER_WIDE : LayoutPreset = LayoutPreset (14i64) ; pub const WIDE : LayoutPreset = LayoutPreset (15i64) ; } impl From < i64 > for LayoutPreset { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LayoutPreset > for i64 { # [inline] fn from (v : LayoutPreset) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LayoutPresetMode (pub i64) ; impl LayoutPresetMode { pub const MINSIZE : LayoutPresetMode = LayoutPresetMode (0i64) ; pub const KEEP_WIDTH : LayoutPresetMode = LayoutPresetMode (1i64) ; pub const KEEP_HEIGHT : LayoutPresetMode = LayoutPresetMode (2i64) ; pub const KEEP_SIZE : LayoutPresetMode = LayoutPresetMode (3i64) ; } impl From < i64 > for LayoutPresetMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LayoutPresetMode > for i64 { # [inline] fn from (v : LayoutPresetMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MouseFilter (pub i64) ; impl MouseFilter { pub const STOP : MouseFilter = MouseFilter (0i64) ; pub const PASS : MouseFilter = MouseFilter (1i64) ; pub const IGNORE : MouseFilter = MouseFilter (2i64) ; } impl From < i64 > for MouseFilter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MouseFilter > for i64 { # [inline] fn from (v : MouseFilter) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SizeFlags (pub i64) ; impl SizeFlags { pub const FILL : SizeFlags = SizeFlags (1i64) ; pub const EXPAND : SizeFlags = SizeFlags (2i64) ; pub const EXPAND_FILL : SizeFlags = SizeFlags (3i64) ; pub const SHRINK_CENTER : SizeFlags = SizeFlags (4i64) ; pub const SHRINK_END : SizeFlags = SizeFlags (8i64) ; } impl From < i64 > for SizeFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SizeFlags > for i64 { # [inline] fn from (v : SizeFlags) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Control { pub const ANCHOR_BEGIN : i64 = 0i64 ; pub const ANCHOR_END : i64 = 1i64 ; 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 FOCUS_ALL : i64 = 2i64 ; pub const FOCUS_CLICK : i64 = 1i64 ; pub const FOCUS_NONE : i64 = 0i64 ; pub const GROW_DIRECTION_BEGIN : i64 = 0i64 ; pub const GROW_DIRECTION_BOTH : i64 = 2i64 ; pub const GROW_DIRECTION_END : i64 = 1i64 ; pub const MOUSE_FILTER_IGNORE : i64 = 2i64 ; pub const MOUSE_FILTER_PASS : i64 = 1i64 ; pub const MOUSE_FILTER_STOP : i64 = 0i64 ; pub const NOTIFICATION_FOCUS_ENTER : i64 = 43i64 ; pub const NOTIFICATION_FOCUS_EXIT : i64 = 44i64 ; pub const NOTIFICATION_MODAL_CLOSE : i64 = 46i64 ; pub const NOTIFICATION_MOUSE_ENTER : i64 = 41i64 ; pub const NOTIFICATION_MOUSE_EXIT : i64 = 42i64 ; pub const NOTIFICATION_RESIZED : i64 = 40i64 ; pub const NOTIFICATION_SCROLL_BEGIN : i64 = 47i64 ; pub const NOTIFICATION_SCROLL_END : i64 = 48i64 ; pub const NOTIFICATION_THEME_CHANGED : i64 = 45i64 ; pub const PRESET_BOTTOM_LEFT : i64 = 2i64 ; pub const PRESET_BOTTOM_RIGHT : i64 = 3i64 ; pub const PRESET_BOTTOM_WIDE : i64 = 12i64 ; pub const PRESET_CENTER : i64 = 8i64 ; pub const PRESET_CENTER_BOTTOM : i64 = 7i64 ; pub const PRESET_CENTER_LEFT : i64 = 4i64 ; pub const PRESET_CENTER_RIGHT : i64 = 6i64 ; pub const PRESET_CENTER_TOP : i64 = 5i64 ; pub const PRESET_HCENTER_WIDE : i64 = 14i64 ; pub const PRESET_LEFT_WIDE : i64 = 9i64 ; pub const PRESET_MODE_KEEP_HEIGHT : i64 = 2i64 ; pub const PRESET_MODE_KEEP_SIZE : i64 = 3i64 ; pub const PRESET_MODE_KEEP_WIDTH : i64 = 1i64 ; pub const PRESET_MODE_MINSIZE : i64 = 0i64 ; pub const PRESET_RIGHT_WIDE : i64 = 11i64 ; pub const PRESET_TOP_LEFT : i64 = 0i64 ; pub const PRESET_TOP_RIGHT : i64 = 1i64 ; pub const PRESET_TOP_WIDE : i64 = 10i64 ; pub const PRESET_VCENTER_WIDE : i64 = 13i64 ; pub const PRESET_WIDE : i64 = 15i64 ; pub const SIZE_EXPAND : i64 = 2i64 ; pub const SIZE_EXPAND_FILL : i64 = 3i64 ; pub const SIZE_FILL : i64 = 1i64 ; pub const SIZE_SHRINK_CENTER : i64 = 4i64 ; pub const SIZE_SHRINK_END : i64 = 8i64 ; } impl Control { # [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 = ControlMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Marks an input event as handled. Once you accept an input event, it stops propagating, even to nodes listening to [method Node._unhandled_input] or [method Node._unhandled_key_input]."] # [doc = ""] # [inline] pub fn accept_event (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . accept_event ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nOverrides the [Color] with given `name` in the [member theme] resource the control uses.\n**Note:** Unlike other theme overrides, there is no way to undo a color override without manually assigning the previous color.\n**Example of overriding a label's color and resetting it later:**\n```gdscript\n# Override the child node \"MyLabel\"'s font color to orange.\n$MyLabel.add_color_override(\"font_color\", Color(1, 0.5, 0))\n\n# Reset the color by creating a new node to get the default value:\nvar default_label_color = Label.new().get_color(\"font_color\")\n$MyLabel.add_color_override(\"font_color\", default_label_color)\n```"] # [doc = ""] # [inline] pub fn add_color_override (& self , name : impl Into < GodotString > , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . add_color_override ; let ret = crate :: icalls :: icallptr_void_str_color (method_bind , self . this . sys () . as_ptr () , name . into () , color) ; } } # [doc = "Overrides an integer constant with given `name` in the [member theme] resource the control uses. If the `constant` is `0`, the override is cleared and the constant from assigned [Theme] is used."] # [doc = ""] # [inline] pub fn add_constant_override (& self , name : impl Into < GodotString > , constant : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . add_constant_override ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , constant) ; } } # [doc = "Overrides the font with given `name` in the [member theme] resource the control uses. If `font` is `null` or invalid, the override is cleared and the font from assigned [Theme] is used."] # [doc = ""] # [inline] pub fn add_font_override (& self , name : impl Into < GodotString > , font : impl AsArg < crate :: generated :: font :: Font >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . add_font_override ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , font . as_arg_ptr ()) ; } } # [doc = "Overrides the icon with given `name` in the [member theme] resource the control uses. If `icon` is `null` or invalid, the override is cleared and the icon from assigned [Theme] is used."] # [doc = ""] # [inline] pub fn add_icon_override (& self , name : impl Into < GodotString > , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . add_icon_override ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , texture . as_arg_ptr ()) ; } } # [doc = "Overrides the [Shader] with given `name` in the [member theme] resource the control uses. If `shader` is `null` or invalid, the override is cleared and the shader from assigned [Theme] is used."] # [doc = ""] # [inline] pub fn add_shader_override (& self , name : impl Into < GodotString > , shader : impl AsArg < crate :: generated :: shader :: Shader >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . add_shader_override ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , shader . as_arg_ptr ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nOverrides the [StyleBox] with given `name` in the [member theme] resource the control uses. If `stylebox` is empty or invalid, the override is cleared and the [StyleBox] from assigned [Theme] is used.\n**Example of modifying a property in a StyleBox by duplicating it:**\n```gdscript\n# The snippet below assumes the child node MyButton has a StyleBoxFlat assigned.\n# Resources are shared across instances, so we need to duplicate it\n# to avoid modifying the appearance of all other buttons.\nvar new_stylebox_normal = $MyButton.get_stylebox(\"normal\").duplicate()\nnew_stylebox_normal.border_width_top = 3\nnew_stylebox_normal.border_color = Color(0, 1, 0.5)\n$MyButton.add_stylebox_override(\"normal\", new_stylebox_normal)\n\n# Remove the stylebox override:\n$MyButton.add_stylebox_override(\"normal\", null)\n```"] # [doc = ""] # [inline] pub fn add_stylebox_override (& self , name : impl Into < GodotString > , stylebox : impl AsArg < crate :: generated :: style_box :: StyleBox >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . add_stylebox_override ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , stylebox . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn find_next_valid_focus (& self) -> Option < Ref < crate :: generated :: control :: Control , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . find_next_valid_focus ; 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 = ""] # [doc = ""] # [inline] pub fn find_prev_valid_focus (& self) -> Option < Ref < crate :: generated :: control :: Control , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . find_prev_valid_focus ; 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 = "Forces drag and bypasses [method get_drag_data] and [method set_drag_preview] by passing `data` and `preview`. Drag will start even if the mouse is neither over nor pressed on this control.\nThe methods [method can_drop_data] and [method drop_data] must be implemented on controls that want to receive drop data."] # [doc = ""] # [inline] pub fn force_drag (& self , data : impl OwnedToVariant , preview : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . force_drag ; let ret = crate :: icalls :: icallptr_void_var_obj (method_bind , self . this . sys () . as_ptr () , data . owned_to_variant () , preview . as_arg_ptr ()) ; } } # [doc = "Anchors the top edge of the node to the origin, the center or the end of its parent control. It changes how the top margin updates when the node moves or changes size. You can use one of the [enum Anchor] constants for convenience."] # [doc = ""] # [inline] pub fn anchor (& self , margin : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_anchor ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "Returns [member margin_left] and [member margin_top]. See also [member rect_position]."] # [doc = ""] # [inline] pub fn get_begin (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_begin ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns a color from assigned [Theme] with given `name` and associated with [Control] of given `type`.\n```gdscript\nfunc _ready():\n modulate = get_color(\"font_color\", \"Button\") #get the color defined for button fonts\n```\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn get_color (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; mem :: transmute (ret) } } # [doc = "Returns combined minimum size from [member rect_min_size] and [method get_minimum_size]."] # [doc = ""] # [inline] pub fn get_combined_minimum_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_combined_minimum_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns a constant from assigned [Theme] with given `name` and associated with [Control] of given `type`.\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn get_constant (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_constant ; let ret = crate :: icalls :: icallptr_i64_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns the mouse cursor shape the control displays on mouse hover. See [enum CursorShape].\n# Default Arguments\n* `position` - `Vector2( 0, 0 )`"] # [doc = ""] # [inline] pub fn get_cursor_shape (& self , position : Vector2) -> crate :: generated :: control :: CursorShape { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_cursor_shape ; let ret = crate :: icalls :: icallptr_i64_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; crate :: generated :: control :: CursorShape (ret) } } # [doc = "The minimum size of the node's bounding rectangle. If you set it to a value greater than (0, 0), the node's bounding rectangle will always have at least this size, even if its content is smaller. If it's set to (0, 0), the node sizes automatically to fit its content, be it a texture or child nodes."] # [doc = ""] # [inline] pub fn custom_minimum_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_custom_minimum_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The default cursor shape for this control. Useful for Godot plugins and applications or games that use the system's mouse cursors.\n**Note:** On Linux, shapes may vary depending on the cursor theme of the system."] # [doc = ""] # [inline] pub fn default_cursor_shape (& self) -> crate :: generated :: control :: CursorShape { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_default_cursor_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: control :: CursorShape (ret) } } # [doc = "Returns [member margin_right] and [member margin_bottom]."] # [doc = ""] # [inline] pub fn get_end (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_end ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The focus access mode for the control (None, Click or All). Only one Control can be focused at the same time, and it will receive keyboard signals."] # [doc = ""] # [inline] pub fn focus_mode (& self) -> crate :: generated :: control :: FocusMode { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_focus_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: control :: FocusMode (ret) } } # [doc = "Tells Godot which node it should give keyboard focus to if the user presses the top arrow on the keyboard or top on a gamepad by default. You can change the key by editing the `ui_top` input action. The node must be a [Control]. If this property is not set, Godot will give focus to the closest [Control] to the bottom of this one."] # [doc = ""] # [inline] pub fn focus_neighbour (& self , margin : i64) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_focus_neighbour ; let ret = crate :: icalls :: icallptr_nodepath_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; NodePath :: from_sys (ret) } } # [doc = "Tells Godot which node it should give keyboard focus to if the user presses Tab on a keyboard by default. You can change the key by editing the `ui_focus_next` input action.\nIf this property is not set, Godot will select a \"best guess\" based on surrounding nodes in the scene tree."] # [doc = ""] # [inline] pub fn focus_next (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_focus_next ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "Returns the control that has the keyboard focus or `null` if none."] # [doc = ""] # [inline] pub fn get_focus_owner (& self) -> Option < Ref < crate :: generated :: control :: Control , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_focus_owner ; 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 = "Tells Godot which node it should give keyboard focus to if the user presses Shift+Tab on a keyboard by default. You can change the key by editing the `ui_focus_prev` input action.\nIf this property is not set, Godot will select a \"best guess\" based on surrounding nodes in the scene tree."] # [doc = ""] # [inline] pub fn focus_previous (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_focus_previous ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "Returns a font from assigned [Theme] with given `name` and associated with [Control] of given `type`.\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn get_font (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Option < Ref < crate :: generated :: font :: Font , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_font ; let ret = crate :: icalls :: icallptr_obj_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: font :: Font , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The node's global position, relative to the world (usually to the top-left corner of the window)."] # [doc = ""] # [inline] pub fn global_position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_global_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the position and size of the control relative to the top-left corner of the screen. See [member rect_position] and [member rect_size]."] # [doc = ""] # [inline] pub fn get_global_rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_global_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Controls the direction on the horizontal axis in which the control should grow if its horizontal minimum size is changed to be greater than its current size, as the control always has to be at least the minimum size."] # [doc = ""] # [inline] pub fn h_grow_direction (& self) -> crate :: generated :: control :: GrowDirection { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_h_grow_direction ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: control :: GrowDirection (ret) } } # [doc = "Tells the parent [Container] nodes how they should resize and place the node on the X axis. Use one of the [enum SizeFlags] constants to change the flags. See the constants to learn what each does."] # [doc = ""] # [inline] pub fn h_size_flags (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_h_size_flags ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an icon from assigned [Theme] with given `name` and associated with [Control] of given `type`.\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn get_icon (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_icon ; let ret = crate :: icalls :: icallptr_obj_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Distance between the node's top edge and its parent control, based on [member anchor_top].\nMargins are often controlled by one or multiple parent [Container] nodes, so you should not modify them manually if your node is a direct child of a [Container]. Margins update automatically when you move or resize the node."] # [doc = ""] # [inline] pub fn margin (& self , margin : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_margin ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "Returns the minimum size for this control. See [member rect_min_size]."] # [doc = ""] # [inline] pub fn get_minimum_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_minimum_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Controls whether the control will be able to receive mouse button input events through [method _gui_input] and how these events should be handled. Also controls whether the control can receive the [signal mouse_entered], and [signal mouse_exited] signals. See the constants to learn what each does."] # [doc = ""] # [inline] pub fn mouse_filter (& self) -> crate :: generated :: control :: MouseFilter { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_mouse_filter ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: control :: MouseFilter (ret) } } # [doc = "Returns the width/height occupied in the parent control."] # [doc = ""] # [inline] pub fn get_parent_area_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_parent_area_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the parent control node."] # [doc = ""] # [inline] pub fn get_parent_control (& self) -> Option < Ref < crate :: generated :: control :: Control , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_parent_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 = ""] # [doc = ""] # [inline] pub fn pass_on_modal_close_click (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_pass_on_modal_close_click ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "By default, the node's pivot is its top-left corner. When you change its [member rect_scale], it will scale around this pivot. Set this property to [member rect_size] / 2 to center the pivot in the node's rectangle."] # [doc = ""] # [inline] pub fn pivot_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_pivot_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The node's position, relative to its parent. It corresponds to the rectangle's top-left corner. The property is not affected by [member rect_pivot_offset]."] # [doc = ""] # [inline] pub fn position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the position and size of the control relative to the top-left corner of the parent Control. See [member rect_position] and [member rect_size]."] # [doc = ""] # [inline] pub fn get_rect (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_rect ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the rotation (in radians)."] # [doc = ""] # [inline] pub fn get_rotation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_rotation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The node's rotation around its pivot, in degrees. See [member rect_pivot_offset] to change the pivot's position."] # [doc = ""] # [inline] pub fn rotation_degrees (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: 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, relative to its [member rect_size]. Change this property to scale the node around its [member rect_pivot_offset]. The Control's [member hint_tooltip] will also scale according to this value.\n**Note:** This property is mainly intended to be used for animation purposes. Text inside the Control will look pixelated or blurry when the Control is scaled. To support multiple resolutions in your project, use an appropriate viewport stretch mode as described in the [url=https://docs.godotengine.org/en/latest/tutorials/viewports/multiple_resolutions.html]documentation[/url] instead of scaling Controls individually.\n**Note:** If the Control node is a child of a [Container] node, the scale will be reset to `Vector2(1, 1)` when the scene is instanced. To set the Control's scale when it's instanced, wait for one frame using `yield(get_tree(), \"idle_frame\")` then set its [member rect_scale] property."] # [doc = ""] # [inline] pub fn scale (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_scale ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The size of the node's bounding rectangle, in pixels. [Container] nodes update this property automatically."] # [doc = ""] # [inline] pub fn size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If the node and at least one of its neighbours uses the [constant SIZE_EXPAND] size flag, the parent [Container] will let it take more or less space depending on this property. If this node has a stretch ratio of 2 and its neighbour a ratio of 1, this node will take two thirds of the available space."] # [doc = ""] # [inline] pub fn stretch_ratio (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_stretch_ratio ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a [StyleBox] from assigned [Theme] with given `name` and associated with [Control] of given `type`.\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn get_stylebox (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> Option < Ref < crate :: generated :: style_box :: StyleBox , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_stylebox ; let ret = crate :: icalls :: icallptr_obj_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: style_box :: StyleBox , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Changing this property replaces the current [Theme] resource this node and all its [Control] children use."] # [doc = ""] # [inline] pub fn theme (& self) -> Option < Ref < crate :: generated :: theme :: Theme , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_theme ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: theme :: Theme , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the tooltip, which will appear when the cursor is resting over this control. See [member hint_tooltip].\n# Default Arguments\n* `at_position` - `Vector2( 0, 0 )`"] # [doc = ""] # [inline] pub fn get_tooltip (& self , at_position : Vector2) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_tooltip ; let ret = crate :: icalls :: icallptr_str_vec2 (method_bind , self . this . sys () . as_ptr () , at_position) ; GodotString :: from_sys (ret) } } # [doc = "Controls the direction on the vertical axis in which the control should grow if its vertical minimum size is changed to be greater than its current size, as the control always has to be at least the minimum size."] # [doc = ""] # [inline] pub fn v_grow_direction (& self) -> crate :: generated :: control :: GrowDirection { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_v_grow_direction ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: control :: GrowDirection (ret) } } # [doc = "Tells the parent [Container] nodes how they should resize and place the node on the Y axis. Use one of the [enum SizeFlags] constants to change the flags. See the constants to learn what each does."] # [doc = ""] # [inline] pub fn v_size_flags (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . get_v_size_flags ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nCreates an [InputEventMouseButton] that attempts to click the control. If the event is received, the control acquires focus.\n```gdscript\nfunc _process(delta):\n grab_click_focus() #when clicking another Control node, this node will be clicked instead\n```"] # [doc = ""] # [inline] pub fn grab_click_focus (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . grab_click_focus ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Steal the focus from another control and become the focused control (see [member focus_mode])."] # [doc = ""] # [inline] pub fn grab_focus (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . grab_focus ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns `true` if [Color] with given `name` and associated with [Control] of given `type` exists in assigned [Theme].\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn has_color (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_color ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if [Color] with given `name` has a valid override in this [Control] node."] # [doc = ""] # [inline] pub fn has_color_override (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_color_override ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if constant with given `name` and associated with [Control] of given `type` exists in assigned [Theme].\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn has_constant (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_constant ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if constant with given `name` has a valid override in this [Control] node."] # [doc = ""] # [inline] pub fn has_constant_override (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_constant_override ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if this is the current focused control. See [member focus_mode]."] # [doc = ""] # [inline] pub fn has_focus (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_focus ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if font with given `name` and associated with [Control] of given `type` exists in assigned [Theme].\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn has_font (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_font ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if font with given `name` has a valid override in this [Control] node."] # [doc = ""] # [inline] pub fn has_font_override (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_font_override ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if icon with given `name` and associated with [Control] of given `type` exists in assigned [Theme].\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn has_icon (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_icon ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if icon with given `name` has a valid override in this [Control] node."] # [doc = ""] # [inline] pub fn has_icon_override (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_icon_override ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if [Shader] with given `name` has a valid override in this [Control] node."] # [doc = ""] # [inline] pub fn has_shader_override (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_shader_override ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if [StyleBox] with given `name` and associated with [Control] of given `type` exists in assigned [Theme].\n# Default Arguments\n* `type` - `\"\"`"] # [doc = ""] # [inline] pub fn has_stylebox (& self , name : impl Into < GodotString > , node_type : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_stylebox ; let ret = crate :: icalls :: icallptr_bool_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , node_type . into ()) ; ret as _ } } # [doc = "Returns `true` if [StyleBox] with given `name` has a valid override in this [Control] node."] # [doc = ""] # [inline] pub fn has_stylebox_override (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . has_stylebox_override ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Enables whether rendering of [CanvasItem] based children should be clipped to this control's rectangle. If `true`, parts of a child which would be visibly outside of this control's rectangle will not be rendered."] # [doc = ""] # [inline] pub fn is_clipping_contents (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . is_clipping_contents ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Invalidates the size cache in this node and in parent nodes up to toplevel. Intended to be used with [method get_minimum_size] when the return value is changed. Setting [member rect_min_size] directly calls this method automatically."] # [doc = ""] # [inline] pub fn minimum_size_changed (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . minimum_size_changed ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Give up the focus. No other control will be able to receive keyboard input."] # [doc = ""] # [inline] pub fn release_focus (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . release_focus ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sets the anchor identified by `margin` constant from [enum Margin] enum to value `anchor`. A setter method for [member anchor_bottom], [member anchor_left], [member anchor_right] and [member anchor_top].\nIf `keep_margin` is `true`, margins aren't updated after this operation.\nIf `push_opposite_anchor` is `true` and the opposite anchor overlaps this anchor, the opposite one will have its value overridden. For example, when setting left anchor to 1 and the right anchor has value of 0.5, the right anchor will also get value of 1. If `push_opposite_anchor` was `false`, the left anchor would get value 0.5.\n# Default Arguments\n* `keep_margin` - `false`\n* `push_opposite_anchor` - `true`"] # [doc = ""] # [inline] pub fn set_anchor (& self , margin : i64 , anchor : f64 , keep_margin : bool , push_opposite_anchor : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_anchor ; let ret = crate :: icalls :: icallptr_void_i64_f64_bool_bool (method_bind , self . this . sys () . as_ptr () , margin , anchor , keep_margin , push_opposite_anchor) ; } } # [doc = "Works the same as [method set_anchor], but instead of `keep_margin` argument and automatic update of margin, it allows to set the margin offset yourself (see [method set_margin]).\n# Default Arguments\n* `push_opposite_anchor` - `false`"] # [doc = ""] # [inline] pub fn set_anchor_and_margin (& self , margin : i64 , anchor : f64 , offset : f64 , push_opposite_anchor : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_anchor_and_margin ; let ret = crate :: icalls :: icallptr_void_i64_f64_f64_bool (method_bind , self . this . sys () . as_ptr () , margin , anchor , offset , push_opposite_anchor) ; } } # [doc = "Sets both anchor preset and margin preset. See [method set_anchors_preset] and [method set_margins_preset].\n# Default Arguments\n* `resize_mode` - `0`\n* `margin` - `0`"] # [doc = ""] # [inline] pub fn set_anchors_and_margins_preset (& self , preset : i64 , resize_mode : i64 , margin : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_anchors_and_margins_preset ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , preset , resize_mode , margin) ; } } # [doc = "Sets the anchors to a `preset` from [enum Control.LayoutPreset] enum. This is code equivalent of using the Layout menu in 2D editor.\nIf `keep_margins` is `true`, control's position will also be updated.\n# Default Arguments\n* `keep_margins` - `false`"] # [doc = ""] # [inline] pub fn set_anchors_preset (& self , preset : i64 , keep_margins : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_anchors_preset ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , preset , keep_margins) ; } } # [doc = "Sets [member margin_left] and [member margin_top] at the same time. Equivalent of changing [member rect_position]."] # [doc = ""] # [inline] pub fn set_begin (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_begin ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "Enables whether rendering of [CanvasItem] based children should be clipped to this control's rectangle. If `true`, parts of a child which would be visibly outside of this control's rectangle will not be rendered."] # [doc = ""] # [inline] pub fn set_clip_contents (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_clip_contents ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The minimum size of the node's bounding rectangle. If you set it to a value greater than (0, 0), the node's bounding rectangle will always have at least this size, even if its content is smaller. If it's set to (0, 0), the node sizes automatically to fit its content, be it a texture or child nodes."] # [doc = ""] # [inline] pub fn set_custom_minimum_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_custom_minimum_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "The default cursor shape for this control. Useful for Godot plugins and applications or games that use the system's mouse cursors.\n**Note:** On Linux, shapes may vary depending on the cursor theme of the system."] # [doc = ""] # [inline] pub fn set_default_cursor_shape (& self , shape : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_default_cursor_shape ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , shape) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nForwards the handling of this control's drag and drop to `target` control.\nForwarding can be implemented in the target control similar to the methods [method get_drag_data], [method can_drop_data], and [method drop_data] but with two differences:\n1. The function name must be suffixed with **_fw**\n2. The function must take an extra argument that is the control doing the forwarding\n```gdscript\n# ThisControl.gd\nextends Control\nfunc _ready():\n set_drag_forwarding(target_control)\n\n# TargetControl.gd\nextends Control\nfunc can_drop_data_fw(position, data, from_control):\n return true\n\nfunc drop_data_fw(position, data, from_control):\n my_handle_data(data)\n\nfunc get_drag_data_fw(position, from_control):\n set_drag_preview(my_preview)\n return my_data()\n```"] # [doc = ""] # [inline] pub fn set_drag_forwarding (& self , target : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_drag_forwarding ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , target . as_arg_ptr ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nShows the given control at the mouse pointer. A good time to call this method is in [method get_drag_data]. The control must not be in the scene tree.\n```gdscript\nexport (Color, RGBA) var color = Color(1, 0, 0, 1)\n\nfunc get_drag_data(position):\n # Use a control that is not in the tree\n var cpb = ColorPickerButton.new()\n cpb.color = color\n cpb.rect_size = Vector2(50, 50)\n set_drag_preview(cpb)\n return color\n```"] # [doc = ""] # [inline] pub fn set_drag_preview (& self , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_drag_preview ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , control . as_arg_ptr ()) ; } } # [doc = "Sets [member margin_right] and [member margin_bottom] at the same time."] # [doc = ""] # [inline] pub fn set_end (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_end ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } # [doc = "The focus access mode for the control (None, Click or All). Only one Control can be focused at the same time, and it will receive keyboard signals."] # [doc = ""] # [inline] pub fn set_focus_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_focus_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Tells Godot which node it should give keyboard focus to if the user presses the top arrow on the keyboard or top on a gamepad by default. You can change the key by editing the `ui_top` input action. The node must be a [Control]. If this property is not set, Godot will give focus to the closest [Control] to the bottom of this one."] # [doc = ""] # [inline] pub fn set_focus_neighbour (& self , margin : i64 , neighbour : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_focus_neighbour ; let ret = crate :: icalls :: icallptr_void_i64_nodepath (method_bind , self . this . sys () . as_ptr () , margin , neighbour . into ()) ; } } # [doc = "Tells Godot which node it should give keyboard focus to if the user presses Tab on a keyboard by default. You can change the key by editing the `ui_focus_next` input action.\nIf this property is not set, Godot will select a \"best guess\" based on surrounding nodes in the scene tree."] # [doc = ""] # [inline] pub fn set_focus_next (& self , next : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_focus_next ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , next . into ()) ; } } # [doc = "Tells Godot which node it should give keyboard focus to if the user presses Shift+Tab on a keyboard by default. You can change the key by editing the `ui_focus_prev` input action.\nIf this property is not set, Godot will select a \"best guess\" based on surrounding nodes in the scene tree."] # [doc = ""] # [inline] pub fn set_focus_previous (& self , previous : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_focus_previous ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , previous . into ()) ; } } # [doc = "Sets the [member rect_global_position] to given `position`.\nIf `keep_margins` is `true`, control's anchors will be updated instead of margins.\n# Default Arguments\n* `keep_margins` - `false`"] # [doc = ""] # [inline] pub fn set_global_position (& self , position : Vector2 , keep_margins : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_global_position ; let ret = crate :: icalls :: icallptr_void_vec2_bool (method_bind , self . this . sys () . as_ptr () , position , keep_margins) ; } } # [doc = "Controls the direction on the horizontal axis in which the control should grow if its horizontal minimum size is changed to be greater than its current size, as the control always has to be at least the minimum size."] # [doc = ""] # [inline] pub fn set_h_grow_direction (& self , direction : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_h_grow_direction ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , direction) ; } } # [doc = "Tells the parent [Container] nodes how they should resize and place the node on the X axis. Use one of the [enum SizeFlags] constants to change the flags. See the constants to learn what each does."] # [doc = ""] # [inline] pub fn set_h_size_flags (& self , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_h_size_flags ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , flags) ; } } # [doc = "Distance between the node's top edge and its parent control, based on [member anchor_top].\nMargins are often controlled by one or multiple parent [Container] nodes, so you should not modify them manually if your node is a direct child of a [Container]. Margins update automatically when you move or resize the node."] # [doc = ""] # [inline] pub fn set_margin (& self , margin : i64 , offset : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_margin ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , margin , offset) ; } } # [doc = "Sets the margins to a `preset` from [enum Control.LayoutPreset] enum. This is code equivalent of using the Layout menu in 2D editor.\nUse parameter `resize_mode` with constants from [enum Control.LayoutPresetMode] to better determine the resulting size of the [Control]. Constant size will be ignored if used with presets that change size, e.g. `PRESET_LEFT_WIDE`.\nUse parameter `margin` to determine the gap between the [Control] and the edges.\n# Default Arguments\n* `resize_mode` - `0`\n* `margin` - `0`"] # [doc = ""] # [inline] pub fn set_margins_preset (& self , preset : i64 , resize_mode : i64 , margin : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_margins_preset ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , preset , resize_mode , margin) ; } } # [doc = "Controls whether the control will be able to receive mouse button input events through [method _gui_input] and how these events should be handled. Also controls whether the control can receive the [signal mouse_entered], and [signal mouse_exited] signals. See the constants to learn what each does."] # [doc = ""] # [inline] pub fn set_mouse_filter (& self , filter : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_mouse_filter ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , filter) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_pass_on_modal_close_click (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_pass_on_modal_close_click ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "By default, the node's pivot is its top-left corner. When you change its [member rect_scale], it will scale around this pivot. Set this property to [member rect_size] / 2 to center the pivot in the node's rectangle."] # [doc = ""] # [inline] pub fn set_pivot_offset (& self , pivot_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_pivot_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , pivot_offset) ; } } # [doc = "Sets the [member rect_position] to given `position`.\nIf `keep_margins` is `true`, control's anchors will be updated instead of margins.\n# Default Arguments\n* `keep_margins` - `false`"] # [doc = ""] # [inline] pub fn set_position (& self , position : Vector2 , keep_margins : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_position ; let ret = crate :: icalls :: icallptr_void_vec2_bool (method_bind , self . this . sys () . as_ptr () , position , keep_margins) ; } } # [doc = "Sets the rotation (in radians)."] # [doc = ""] # [inline] pub fn set_rotation (& self , radians : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_rotation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radians) ; } } # [doc = "The node's rotation around its pivot, in degrees. See [member rect_pivot_offset] to change the pivot's position."] # [doc = ""] # [inline] pub fn set_rotation_degrees (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: 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, relative to its [member rect_size]. Change this property to scale the node around its [member rect_pivot_offset]. The Control's [member hint_tooltip] will also scale according to this value.\n**Note:** This property is mainly intended to be used for animation purposes. Text inside the Control will look pixelated or blurry when the Control is scaled. To support multiple resolutions in your project, use an appropriate viewport stretch mode as described in the [url=https://docs.godotengine.org/en/latest/tutorials/viewports/multiple_resolutions.html]documentation[/url] instead of scaling Controls individually.\n**Note:** If the Control node is a child of a [Container] node, the scale will be reset to `Vector2(1, 1)` when the scene is instanced. To set the Control's scale when it's instanced, wait for one frame using `yield(get_tree(), \"idle_frame\")` then set its [member rect_scale] property."] # [doc = ""] # [inline] pub fn set_scale (& self , scale : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Sets the size (see [member rect_size]).\nIf `keep_margins` is `true`, control's anchors will be updated instead of margins.\n# Default Arguments\n* `keep_margins` - `false`"] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector2 , keep_margins : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_size ; let ret = crate :: icalls :: icallptr_void_vec2_bool (method_bind , self . this . sys () . as_ptr () , size , keep_margins) ; } } # [doc = "If the node and at least one of its neighbours uses the [constant SIZE_EXPAND] size flag, the parent [Container] will let it take more or less space depending on this property. If this node has a stretch ratio of 2 and its neighbour a ratio of 1, this node will take two thirds of the available space."] # [doc = ""] # [inline] pub fn set_stretch_ratio (& self , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_stretch_ratio ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ratio) ; } } # [doc = "Changing this property replaces the current [Theme] resource this node and all its [Control] children use."] # [doc = ""] # [inline] pub fn set_theme (& self , theme : impl AsArg < crate :: generated :: theme :: Theme >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_theme ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , theme . as_arg_ptr ()) ; } } # [doc = "Changes the tooltip text. The tooltip appears when the user's mouse cursor stays idle over this control for a few moments, provided that the [member mouse_filter] property is not [constant MOUSE_FILTER_IGNORE]. You can change the time required for the tooltip to appear with `gui/timers/tooltip_delay_sec` option in Project Settings."] # [doc = ""] # [inline] pub fn set_tooltip (& self , tooltip : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_tooltip ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , tooltip . into ()) ; } } # [doc = "Controls the direction on the vertical axis in which the control should grow if its vertical minimum size is changed to be greater than its current size, as the control always has to be at least the minimum size."] # [doc = ""] # [inline] pub fn set_v_grow_direction (& self , direction : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_v_grow_direction ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , direction) ; } } # [doc = "Tells the parent [Container] nodes how they should resize and place the node on the Y axis. Use one of the [enum SizeFlags] constants to change the flags. See the constants to learn what each does."] # [doc = ""] # [inline] pub fn set_v_size_flags (& self , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . set_v_size_flags ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , flags) ; } } # [doc = "Displays a control as modal. Control must be a subwindow. Modal controls capture the input signals until closed or the area outside them is accessed. When a modal control loses focus, or the ESC key is pressed, they automatically hide. Modal controls are used extensively for popup dialogs and menus.\nIf `exclusive` is `true`, other controls will not receive input and clicking outside this control will not close it.\n# Default Arguments\n* `exclusive` - `false`"] # [doc = ""] # [inline] pub fn show_modal (& self , exclusive : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . show_modal ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , exclusive) ; } } # [doc = "Moves the mouse cursor to `to_position`, relative to [member rect_position] of this [Control]."] # [doc = ""] # [inline] pub fn warp_mouse (& self , to_position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ControlMethodTable :: get (get_api ()) . warp_mouse ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , to_position) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Control { } unsafe impl GodotObject for Control { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Control" } } impl QueueFree for Control { # [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 Control { 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 Control { # [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 Control { } unsafe impl SubClass < crate :: generated :: node :: Node > for Control { } unsafe impl SubClass < crate :: generated :: object :: Object > for Control { } impl Instanciable for Control { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Control :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ControlMethodTable { pub class_constructor : sys :: godot_class_constructor , pub accept_event : * mut sys :: godot_method_bind , pub add_color_override : * mut sys :: godot_method_bind , pub add_constant_override : * mut sys :: godot_method_bind , pub add_font_override : * mut sys :: godot_method_bind , pub add_icon_override : * mut sys :: godot_method_bind , pub add_shader_override : * mut sys :: godot_method_bind , pub add_stylebox_override : * mut sys :: godot_method_bind , pub find_next_valid_focus : * mut sys :: godot_method_bind , pub find_prev_valid_focus : * mut sys :: godot_method_bind , pub force_drag : * mut sys :: godot_method_bind , pub get_anchor : * mut sys :: godot_method_bind , pub get_begin : * mut sys :: godot_method_bind , pub get_color : * mut sys :: godot_method_bind , pub get_combined_minimum_size : * mut sys :: godot_method_bind , pub get_constant : * mut sys :: godot_method_bind , pub get_cursor_shape : * mut sys :: godot_method_bind , pub get_custom_minimum_size : * mut sys :: godot_method_bind , pub get_default_cursor_shape : * mut sys :: godot_method_bind , pub get_end : * mut sys :: godot_method_bind , pub get_focus_mode : * mut sys :: godot_method_bind , pub get_focus_neighbour : * mut sys :: godot_method_bind , pub get_focus_next : * mut sys :: godot_method_bind , pub get_focus_owner : * mut sys :: godot_method_bind , pub get_focus_previous : * mut sys :: godot_method_bind , pub get_font : * mut sys :: godot_method_bind , pub get_global_position : * mut sys :: godot_method_bind , pub get_global_rect : * mut sys :: godot_method_bind , pub get_h_grow_direction : * mut sys :: godot_method_bind , pub get_h_size_flags : * mut sys :: godot_method_bind , pub get_icon : * mut sys :: godot_method_bind , pub get_margin : * mut sys :: godot_method_bind , pub get_minimum_size : * mut sys :: godot_method_bind , pub get_mouse_filter : * mut sys :: godot_method_bind , pub get_parent_area_size : * mut sys :: godot_method_bind , pub get_parent_control : * mut sys :: godot_method_bind , pub get_pass_on_modal_close_click : * mut sys :: godot_method_bind , pub get_pivot_offset : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub get_rect : * 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_size : * mut sys :: godot_method_bind , pub get_stretch_ratio : * mut sys :: godot_method_bind , pub get_stylebox : * mut sys :: godot_method_bind , pub get_theme : * mut sys :: godot_method_bind , pub get_tooltip : * mut sys :: godot_method_bind , pub get_v_grow_direction : * mut sys :: godot_method_bind , pub get_v_size_flags : * mut sys :: godot_method_bind , pub grab_click_focus : * mut sys :: godot_method_bind , pub grab_focus : * mut sys :: godot_method_bind , pub has_color : * mut sys :: godot_method_bind , pub has_color_override : * mut sys :: godot_method_bind , pub has_constant : * mut sys :: godot_method_bind , pub has_constant_override : * mut sys :: godot_method_bind , pub has_focus : * mut sys :: godot_method_bind , pub has_font : * mut sys :: godot_method_bind , pub has_font_override : * mut sys :: godot_method_bind , pub has_icon : * mut sys :: godot_method_bind , pub has_icon_override : * mut sys :: godot_method_bind , pub has_shader_override : * mut sys :: godot_method_bind , pub has_stylebox : * mut sys :: godot_method_bind , pub has_stylebox_override : * mut sys :: godot_method_bind , pub is_clipping_contents : * mut sys :: godot_method_bind , pub minimum_size_changed : * mut sys :: godot_method_bind , pub release_focus : * mut sys :: godot_method_bind , pub set_anchor : * mut sys :: godot_method_bind , pub set_anchor_and_margin : * mut sys :: godot_method_bind , pub set_anchors_and_margins_preset : * mut sys :: godot_method_bind , pub set_anchors_preset : * mut sys :: godot_method_bind , pub set_begin : * mut sys :: godot_method_bind , pub set_clip_contents : * mut sys :: godot_method_bind , pub set_custom_minimum_size : * mut sys :: godot_method_bind , pub set_default_cursor_shape : * mut sys :: godot_method_bind , pub set_drag_forwarding : * mut sys :: godot_method_bind , pub set_drag_preview : * mut sys :: godot_method_bind , pub set_end : * mut sys :: godot_method_bind , pub set_focus_mode : * mut sys :: godot_method_bind , pub set_focus_neighbour : * mut sys :: godot_method_bind , pub set_focus_next : * mut sys :: godot_method_bind , pub set_focus_previous : * mut sys :: godot_method_bind , pub set_global_position : * mut sys :: godot_method_bind , pub set_h_grow_direction : * mut sys :: godot_method_bind , pub set_h_size_flags : * mut sys :: godot_method_bind , pub set_margin : * mut sys :: godot_method_bind , pub set_margins_preset : * mut sys :: godot_method_bind , pub set_mouse_filter : * mut sys :: godot_method_bind , pub set_pass_on_modal_close_click : * mut sys :: godot_method_bind , pub set_pivot_offset : * 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_size : * mut sys :: godot_method_bind , pub set_stretch_ratio : * mut sys :: godot_method_bind , pub set_theme : * mut sys :: godot_method_bind , pub set_tooltip : * mut sys :: godot_method_bind , pub set_v_grow_direction : * mut sys :: godot_method_bind , pub set_v_size_flags : * mut sys :: godot_method_bind , pub show_modal : * mut sys :: godot_method_bind , pub warp_mouse : * mut sys :: godot_method_bind } impl ControlMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ControlMethodTable = ControlMethodTable { class_constructor : None , accept_event : 0 as * mut sys :: godot_method_bind , add_color_override : 0 as * mut sys :: godot_method_bind , add_constant_override : 0 as * mut sys :: godot_method_bind , add_font_override : 0 as * mut sys :: godot_method_bind , add_icon_override : 0 as * mut sys :: godot_method_bind , add_shader_override : 0 as * mut sys :: godot_method_bind , add_stylebox_override : 0 as * mut sys :: godot_method_bind , find_next_valid_focus : 0 as * mut sys :: godot_method_bind , find_prev_valid_focus : 0 as * mut sys :: godot_method_bind , force_drag : 0 as * mut sys :: godot_method_bind , get_anchor : 0 as * mut sys :: godot_method_bind , get_begin : 0 as * mut sys :: godot_method_bind , get_color : 0 as * mut sys :: godot_method_bind , get_combined_minimum_size : 0 as * mut sys :: godot_method_bind , get_constant : 0 as * mut sys :: godot_method_bind , get_cursor_shape : 0 as * mut sys :: godot_method_bind , get_custom_minimum_size : 0 as * mut sys :: godot_method_bind , get_default_cursor_shape : 0 as * mut sys :: godot_method_bind , get_end : 0 as * mut sys :: godot_method_bind , get_focus_mode : 0 as * mut sys :: godot_method_bind , get_focus_neighbour : 0 as * mut sys :: godot_method_bind , get_focus_next : 0 as * mut sys :: godot_method_bind , get_focus_owner : 0 as * mut sys :: godot_method_bind , get_focus_previous : 0 as * mut sys :: godot_method_bind , get_font : 0 as * mut sys :: godot_method_bind , get_global_position : 0 as * mut sys :: godot_method_bind , get_global_rect : 0 as * mut sys :: godot_method_bind , get_h_grow_direction : 0 as * mut sys :: godot_method_bind , get_h_size_flags : 0 as * mut sys :: godot_method_bind , get_icon : 0 as * mut sys :: godot_method_bind , get_margin : 0 as * mut sys :: godot_method_bind , get_minimum_size : 0 as * mut sys :: godot_method_bind , get_mouse_filter : 0 as * mut sys :: godot_method_bind , get_parent_area_size : 0 as * mut sys :: godot_method_bind , get_parent_control : 0 as * mut sys :: godot_method_bind , get_pass_on_modal_close_click : 0 as * mut sys :: godot_method_bind , get_pivot_offset : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , get_rect : 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_size : 0 as * mut sys :: godot_method_bind , get_stretch_ratio : 0 as * mut sys :: godot_method_bind , get_stylebox : 0 as * mut sys :: godot_method_bind , get_theme : 0 as * mut sys :: godot_method_bind , get_tooltip : 0 as * mut sys :: godot_method_bind , get_v_grow_direction : 0 as * mut sys :: godot_method_bind , get_v_size_flags : 0 as * mut sys :: godot_method_bind , grab_click_focus : 0 as * mut sys :: godot_method_bind , grab_focus : 0 as * mut sys :: godot_method_bind , has_color : 0 as * mut sys :: godot_method_bind , has_color_override : 0 as * mut sys :: godot_method_bind , has_constant : 0 as * mut sys :: godot_method_bind , has_constant_override : 0 as * mut sys :: godot_method_bind , has_focus : 0 as * mut sys :: godot_method_bind , has_font : 0 as * mut sys :: godot_method_bind , has_font_override : 0 as * mut sys :: godot_method_bind , has_icon : 0 as * mut sys :: godot_method_bind , has_icon_override : 0 as * mut sys :: godot_method_bind , has_shader_override : 0 as * mut sys :: godot_method_bind , has_stylebox : 0 as * mut sys :: godot_method_bind , has_stylebox_override : 0 as * mut sys :: godot_method_bind , is_clipping_contents : 0 as * mut sys :: godot_method_bind , minimum_size_changed : 0 as * mut sys :: godot_method_bind , release_focus : 0 as * mut sys :: godot_method_bind , set_anchor : 0 as * mut sys :: godot_method_bind , set_anchor_and_margin : 0 as * mut sys :: godot_method_bind , set_anchors_and_margins_preset : 0 as * mut sys :: godot_method_bind , set_anchors_preset : 0 as * mut sys :: godot_method_bind , set_begin : 0 as * mut sys :: godot_method_bind , set_clip_contents : 0 as * mut sys :: godot_method_bind , set_custom_minimum_size : 0 as * mut sys :: godot_method_bind , set_default_cursor_shape : 0 as * mut sys :: godot_method_bind , set_drag_forwarding : 0 as * mut sys :: godot_method_bind , set_drag_preview : 0 as * mut sys :: godot_method_bind , set_end : 0 as * mut sys :: godot_method_bind , set_focus_mode : 0 as * mut sys :: godot_method_bind , set_focus_neighbour : 0 as * mut sys :: godot_method_bind , set_focus_next : 0 as * mut sys :: godot_method_bind , set_focus_previous : 0 as * mut sys :: godot_method_bind , set_global_position : 0 as * mut sys :: godot_method_bind , set_h_grow_direction : 0 as * mut sys :: godot_method_bind , set_h_size_flags : 0 as * mut sys :: godot_method_bind , set_margin : 0 as * mut sys :: godot_method_bind , set_margins_preset : 0 as * mut sys :: godot_method_bind , set_mouse_filter : 0 as * mut sys :: godot_method_bind , set_pass_on_modal_close_click : 0 as * mut sys :: godot_method_bind , set_pivot_offset : 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_size : 0 as * mut sys :: godot_method_bind , set_stretch_ratio : 0 as * mut sys :: godot_method_bind , set_theme : 0 as * mut sys :: godot_method_bind , set_tooltip : 0 as * mut sys :: godot_method_bind , set_v_grow_direction : 0 as * mut sys :: godot_method_bind , set_v_size_flags : 0 as * mut sys :: godot_method_bind , show_modal : 0 as * mut sys :: godot_method_bind , warp_mouse : 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 (|| { ControlMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Control\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . accept_event = (gd_api . godot_method_bind_get_method) (class_name , "accept_event\0" . as_ptr () as * const c_char) ; table . add_color_override = (gd_api . godot_method_bind_get_method) (class_name , "add_color_override\0" . as_ptr () as * const c_char) ; table . add_constant_override = (gd_api . godot_method_bind_get_method) (class_name , "add_constant_override\0" . as_ptr () as * const c_char) ; table . add_font_override = (gd_api . godot_method_bind_get_method) (class_name , "add_font_override\0" . as_ptr () as * const c_char) ; table . add_icon_override = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_override\0" . as_ptr () as * const c_char) ; table . add_shader_override = (gd_api . godot_method_bind_get_method) (class_name , "add_shader_override\0" . as_ptr () as * const c_char) ; table . add_stylebox_override = (gd_api . godot_method_bind_get_method) (class_name , "add_stylebox_override\0" . as_ptr () as * const c_char) ; table . find_next_valid_focus = (gd_api . godot_method_bind_get_method) (class_name , "find_next_valid_focus\0" . as_ptr () as * const c_char) ; table . find_prev_valid_focus = (gd_api . godot_method_bind_get_method) (class_name , "find_prev_valid_focus\0" . as_ptr () as * const c_char) ; table . force_drag = (gd_api . godot_method_bind_get_method) (class_name , "force_drag\0" . as_ptr () as * const c_char) ; table . get_anchor = (gd_api . godot_method_bind_get_method) (class_name , "get_anchor\0" . as_ptr () as * const c_char) ; table . get_begin = (gd_api . godot_method_bind_get_method) (class_name , "get_begin\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_combined_minimum_size = (gd_api . godot_method_bind_get_method) (class_name , "get_combined_minimum_size\0" . as_ptr () as * const c_char) ; table . get_constant = (gd_api . godot_method_bind_get_method) (class_name , "get_constant\0" . as_ptr () as * const c_char) ; table . get_cursor_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_cursor_shape\0" . as_ptr () as * const c_char) ; table . get_custom_minimum_size = (gd_api . godot_method_bind_get_method) (class_name , "get_custom_minimum_size\0" . as_ptr () as * const c_char) ; table . get_default_cursor_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_default_cursor_shape\0" . as_ptr () as * const c_char) ; table . get_end = (gd_api . godot_method_bind_get_method) (class_name , "get_end\0" . as_ptr () as * const c_char) ; table . get_focus_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_focus_mode\0" . as_ptr () as * const c_char) ; table . get_focus_neighbour = (gd_api . godot_method_bind_get_method) (class_name , "get_focus_neighbour\0" . as_ptr () as * const c_char) ; table . get_focus_next = (gd_api . godot_method_bind_get_method) (class_name , "get_focus_next\0" . as_ptr () as * const c_char) ; table . get_focus_owner = (gd_api . godot_method_bind_get_method) (class_name , "get_focus_owner\0" . as_ptr () as * const c_char) ; table . get_focus_previous = (gd_api . godot_method_bind_get_method) (class_name , "get_focus_previous\0" . as_ptr () as * const c_char) ; table . get_font = (gd_api . godot_method_bind_get_method) (class_name , "get_font\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_rect = (gd_api . godot_method_bind_get_method) (class_name , "get_global_rect\0" . as_ptr () as * const c_char) ; table . get_h_grow_direction = (gd_api . godot_method_bind_get_method) (class_name , "get_h_grow_direction\0" . as_ptr () as * const c_char) ; table . get_h_size_flags = (gd_api . godot_method_bind_get_method) (class_name , "get_h_size_flags\0" . as_ptr () as * const c_char) ; table . get_icon = (gd_api . godot_method_bind_get_method) (class_name , "get_icon\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_minimum_size = (gd_api . godot_method_bind_get_method) (class_name , "get_minimum_size\0" . as_ptr () as * const c_char) ; table . get_mouse_filter = (gd_api . godot_method_bind_get_method) (class_name , "get_mouse_filter\0" . as_ptr () as * const c_char) ; table . get_parent_area_size = (gd_api . godot_method_bind_get_method) (class_name , "get_parent_area_size\0" . as_ptr () as * const c_char) ; table . get_parent_control = (gd_api . godot_method_bind_get_method) (class_name , "get_parent_control\0" . as_ptr () as * const c_char) ; table . get_pass_on_modal_close_click = (gd_api . godot_method_bind_get_method) (class_name , "get_pass_on_modal_close_click\0" . as_ptr () as * const c_char) ; table . get_pivot_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_pivot_offset\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_rect = (gd_api . godot_method_bind_get_method) (class_name , "get_rect\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_size = (gd_api . godot_method_bind_get_method) (class_name , "get_size\0" . as_ptr () as * const c_char) ; table . get_stretch_ratio = (gd_api . godot_method_bind_get_method) (class_name , "get_stretch_ratio\0" . as_ptr () as * const c_char) ; table . get_stylebox = (gd_api . godot_method_bind_get_method) (class_name , "get_stylebox\0" . as_ptr () as * const c_char) ; table . get_theme = (gd_api . godot_method_bind_get_method) (class_name , "get_theme\0" . as_ptr () as * const c_char) ; table . get_tooltip = (gd_api . godot_method_bind_get_method) (class_name , "get_tooltip\0" . as_ptr () as * const c_char) ; table . get_v_grow_direction = (gd_api . godot_method_bind_get_method) (class_name , "get_v_grow_direction\0" . as_ptr () as * const c_char) ; table . get_v_size_flags = (gd_api . godot_method_bind_get_method) (class_name , "get_v_size_flags\0" . as_ptr () as * const c_char) ; table . grab_click_focus = (gd_api . godot_method_bind_get_method) (class_name , "grab_click_focus\0" . as_ptr () as * const c_char) ; table . grab_focus = (gd_api . godot_method_bind_get_method) (class_name , "grab_focus\0" . as_ptr () as * const c_char) ; table . has_color = (gd_api . godot_method_bind_get_method) (class_name , "has_color\0" . as_ptr () as * const c_char) ; table . has_color_override = (gd_api . godot_method_bind_get_method) (class_name , "has_color_override\0" . as_ptr () as * const c_char) ; table . has_constant = (gd_api . godot_method_bind_get_method) (class_name , "has_constant\0" . as_ptr () as * const c_char) ; table . has_constant_override = (gd_api . godot_method_bind_get_method) (class_name , "has_constant_override\0" . as_ptr () as * const c_char) ; table . has_focus = (gd_api . godot_method_bind_get_method) (class_name , "has_focus\0" . as_ptr () as * const c_char) ; table . has_font = (gd_api . godot_method_bind_get_method) (class_name , "has_font\0" . as_ptr () as * const c_char) ; table . has_font_override = (gd_api . godot_method_bind_get_method) (class_name , "has_font_override\0" . as_ptr () as * const c_char) ; table . has_icon = (gd_api . godot_method_bind_get_method) (class_name , "has_icon\0" . as_ptr () as * const c_char) ; table . has_icon_override = (gd_api . godot_method_bind_get_method) (class_name , "has_icon_override\0" . as_ptr () as * const c_char) ; table . has_shader_override = (gd_api . godot_method_bind_get_method) (class_name , "has_shader_override\0" . as_ptr () as * const c_char) ; table . has_stylebox = (gd_api . godot_method_bind_get_method) (class_name , "has_stylebox\0" . as_ptr () as * const c_char) ; table . has_stylebox_override = (gd_api . godot_method_bind_get_method) (class_name , "has_stylebox_override\0" . as_ptr () as * const c_char) ; table . is_clipping_contents = (gd_api . godot_method_bind_get_method) (class_name , "is_clipping_contents\0" . as_ptr () as * const c_char) ; table . minimum_size_changed = (gd_api . godot_method_bind_get_method) (class_name , "minimum_size_changed\0" . as_ptr () as * const c_char) ; table . release_focus = (gd_api . godot_method_bind_get_method) (class_name , "release_focus\0" . as_ptr () as * const c_char) ; table . set_anchor = (gd_api . godot_method_bind_get_method) (class_name , "set_anchor\0" . as_ptr () as * const c_char) ; table . set_anchor_and_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_anchor_and_margin\0" . as_ptr () as * const c_char) ; table . set_anchors_and_margins_preset = (gd_api . godot_method_bind_get_method) (class_name , "set_anchors_and_margins_preset\0" . as_ptr () as * const c_char) ; table . set_anchors_preset = (gd_api . godot_method_bind_get_method) (class_name , "set_anchors_preset\0" . as_ptr () as * const c_char) ; table . set_begin = (gd_api . godot_method_bind_get_method) (class_name , "set_begin\0" . as_ptr () as * const c_char) ; table . set_clip_contents = (gd_api . godot_method_bind_get_method) (class_name , "set_clip_contents\0" . as_ptr () as * const c_char) ; table . set_custom_minimum_size = (gd_api . godot_method_bind_get_method) (class_name , "set_custom_minimum_size\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_drag_forwarding = (gd_api . godot_method_bind_get_method) (class_name , "set_drag_forwarding\0" . as_ptr () as * const c_char) ; table . set_drag_preview = (gd_api . godot_method_bind_get_method) (class_name , "set_drag_preview\0" . as_ptr () as * const c_char) ; table . set_end = (gd_api . godot_method_bind_get_method) (class_name , "set_end\0" . as_ptr () as * const c_char) ; table . set_focus_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_focus_mode\0" . as_ptr () as * const c_char) ; table . set_focus_neighbour = (gd_api . godot_method_bind_get_method) (class_name , "set_focus_neighbour\0" . as_ptr () as * const c_char) ; table . set_focus_next = (gd_api . godot_method_bind_get_method) (class_name , "set_focus_next\0" . as_ptr () as * const c_char) ; table . set_focus_previous = (gd_api . godot_method_bind_get_method) (class_name , "set_focus_previous\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_h_grow_direction = (gd_api . godot_method_bind_get_method) (class_name , "set_h_grow_direction\0" . as_ptr () as * const c_char) ; table . set_h_size_flags = (gd_api . godot_method_bind_get_method) (class_name , "set_h_size_flags\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_margins_preset = (gd_api . godot_method_bind_get_method) (class_name , "set_margins_preset\0" . as_ptr () as * const c_char) ; table . set_mouse_filter = (gd_api . godot_method_bind_get_method) (class_name , "set_mouse_filter\0" . as_ptr () as * const c_char) ; table . set_pass_on_modal_close_click = (gd_api . godot_method_bind_get_method) (class_name , "set_pass_on_modal_close_click\0" . as_ptr () as * const c_char) ; table . set_pivot_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_pivot_offset\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_size = (gd_api . godot_method_bind_get_method) (class_name , "set_size\0" . as_ptr () as * const c_char) ; table . set_stretch_ratio = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch_ratio\0" . as_ptr () as * const c_char) ; table . set_theme = (gd_api . godot_method_bind_get_method) (class_name , "set_theme\0" . as_ptr () as * const c_char) ; table . set_tooltip = (gd_api . godot_method_bind_get_method) (class_name , "set_tooltip\0" . as_ptr () as * const c_char) ; table . set_v_grow_direction = (gd_api . godot_method_bind_get_method) (class_name , "set_v_grow_direction\0" . as_ptr () as * const c_char) ; table . set_v_size_flags = (gd_api . godot_method_bind_get_method) (class_name , "set_v_size_flags\0" . as_ptr () as * const c_char) ; table . show_modal = (gd_api . godot_method_bind_get_method) (class_name , "show_modal\0" . as_ptr () as * const c_char) ; table . warp_mouse = (gd_api . godot_method_bind_get_method) (class_name , "warp_mouse\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-60c8dbcfaf0f3dfc/out/generated.rs:1210:3287 [INFO] [stdout] | [INFO] [stdout] 1210 | ...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] 1210 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1216:7570 [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 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-60c8dbcfaf0f3dfc/out/generated.rs:1222:6362 [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 class FuncRef` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_funcref.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\nFuncRef 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 FuncRef { this : RawObject < Self > , } impl FuncRef { # [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 = FuncRefMethodTable :: 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 the referenced function previously set by [method set_function] or [method @GDScript.funcref]."] # [doc = ""] # [inline] pub fn call_func (& self , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = FuncRefMethodTable :: get (get_api ()) . call_func ; let ret = crate :: icalls :: icallvarargs_ (method_bind , self . this . sys () . as_ptr () , varargs) ; ret } } # [doc = "Calls the referenced function previously set by [method set_function] or [method @GDScript.funcref]. Contrarily to [method call_func], this method does not support a variable number of arguments but expects all parameters to be passed via a single [Array]."] # [doc = ""] # [inline] pub fn call_funcv (& self , arg_array : VariantArray) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = FuncRefMethodTable :: get (get_api ()) . call_funcv ; let ret = crate :: icalls :: icallptr_var_arr (method_bind , self . this . sys () . as_ptr () , arg_array) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn function (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FuncRefMethodTable :: get (get_api ()) . get_function ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns whether the object still exists and has the function assigned."] # [doc = ""] # [inline] pub fn is_valid (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FuncRefMethodTable :: get (get_api ()) . is_valid ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The name of the referenced function to call on the object, without parentheses or any parameters."] # [doc = ""] # [inline] pub fn set_function (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FuncRefMethodTable :: get (get_api ()) . set_function ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "The object containing the referenced function. This object must be of a type actually inheriting from [Object], not a built-in type such as [int], [Vector2] or [Dictionary]."] # [doc = ""] # [inline] pub fn set_instance (& self , instance : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FuncRefMethodTable :: get (get_api ()) . set_instance ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , instance . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for FuncRef { } unsafe impl GodotObject for FuncRef { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "FuncRef" } } impl std :: ops :: Deref for FuncRef { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for FuncRef { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for FuncRef { } unsafe impl SubClass < crate :: generated :: object :: Object > for FuncRef { } impl Instanciable for FuncRef { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { FuncRef :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct FuncRefMethodTable { pub class_constructor : sys :: godot_class_constructor , pub call_func : * mut sys :: godot_method_bind , pub call_funcv : * mut sys :: godot_method_bind , pub get_function : * mut sys :: godot_method_bind , pub is_valid : * mut sys :: godot_method_bind , pub set_function : * mut sys :: godot_method_bind , pub set_instance : * mut sys :: godot_method_bind } impl FuncRefMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : FuncRefMethodTable = FuncRefMethodTable { class_constructor : None , call_func : 0 as * mut sys :: godot_method_bind , call_funcv : 0 as * mut sys :: godot_method_bind , get_function : 0 as * mut sys :: godot_method_bind , is_valid : 0 as * mut sys :: godot_method_bind , set_function : 0 as * mut sys :: godot_method_bind , set_instance : 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 (|| { FuncRefMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "FuncRef\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . call_func = (gd_api . godot_method_bind_get_method) (class_name , "call_func\0" . as_ptr () as * const c_char) ; table . call_funcv = (gd_api . godot_method_bind_get_method) (class_name , "call_funcv\0" . as_ptr () as * const c_char) ; table . get_function = (gd_api . godot_method_bind_get_method) (class_name , "get_function\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 . set_function = (gd_api . godot_method_bind_get_method) (class_name , "set_function\0" . as_ptr () as * const c_char) ; table . set_instance = (gd_api . godot_method_bind_get_method) (class_name , "set_instance\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-60c8dbcfaf0f3dfc/out/generated.rs:1228:7107 [INFO] [stdout] | [INFO] [stdout] 1228 | ... : 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] 1228 | # [doc = "`core class PolygonPathFinder` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_polygonpathfinder.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\nPolygonPathFinder 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 PolygonPathFinder { this : RawObject < Self > , } impl PolygonPathFinder { # [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 = PolygonPathFinderMethodTable :: 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 find_path (& self , from : Vector2 , to : Vector2) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . find_path ; let ret = crate :: icalls :: icallptr_vec2arr_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , from , to) ; Vector2Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_bounds (& self) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . get_bounds ; let ret = crate :: icalls :: icallptr_rect2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_closest_point (& self , point : Vector2) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . get_closest_point ; let ret = crate :: icalls :: icallptr_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , point) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_intersections (& self , from : Vector2 , to : Vector2) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . get_intersections ; let ret = crate :: icalls :: icallptr_vec2arr_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , from , to) ; Vector2Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_point_penalty (& self , idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . get_point_penalty ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_point_inside (& self , point : Vector2) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . is_point_inside ; let ret = crate :: icalls :: icallptr_bool_vec2 (method_bind , self . this . sys () . as_ptr () , point) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_point_penalty (& self , idx : i64 , penalty : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . set_point_penalty ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , idx , penalty) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn setup (& self , points : Vector2Array , connections : Int32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PolygonPathFinderMethodTable :: get (get_api ()) . setup ; let ret = crate :: icalls :: icallptr_void_vec2arr_i32arr (method_bind , self . this . sys () . as_ptr () , points , connections) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PolygonPathFinder { } unsafe impl GodotObject for PolygonPathFinder { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PolygonPathFinder" } } impl std :: ops :: Deref for PolygonPathFinder { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PolygonPathFinder { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PolygonPathFinder { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PolygonPathFinder { } unsafe impl SubClass < crate :: generated :: object :: Object > for PolygonPathFinder { } impl Instanciable for PolygonPathFinder { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PolygonPathFinder :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PolygonPathFinderMethodTable { pub class_constructor : sys :: godot_class_constructor , pub find_path : * mut sys :: godot_method_bind , pub get_bounds : * mut sys :: godot_method_bind , pub get_closest_point : * mut sys :: godot_method_bind , pub get_intersections : * mut sys :: godot_method_bind , pub get_point_penalty : * mut sys :: godot_method_bind , pub is_point_inside : * mut sys :: godot_method_bind , pub set_point_penalty : * mut sys :: godot_method_bind , pub setup : * mut sys :: godot_method_bind } impl PolygonPathFinderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PolygonPathFinderMethodTable = PolygonPathFinderMethodTable { class_constructor : None , find_path : 0 as * mut sys :: godot_method_bind , get_bounds : 0 as * mut sys :: godot_method_bind , get_closest_point : 0 as * mut sys :: godot_method_bind , get_intersections : 0 as * mut sys :: godot_method_bind , get_point_penalty : 0 as * mut sys :: godot_method_bind , is_point_inside : 0 as * mut sys :: godot_method_bind , set_point_penalty : 0 as * mut sys :: godot_method_bind , setup : 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 (|| { PolygonPathFinderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PolygonPathFinder\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . find_path = (gd_api . godot_method_bind_get_method) (class_name , "find_path\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_closest_point = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_point\0" . as_ptr () as * const c_char) ; table . get_intersections = (gd_api . godot_method_bind_get_method) (class_name , "get_intersections\0" . as_ptr () as * const c_char) ; table . get_point_penalty = (gd_api . godot_method_bind_get_method) (class_name , "get_point_penalty\0" . as_ptr () as * const c_char) ; table . is_point_inside = (gd_api . godot_method_bind_get_method) (class_name , "is_point_inside\0" . as_ptr () as * const c_char) ; table . set_point_penalty = (gd_api . godot_method_bind_get_method) (class_name , "set_point_penalty\0" . as_ptr () as * const c_char) ; table . setup = (gd_api . godot_method_bind_get_method) (class_name , "setup\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-60c8dbcfaf0f3dfc/out/generated.rs:1234:14674 [INFO] [stdout] | [INFO] [stdout] 1234 | ... : 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] 1234 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1240:4580 [INFO] [stdout] | [INFO] [stdout] 1240 | ...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] 1240 | # [doc = "`core class HScrollBar` inherits `ScrollBar` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_hscrollbar.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`HScrollBar` 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\nHScrollBar inherits methods from:\n - [ScrollBar](struct.ScrollBar.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 HScrollBar { this : RawObject < Self > , } impl HScrollBar { # [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 = HScrollBarMethodTable :: 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 HScrollBar { } unsafe impl GodotObject for HScrollBar { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "HScrollBar" } } impl QueueFree for HScrollBar { # [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 HScrollBar { type Target = crate :: generated :: scroll_bar :: ScrollBar ; # [inline] fn deref (& self) -> & crate :: generated :: scroll_bar :: ScrollBar { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for HScrollBar { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: scroll_bar :: ScrollBar { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: scroll_bar :: ScrollBar > for HScrollBar { } unsafe impl SubClass < crate :: generated :: range :: Range > for HScrollBar { } unsafe impl SubClass < crate :: generated :: control :: Control > for HScrollBar { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for HScrollBar { } unsafe impl SubClass < crate :: generated :: node :: Node > for HScrollBar { } unsafe impl SubClass < crate :: generated :: object :: Object > for HScrollBar { } impl Instanciable for HScrollBar { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { HScrollBar :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct HScrollBarMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl HScrollBarMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : HScrollBarMethodTable = HScrollBarMethodTable { 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 (|| { HScrollBarMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "HScrollBar\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-60c8dbcfaf0f3dfc/out/generated.rs:1246:3826 [INFO] [stdout] | [INFO] [stdout] 1246 | ...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] 1246 | # [doc = "`core class VisualShaderNodeVectorCompose` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorcompose.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\nVisualShaderNodeVectorCompose 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 VisualShaderNodeVectorCompose { this : RawObject < Self > , } impl VisualShaderNodeVectorCompose { # [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 = VisualShaderNodeVectorComposeMethodTable :: 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 VisualShaderNodeVectorCompose { } unsafe impl GodotObject for VisualShaderNodeVectorCompose { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorCompose" } } impl std :: ops :: Deref for VisualShaderNodeVectorCompose { 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 VisualShaderNodeVectorCompose { # [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 VisualShaderNodeVectorCompose { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorCompose { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorCompose { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorCompose { } impl Instanciable for VisualShaderNodeVectorCompose { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorCompose :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorComposeMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorComposeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorComposeMethodTable = VisualShaderNodeVectorComposeMethodTable { 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 (|| { VisualShaderNodeVectorComposeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorCompose\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-60c8dbcfaf0f3dfc/out/generated.rs:1252:4537 [INFO] [stdout] | [INFO] [stdout] 1252 | ... : 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] 1252 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1258:7789 [INFO] [stdout] | [INFO] [stdout] 1258 | ... : 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] 1258 | # [doc = "`core class Bone2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_bone2d.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`Bone2D` 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\nBone2D 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 Bone2D { this : RawObject < Self > , } impl Bone2D { # [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 = Bone2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Stores the node's current transforms in [member rest]."] # [doc = ""] # [inline] pub fn apply_rest (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Bone2DMethodTable :: get (get_api ()) . apply_rest ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Length of the bone's representation drawn in the editor's viewport in pixels."] # [doc = ""] # [inline] pub fn default_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Bone2DMethodTable :: get (get_api ()) . get_default_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the node's index as part of the entire skeleton. See [Skeleton2D]."] # [doc = ""] # [inline] pub fn get_index_in_skeleton (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Bone2DMethodTable :: get (get_api ()) . get_index_in_skeleton ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Rest transform of the bone. You can reset the node's transforms to this value using [method apply_rest]."] # [doc = ""] # [inline] pub fn rest (& self) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Bone2DMethodTable :: get (get_api ()) . get_rest ; let ret = crate :: icalls :: icallptr_trans2D (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the node's [member rest] `Transform2D` if it doesn't have a parent, or its rest pose relative to its parent."] # [doc = ""] # [inline] pub fn get_skeleton_rest (& self) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = Bone2DMethodTable :: get (get_api ()) . get_skeleton_rest ; let ret = crate :: icalls :: icallptr_trans2D (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Length of the bone's representation drawn in the editor's viewport in pixels."] # [doc = ""] # [inline] pub fn set_default_length (& self , default_length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Bone2DMethodTable :: get (get_api ()) . set_default_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , default_length) ; } } # [doc = "Rest transform of the bone. You can reset the node's transforms to this value using [method apply_rest]."] # [doc = ""] # [inline] pub fn set_rest (& self , rest : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Bone2DMethodTable :: get (get_api ()) . set_rest ; let ret = crate :: icalls :: icallptr_void_trans2D (method_bind , self . this . sys () . as_ptr () , rest) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Bone2D { } unsafe impl GodotObject for Bone2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Bone2D" } } impl QueueFree for Bone2D { # [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 Bone2D { 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 Bone2D { # [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 Bone2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Bone2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Bone2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Bone2D { } impl Instanciable for Bone2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Bone2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Bone2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub apply_rest : * mut sys :: godot_method_bind , pub get_default_length : * mut sys :: godot_method_bind , pub get_index_in_skeleton : * mut sys :: godot_method_bind , pub get_rest : * mut sys :: godot_method_bind , pub get_skeleton_rest : * mut sys :: godot_method_bind , pub set_default_length : * mut sys :: godot_method_bind , pub set_rest : * mut sys :: godot_method_bind } impl Bone2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Bone2DMethodTable = Bone2DMethodTable { class_constructor : None , apply_rest : 0 as * mut sys :: godot_method_bind , get_default_length : 0 as * mut sys :: godot_method_bind , get_index_in_skeleton : 0 as * mut sys :: godot_method_bind , get_rest : 0 as * mut sys :: godot_method_bind , get_skeleton_rest : 0 as * mut sys :: godot_method_bind , set_default_length : 0 as * mut sys :: godot_method_bind , set_rest : 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 (|| { Bone2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Bone2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . apply_rest = (gd_api . godot_method_bind_get_method) (class_name , "apply_rest\0" . as_ptr () as * const c_char) ; table . get_default_length = (gd_api . godot_method_bind_get_method) (class_name , "get_default_length\0" . as_ptr () as * const c_char) ; table . get_index_in_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "get_index_in_skeleton\0" . as_ptr () as * const c_char) ; table . get_rest = (gd_api . godot_method_bind_get_method) (class_name , "get_rest\0" . as_ptr () as * const c_char) ; table . get_skeleton_rest = (gd_api . godot_method_bind_get_method) (class_name , "get_skeleton_rest\0" . as_ptr () as * const c_char) ; table . set_default_length = (gd_api . godot_method_bind_get_method) (class_name , "set_default_length\0" . as_ptr () as * const c_char) ; table . set_rest = (gd_api . godot_method_bind_get_method) (class_name , "set_rest\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-60c8dbcfaf0f3dfc/out/generated.rs:1264:29477 [INFO] [stdout] | [INFO] [stdout] 1264 | ... : 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] 1264 | # [doc = "`core class Camera2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_camera2d.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`Camera2D` 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\nCamera2D 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 Camera2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AnchorMode (pub i64) ; impl AnchorMode { pub const FIXED_TOP_LEFT : AnchorMode = AnchorMode (0i64) ; pub const DRAG_CENTER : AnchorMode = AnchorMode (1i64) ; } impl From < i64 > for AnchorMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AnchorMode > for i64 { # [inline] fn from (v : AnchorMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Camera2DProcessMode (pub i64) ; impl Camera2DProcessMode { pub const PHYSICS : Camera2DProcessMode = Camera2DProcessMode (0i64) ; pub const IDLE : Camera2DProcessMode = Camera2DProcessMode (1i64) ; } impl From < i64 > for Camera2DProcessMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Camera2DProcessMode > for i64 { # [inline] fn from (v : Camera2DProcessMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Camera2D { pub const ANCHOR_MODE_DRAG_CENTER : i64 = 1i64 ; pub const ANCHOR_MODE_FIXED_TOP_LEFT : i64 = 0i64 ; pub const CAMERA2D_PROCESS_IDLE : i64 = 1i64 ; pub const CAMERA2D_PROCESS_PHYSICS : i64 = 0i64 ; } impl Camera2D { # [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 = Camera2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Aligns the camera to the tracked node."] # [doc = ""] # [inline] pub fn align (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . align ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes any [Camera2D] from the ancestor [Viewport]'s internal currently-assigned camera."] # [doc = ""] # [inline] pub fn clear_current (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . clear_current ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Forces the camera to update scroll immediately."] # [doc = ""] # [inline] pub fn force_update_scroll (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . force_update_scroll ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The Camera2D's anchor point. See [enum AnchorMode] constants."] # [doc = ""] # [inline] pub fn anchor_mode (& self) -> crate :: generated :: camera_2d :: AnchorMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_anchor_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: camera_2d :: AnchorMode (ret) } } # [doc = "Returns the camera position."] # [doc = ""] # [inline] pub fn get_camera_position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_camera_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the location of the [Camera2D]'s screen-center, relative to the origin."] # [doc = ""] # [inline] pub fn get_camera_screen_center (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_camera_screen_center ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The custom [Viewport] node attached to the [Camera2D]. If `null` or not a [Viewport], 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 = Camera2DMethodTable :: 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 = "Top margin needed to drag the camera. A value of `1` makes the camera move only when reaching the edge of the screen."] # [doc = ""] # [inline] pub fn drag_margin (& self , margin : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_drag_margin ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "Speed in pixels per second of the camera's smoothing effect when [member smoothing_enabled] is `true`."] # [doc = ""] # [inline] pub fn follow_smoothing (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_follow_smoothing ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The horizontal offset of the camera, relative to the drag margins.\n**Note:** Offset H is used only to force offset relative to margins. It's not updated in any way if drag margins are enabled and can be used to set initial offset."] # [doc = ""] # [inline] pub fn h_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_h_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Top scroll limit in pixels. The camera stops moving when reaching this value."] # [doc = ""] # [inline] pub fn limit (& self , margin : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_limit ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin) ; ret as _ } } # [doc = "The camera's offset, useful for looking around or camera shake animations."] # [doc = ""] # [inline] pub fn offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The camera's process callback. See [enum Camera2DProcessMode]."] # [doc = ""] # [inline] pub fn process_mode (& self) -> crate :: generated :: camera_2d :: Camera2DProcessMode { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_process_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: camera_2d :: Camera2DProcessMode (ret) } } # [doc = "The vertical offset of the camera, relative to the drag margins.\n**Note:** Used the same as [member offset_h]."] # [doc = ""] # [inline] pub fn v_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_v_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The camera's zoom relative to the viewport. Values larger than `Vector2(1, 1)` zoom out and smaller values zoom in. For an example, use `Vector2(0.5, 0.5)` for a 2× zoom-in, and `Vector2(4, 4)` for a 4× zoom-out."] # [doc = ""] # [inline] pub fn zoom (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . get_zoom ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, the camera is the active camera for the current scene. Only one camera can be current, so setting a different camera `current` will disable this one."] # [doc = ""] # [inline] pub fn is_current (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_current ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the camera smoothly moves towards the target at [member smoothing_speed]."] # [doc = ""] # [inline] pub fn is_follow_smoothing_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_follow_smoothing_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the camera only moves when reaching the horizontal drag margins. If `false`, the camera moves horizontally regardless of margins."] # [doc = ""] # [inline] pub fn is_h_drag_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_h_drag_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, draws the camera's limits rectangle in the editor."] # [doc = ""] # [inline] pub fn is_limit_drawing_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_limit_drawing_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the camera smoothly stops when reaches its limits."] # [doc = ""] # [inline] pub fn is_limit_smoothing_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_limit_smoothing_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, draws the camera's drag margin rectangle in the editor."] # [doc = ""] # [inline] pub fn is_margin_drawing_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_margin_drawing_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the camera rotates with the target."] # [doc = ""] # [inline] pub fn is_rotating (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_rotating ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, draws the camera's screen rectangle in the editor."] # [doc = ""] # [inline] pub fn is_screen_drawing_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_screen_drawing_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the camera only moves when reaching the vertical drag margins. If `false`, the camera moves vertically regardless of margins."] # [doc = ""] # [inline] pub fn is_v_drag_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . is_v_drag_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Make this the current 2D camera for the scene (viewport and layer), in case there are many cameras in the scene."] # [doc = ""] # [inline] pub fn make_current (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . make_current ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sets the camera's position immediately to its current smoothing destination.\nThis has no effect if smoothing is disabled."] # [doc = ""] # [inline] pub fn reset_smoothing (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . reset_smoothing ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The Camera2D's anchor point. See [enum AnchorMode] constants."] # [doc = ""] # [inline] pub fn set_anchor_mode (& self , anchor_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_anchor_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , anchor_mode) ; } } # [doc = "The custom [Viewport] node attached to the [Camera2D]. If `null` or not a [Viewport], 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 = Camera2DMethodTable :: 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 = "Top margin needed to drag the camera. A value of `1` makes the camera move only when reaching the edge of the screen."] # [doc = ""] # [inline] pub fn set_drag_margin (& self , margin : i64 , drag_margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_drag_margin ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , margin , drag_margin) ; } } # [doc = "If `true`, the camera smoothly moves towards the target at [member smoothing_speed]."] # [doc = ""] # [inline] pub fn set_enable_follow_smoothing (& self , follow_smoothing : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_enable_follow_smoothing ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , follow_smoothing) ; } } # [doc = "Speed in pixels per second of the camera's smoothing effect when [member smoothing_enabled] is `true`."] # [doc = ""] # [inline] pub fn set_follow_smoothing (& self , follow_smoothing : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_follow_smoothing ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , follow_smoothing) ; } } # [doc = "If `true`, the camera only moves when reaching the horizontal drag margins. If `false`, the camera moves horizontally regardless of margins."] # [doc = ""] # [inline] pub fn set_h_drag_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_h_drag_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The horizontal offset of the camera, relative to the drag margins.\n**Note:** Offset H is used only to force offset relative to margins. It's not updated in any way if drag margins are enabled and can be used to set initial offset."] # [doc = ""] # [inline] pub fn set_h_offset (& self , ofs : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_h_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ofs) ; } } # [doc = "Top scroll limit in pixels. The camera stops moving when reaching this value."] # [doc = ""] # [inline] pub fn set_limit (& self , margin : i64 , limit : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_limit ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , margin , limit) ; } } # [doc = "If `true`, draws the camera's limits rectangle in the editor."] # [doc = ""] # [inline] pub fn set_limit_drawing_enabled (& self , limit_drawing_enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_limit_drawing_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , limit_drawing_enabled) ; } } # [doc = "If `true`, the camera smoothly stops when reaches its limits."] # [doc = ""] # [inline] pub fn set_limit_smoothing_enabled (& self , limit_smoothing_enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_limit_smoothing_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , limit_smoothing_enabled) ; } } # [doc = "If `true`, draws the camera's drag margin rectangle in the editor."] # [doc = ""] # [inline] pub fn set_margin_drawing_enabled (& self , margin_drawing_enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_margin_drawing_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , margin_drawing_enabled) ; } } # [doc = "The camera's offset, useful for looking around or camera shake animations."] # [doc = ""] # [inline] pub fn set_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "The camera's process callback. See [enum Camera2DProcessMode]."] # [doc = ""] # [inline] pub fn set_process_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_process_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "If `true`, the camera rotates with the target."] # [doc = ""] # [inline] pub fn set_rotating (& self , rotating : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_rotating ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , rotating) ; } } # [doc = "If `true`, draws the camera's screen rectangle in the editor."] # [doc = ""] # [inline] pub fn set_screen_drawing_enabled (& self , screen_drawing_enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_screen_drawing_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , screen_drawing_enabled) ; } } # [doc = "If `true`, the camera only moves when reaching the vertical drag margins. If `false`, the camera moves vertically regardless of margins."] # [doc = ""] # [inline] pub fn set_v_drag_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_v_drag_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The vertical offset of the camera, relative to the drag margins.\n**Note:** Used the same as [member offset_h]."] # [doc = ""] # [inline] pub fn set_v_offset (& self , ofs : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_v_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , ofs) ; } } # [doc = "The camera's zoom relative to the viewport. Values larger than `Vector2(1, 1)` zoom out and smaller values zoom in. For an example, use `Vector2(0.5, 0.5)` for a 2× zoom-in, and `Vector2(4, 4)` for a 4× zoom-out."] # [doc = ""] # [inline] pub fn set_zoom (& self , zoom : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Camera2DMethodTable :: get (get_api ()) . set_zoom ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , zoom) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Camera2D { } unsafe impl GodotObject for Camera2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Camera2D" } } impl QueueFree for Camera2D { # [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 Camera2D { 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 Camera2D { # [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 Camera2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Camera2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Camera2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Camera2D { } impl Instanciable for Camera2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Camera2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Camera2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub align : * mut sys :: godot_method_bind , pub clear_current : * mut sys :: godot_method_bind , pub force_update_scroll : * mut sys :: godot_method_bind , pub get_anchor_mode : * mut sys :: godot_method_bind , pub get_camera_position : * mut sys :: godot_method_bind , pub get_camera_screen_center : * mut sys :: godot_method_bind , pub get_custom_viewport : * mut sys :: godot_method_bind , pub get_drag_margin : * mut sys :: godot_method_bind , pub get_follow_smoothing : * mut sys :: godot_method_bind , pub get_h_offset : * mut sys :: godot_method_bind , pub get_limit : * mut sys :: godot_method_bind , pub get_offset : * mut sys :: godot_method_bind , pub get_process_mode : * mut sys :: godot_method_bind , pub get_v_offset : * mut sys :: godot_method_bind , pub get_zoom : * mut sys :: godot_method_bind , pub is_current : * mut sys :: godot_method_bind , pub is_follow_smoothing_enabled : * mut sys :: godot_method_bind , pub is_h_drag_enabled : * mut sys :: godot_method_bind , pub is_limit_drawing_enabled : * mut sys :: godot_method_bind , pub is_limit_smoothing_enabled : * mut sys :: godot_method_bind , pub is_margin_drawing_enabled : * mut sys :: godot_method_bind , pub is_rotating : * mut sys :: godot_method_bind , pub is_screen_drawing_enabled : * mut sys :: godot_method_bind , pub is_v_drag_enabled : * mut sys :: godot_method_bind , pub make_current : * mut sys :: godot_method_bind , pub reset_smoothing : * mut sys :: godot_method_bind , pub set_anchor_mode : * mut sys :: godot_method_bind , pub set_custom_viewport : * mut sys :: godot_method_bind , pub set_drag_margin : * mut sys :: godot_method_bind , pub set_enable_follow_smoothing : * mut sys :: godot_method_bind , pub set_follow_smoothing : * mut sys :: godot_method_bind , pub set_h_drag_enabled : * mut sys :: godot_method_bind , pub set_h_offset : * mut sys :: godot_method_bind , pub set_limit : * mut sys :: godot_method_bind , pub set_limit_drawing_enabled : * mut sys :: godot_method_bind , pub set_limit_smoothing_enabled : * mut sys :: godot_method_bind , pub set_margin_drawing_enabled : * mut sys :: godot_method_bind , pub set_offset : * mut sys :: godot_method_bind , pub set_process_mode : * mut sys :: godot_method_bind , pub set_rotating : * mut sys :: godot_method_bind , pub set_screen_drawing_enabled : * mut sys :: godot_method_bind , pub set_v_drag_enabled : * mut sys :: godot_method_bind , pub set_v_offset : * mut sys :: godot_method_bind , pub set_zoom : * mut sys :: godot_method_bind } impl Camera2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Camera2DMethodTable = Camera2DMethodTable { class_constructor : None , align : 0 as * mut sys :: godot_method_bind , clear_current : 0 as * mut sys :: godot_method_bind , force_update_scroll : 0 as * mut sys :: godot_method_bind , get_anchor_mode : 0 as * mut sys :: godot_method_bind , get_camera_position : 0 as * mut sys :: godot_method_bind , get_camera_screen_center : 0 as * mut sys :: godot_method_bind , get_custom_viewport : 0 as * mut sys :: godot_method_bind , get_drag_margin : 0 as * mut sys :: godot_method_bind , get_follow_smoothing : 0 as * mut sys :: godot_method_bind , get_h_offset : 0 as * mut sys :: godot_method_bind , get_limit : 0 as * mut sys :: godot_method_bind , get_offset : 0 as * mut sys :: godot_method_bind , get_process_mode : 0 as * mut sys :: godot_method_bind , get_v_offset : 0 as * mut sys :: godot_method_bind , get_zoom : 0 as * mut sys :: godot_method_bind , is_current : 0 as * mut sys :: godot_method_bind , is_follow_smoothing_enabled : 0 as * mut sys :: godot_method_bind , is_h_drag_enabled : 0 as * mut sys :: godot_method_bind , is_limit_drawing_enabled : 0 as * mut sys :: godot_method_bind , is_limit_smoothing_enabled : 0 as * mut sys :: godot_method_bind , is_margin_drawing_enabled : 0 as * mut sys :: godot_method_bind , is_rotating : 0 as * mut sys :: godot_method_bind , is_screen_drawing_enabled : 0 as * mut sys :: godot_method_bind , is_v_drag_enabled : 0 as * mut sys :: godot_method_bind , make_current : 0 as * mut sys :: godot_method_bind , reset_smoothing : 0 as * mut sys :: godot_method_bind , set_anchor_mode : 0 as * mut sys :: godot_method_bind , set_custom_viewport : 0 as * mut sys :: godot_method_bind , set_drag_margin : 0 as * mut sys :: godot_method_bind , set_enable_follow_smoothing : 0 as * mut sys :: godot_method_bind , set_follow_smoothing : 0 as * mut sys :: godot_method_bind , set_h_drag_enabled : 0 as * mut sys :: godot_method_bind , set_h_offset : 0 as * mut sys :: godot_method_bind , set_limit : 0 as * mut sys :: godot_method_bind , set_limit_drawing_enabled : 0 as * mut sys :: godot_method_bind , set_limit_smoothing_enabled : 0 as * mut sys :: godot_method_bind , set_margin_drawing_enabled : 0 as * mut sys :: godot_method_bind , set_offset : 0 as * mut sys :: godot_method_bind , set_process_mode : 0 as * mut sys :: godot_method_bind , set_rotating : 0 as * mut sys :: godot_method_bind , set_screen_drawing_enabled : 0 as * mut sys :: godot_method_bind , set_v_drag_enabled : 0 as * mut sys :: godot_method_bind , set_v_offset : 0 as * mut sys :: godot_method_bind , set_zoom : 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 (|| { Camera2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Camera2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . align = (gd_api . godot_method_bind_get_method) (class_name , "align\0" . as_ptr () as * const c_char) ; table . clear_current = (gd_api . godot_method_bind_get_method) (class_name , "clear_current\0" . as_ptr () as * const c_char) ; table . force_update_scroll = (gd_api . godot_method_bind_get_method) (class_name , "force_update_scroll\0" . as_ptr () as * const c_char) ; table . get_anchor_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_anchor_mode\0" . as_ptr () as * const c_char) ; table . get_camera_position = (gd_api . godot_method_bind_get_method) (class_name , "get_camera_position\0" . as_ptr () as * const c_char) ; table . get_camera_screen_center = (gd_api . godot_method_bind_get_method) (class_name , "get_camera_screen_center\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_drag_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_drag_margin\0" . as_ptr () as * const c_char) ; table . get_follow_smoothing = (gd_api . godot_method_bind_get_method) (class_name , "get_follow_smoothing\0" . as_ptr () as * const c_char) ; table . get_h_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_h_offset\0" . as_ptr () as * const c_char) ; table . get_limit = (gd_api . godot_method_bind_get_method) (class_name , "get_limit\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_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_process_mode\0" . as_ptr () as * const c_char) ; table . get_v_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_v_offset\0" . as_ptr () as * const c_char) ; table . get_zoom = (gd_api . godot_method_bind_get_method) (class_name , "get_zoom\0" . as_ptr () as * const c_char) ; table . is_current = (gd_api . godot_method_bind_get_method) (class_name , "is_current\0" . as_ptr () as * const c_char) ; table . is_follow_smoothing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_follow_smoothing_enabled\0" . as_ptr () as * const c_char) ; table . is_h_drag_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_h_drag_enabled\0" . as_ptr () as * const c_char) ; table . is_limit_drawing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_limit_drawing_enabled\0" . as_ptr () as * const c_char) ; table . is_limit_smoothing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_limit_smoothing_enabled\0" . as_ptr () as * const c_char) ; table . is_margin_drawing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_margin_drawing_enabled\0" . as_ptr () as * const c_char) ; table . is_rotating = (gd_api . godot_method_bind_get_method) (class_name , "is_rotating\0" . as_ptr () as * const c_char) ; table . is_screen_drawing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_screen_drawing_enabled\0" . as_ptr () as * const c_char) ; table . is_v_drag_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_v_drag_enabled\0" . as_ptr () as * const c_char) ; table . make_current = (gd_api . godot_method_bind_get_method) (class_name , "make_current\0" . as_ptr () as * const c_char) ; table . reset_smoothing = (gd_api . godot_method_bind_get_method) (class_name , "reset_smoothing\0" . as_ptr () as * const c_char) ; table . set_anchor_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_anchor_mode\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_drag_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_drag_margin\0" . as_ptr () as * const c_char) ; table . set_enable_follow_smoothing = (gd_api . godot_method_bind_get_method) (class_name , "set_enable_follow_smoothing\0" . as_ptr () as * const c_char) ; table . set_follow_smoothing = (gd_api . godot_method_bind_get_method) (class_name , "set_follow_smoothing\0" . as_ptr () as * const c_char) ; table . set_h_drag_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_h_drag_enabled\0" . as_ptr () as * const c_char) ; table . set_h_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_h_offset\0" . as_ptr () as * const c_char) ; table . set_limit = (gd_api . godot_method_bind_get_method) (class_name , "set_limit\0" . as_ptr () as * const c_char) ; table . set_limit_drawing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_limit_drawing_enabled\0" . as_ptr () as * const c_char) ; table . set_limit_smoothing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_limit_smoothing_enabled\0" . as_ptr () as * const c_char) ; table . set_margin_drawing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_margin_drawing_enabled\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_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_process_mode\0" . as_ptr () as * const c_char) ; table . set_rotating = (gd_api . godot_method_bind_get_method) (class_name , "set_rotating\0" . as_ptr () as * const c_char) ; table . set_screen_drawing_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_screen_drawing_enabled\0" . as_ptr () as * const c_char) ; table . set_v_drag_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_v_drag_enabled\0" . as_ptr () as * const c_char) ; table . set_v_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_v_offset\0" . as_ptr () as * const c_char) ; table . set_zoom = (gd_api . godot_method_bind_get_method) (class_name , "set_zoom\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-60c8dbcfaf0f3dfc/out/generated.rs:1270:7682 [INFO] [stdout] | [INFO] [stdout] 1270 | ... : 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] 1270 | # [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-60c8dbcfaf0f3dfc/out/generated.rs:1276:32706 [INFO] [stdout] | [INFO] [stdout] 1276 | ... : 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] 1276 | # [doc = "`core class ParticlesMaterial` inherits `Material` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_particlesmaterial.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\nParticlesMaterial 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 ParticlesMaterial { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EmissionShape (pub i64) ; impl EmissionShape { pub const POINT : EmissionShape = EmissionShape (0i64) ; pub const SPHERE : EmissionShape = EmissionShape (1i64) ; pub const BOX : EmissionShape = EmissionShape (2i64) ; pub const POINTS : EmissionShape = EmissionShape (3i64) ; pub const DIRECTED_POINTS : EmissionShape = EmissionShape (4i64) ; pub const MAX : EmissionShape = EmissionShape (5i64) ; } impl From < i64 > for EmissionShape { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EmissionShape > for i64 { # [inline] fn from (v : EmissionShape) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Flags (pub i64) ; impl Flags { pub const ALIGN_Y_TO_VELOCITY : Flags = Flags (0i64) ; pub const ROTATE_Y : Flags = Flags (1i64) ; pub const DISABLE_Z : Flags = Flags (2i64) ; pub const MAX : Flags = Flags (3i64) ; } 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 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Parameter (pub i64) ; impl Parameter { pub const INITIAL_LINEAR_VELOCITY : Parameter = Parameter (0i64) ; pub const ANGULAR_VELOCITY : Parameter = Parameter (1i64) ; pub const ORBIT_VELOCITY : Parameter = Parameter (2i64) ; pub const LINEAR_ACCEL : Parameter = Parameter (3i64) ; pub const RADIAL_ACCEL : Parameter = Parameter (4i64) ; pub const TANGENTIAL_ACCEL : Parameter = Parameter (5i64) ; pub const DAMPING : Parameter = Parameter (6i64) ; pub const ANGLE : Parameter = Parameter (7i64) ; pub const SCALE : Parameter = Parameter (8i64) ; pub const HUE_VARIATION : Parameter = Parameter (9i64) ; pub const ANIM_SPEED : Parameter = Parameter (10i64) ; pub const ANIM_OFFSET : Parameter = Parameter (11i64) ; pub const MAX : Parameter = Parameter (12i64) ; } impl From < i64 > for Parameter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Parameter > for i64 { # [inline] fn from (v : Parameter) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ParticlesMaterial { pub const EMISSION_SHAPE_BOX : i64 = 2i64 ; pub const EMISSION_SHAPE_DIRECTED_POINTS : i64 = 4i64 ; pub const EMISSION_SHAPE_MAX : i64 = 5i64 ; pub const EMISSION_SHAPE_POINT : i64 = 0i64 ; pub const EMISSION_SHAPE_POINTS : i64 = 3i64 ; pub const EMISSION_SHAPE_SPHERE : i64 = 1i64 ; pub const FLAG_ALIGN_Y_TO_VELOCITY : i64 = 0i64 ; pub const FLAG_DISABLE_Z : i64 = 2i64 ; pub const FLAG_MAX : i64 = 3i64 ; pub const FLAG_ROTATE_Y : i64 = 1i64 ; pub const PARAM_ANGLE : i64 = 7i64 ; pub const PARAM_ANGULAR_VELOCITY : i64 = 1i64 ; pub const PARAM_ANIM_OFFSET : i64 = 11i64 ; pub const PARAM_ANIM_SPEED : i64 = 10i64 ; pub const PARAM_DAMPING : i64 = 6i64 ; pub const PARAM_HUE_VARIATION : i64 = 9i64 ; pub const PARAM_INITIAL_LINEAR_VELOCITY : i64 = 0i64 ; pub const PARAM_LINEAR_ACCEL : i64 = 3i64 ; pub const PARAM_MAX : i64 = 12i64 ; pub const PARAM_ORBIT_VELOCITY : i64 = 2i64 ; pub const PARAM_RADIAL_ACCEL : i64 = 4i64 ; pub const PARAM_SCALE : i64 = 8i64 ; pub const PARAM_TANGENTIAL_ACCEL : i64 = 5i64 ; } impl ParticlesMaterial { # [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 = ParticlesMaterialMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Each particle's initial color. If the [Particles2D]'s `texture` is defined, it will be multiplied by this color. To have particle display color in a [SpatialMaterial] make sure to set [member SpatialMaterial.vertex_color_use_as_albedo] to `true`."] # [doc = ""] # [inline] pub fn color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Each particle's color will vary along this [GradientTexture]."] # [doc = ""] # [inline] pub fn color_ramp (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_color_ramp ; 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 = "Unit vector specifying the particles' emission direction."] # [doc = ""] # [inline] pub fn direction (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_direction ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The box's extents if `emission_shape` is set to [constant EMISSION_SHAPE_BOX]."] # [doc = ""] # [inline] pub fn emission_box_extents (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_emission_box_extents ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Particle color will be modulated by color determined by sampling this texture at the same point as the [member emission_point_texture]."] # [doc = ""] # [inline] pub fn emission_color_texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_emission_color_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 = "Particle velocity and rotation will be set by sampling this texture at the same point as the [member emission_point_texture]. Used only in [constant EMISSION_SHAPE_DIRECTED_POINTS]. Can be created automatically from mesh or node by selecting \"Create Emission Points from Mesh/Node\" under the \"Particles\" tool in the toolbar."] # [doc = ""] # [inline] pub fn emission_normal_texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_emission_normal_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 number of emission points if `emission_shape` is set to [constant EMISSION_SHAPE_POINTS] or [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn emission_point_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_emission_point_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Particles will be emitted at positions determined by sampling this texture at a random position. Used with [constant EMISSION_SHAPE_POINTS] and [constant EMISSION_SHAPE_DIRECTED_POINTS]. Can be created automatically from mesh or node by selecting \"Create Emission Points from Mesh/Node\" under the \"Particles\" tool in the toolbar."] # [doc = ""] # [inline] pub fn emission_point_texture (& self) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_emission_point_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 = "Particles will be emitted inside this region. Use [enum EmissionShape] constants for values."] # [doc = ""] # [inline] pub fn emission_shape (& self) -> crate :: generated :: particles_material :: EmissionShape { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_emission_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: particles_material :: EmissionShape (ret) } } # [doc = "The sphere's radius if `emission_shape` is set to [constant EMISSION_SHAPE_SPHERE]."] # [doc = ""] # [inline] pub fn emission_sphere_radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_emission_sphere_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, particles rotate around Y axis by [member angle]."] # [doc = ""] # [inline] pub fn flag (& self , flag : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_flag ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , flag) ; ret as _ } } # [doc = "Amount of [member spread] in Y/Z plane. A value of `1` restricts particles to X/Z plane."] # [doc = ""] # [inline] pub fn flatness (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_flatness ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gravity applied to every particle."] # [doc = ""] # [inline] pub fn gravity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_gravity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Particle lifetime randomness ratio."] # [doc = ""] # [inline] pub fn lifetime_randomness (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_lifetime_randomness ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Tangential acceleration applied to each particle. Tangential acceleration is perpendicular to the particle's velocity giving the particles a swirling motion."] # [doc = ""] # [inline] pub fn param (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_param ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "Tangential acceleration randomness ratio."] # [doc = ""] # [inline] pub fn param_randomness (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_param_randomness ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "Each particle's tangential acceleration will vary along this [CurveTexture]."] # [doc = ""] # [inline] pub fn param_texture (& self , param : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_param_texture ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Each particle's initial direction range from `+spread` to `-spread` degrees. Applied to X/Z plane and Y/Z planes."] # [doc = ""] # [inline] pub fn spread (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_spread ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Trail particles' color will vary along this [GradientTexture]."] # [doc = ""] # [inline] pub fn trail_color_modifier (& self) -> Option < Ref < crate :: generated :: gradient_texture :: GradientTexture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_trail_color_modifier ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: gradient_texture :: GradientTexture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Emitter will emit `amount` divided by `trail_divisor` particles. The remaining particles will be used as trail(s)."] # [doc = ""] # [inline] pub fn trail_divisor (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_trail_divisor ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Trail particles' size will vary along this [CurveTexture]."] # [doc = ""] # [inline] pub fn trail_size_modifier (& self) -> Option < Ref < crate :: generated :: curve_texture :: CurveTexture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . get_trail_size_modifier ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: curve_texture :: CurveTexture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Each particle's initial color. If the [Particles2D]'s `texture` is defined, it will be multiplied by this color. To have particle display color in a [SpatialMaterial] make sure to set [member SpatialMaterial.vertex_color_use_as_albedo] to `true`."] # [doc = ""] # [inline] pub fn set_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "Each particle's color will vary along this [GradientTexture]."] # [doc = ""] # [inline] pub fn set_color_ramp (& self , ramp : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_color_ramp ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , ramp . as_arg_ptr ()) ; } } # [doc = "Unit vector specifying the particles' emission direction."] # [doc = ""] # [inline] pub fn set_direction (& self , degrees : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_direction ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "The box's extents if `emission_shape` is set to [constant EMISSION_SHAPE_BOX]."] # [doc = ""] # [inline] pub fn set_emission_box_extents (& self , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_emission_box_extents ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , extents) ; } } # [doc = "Particle color will be modulated by color determined by sampling this texture at the same point as the [member emission_point_texture]."] # [doc = ""] # [inline] pub fn set_emission_color_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_emission_color_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "Particle velocity and rotation will be set by sampling this texture at the same point as the [member emission_point_texture]. Used only in [constant EMISSION_SHAPE_DIRECTED_POINTS]. Can be created automatically from mesh or node by selecting \"Create Emission Points from Mesh/Node\" under the \"Particles\" tool in the toolbar."] # [doc = ""] # [inline] pub fn set_emission_normal_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_emission_normal_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "The number of emission points if `emission_shape` is set to [constant EMISSION_SHAPE_POINTS] or [constant EMISSION_SHAPE_DIRECTED_POINTS]."] # [doc = ""] # [inline] pub fn set_emission_point_count (& self , point_count : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_emission_point_count ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , point_count) ; } } # [doc = "Particles will be emitted at positions determined by sampling this texture at a random position. Used with [constant EMISSION_SHAPE_POINTS] and [constant EMISSION_SHAPE_DIRECTED_POINTS]. Can be created automatically from mesh or node by selecting \"Create Emission Points from Mesh/Node\" under the \"Particles\" tool in the toolbar."] # [doc = ""] # [inline] pub fn set_emission_point_texture (& self , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_emission_point_texture ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "Particles will be emitted inside this region. Use [enum EmissionShape] constants for values."] # [doc = ""] # [inline] pub fn set_emission_shape (& self , shape : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_emission_shape ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , shape) ; } } # [doc = "The sphere's radius if `emission_shape` is set to [constant EMISSION_SHAPE_SPHERE]."] # [doc = ""] # [inline] pub fn set_emission_sphere_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_emission_sphere_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = "If `true`, particles rotate around Y axis by [member angle]."] # [doc = ""] # [inline] pub fn set_flag (& self , flag : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_flag ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , flag , enable) ; } } # [doc = "Amount of [member spread] in Y/Z plane. A value of `1` restricts particles to X/Z plane."] # [doc = ""] # [inline] pub fn set_flatness (& self , amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_flatness ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Gravity applied to every particle."] # [doc = ""] # [inline] pub fn set_gravity (& self , accel_vec : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_gravity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , accel_vec) ; } } # [doc = "Particle lifetime randomness ratio."] # [doc = ""] # [inline] pub fn set_lifetime_randomness (& self , randomness : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_lifetime_randomness ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , randomness) ; } } # [doc = "Tangential acceleration applied to each particle. Tangential acceleration is perpendicular to the particle's velocity giving the particles a swirling motion."] # [doc = ""] # [inline] pub fn set_param (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_param ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , value) ; } } # [doc = "Tangential acceleration randomness ratio."] # [doc = ""] # [inline] pub fn set_param_randomness (& self , param : i64 , randomness : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_param_randomness ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , param , randomness) ; } } # [doc = "Each particle's tangential acceleration will vary along this [CurveTexture]."] # [doc = ""] # [inline] pub fn set_param_texture (& self , param : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_param_texture ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , param , texture . as_arg_ptr ()) ; } } # [doc = "Each particle's initial direction range from `+spread` to `-spread` degrees. Applied to X/Z plane and Y/Z planes."] # [doc = ""] # [inline] pub fn set_spread (& self , degrees : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_spread ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , degrees) ; } } # [doc = "Trail particles' color will vary along this [GradientTexture]."] # [doc = ""] # [inline] pub fn set_trail_color_modifier (& self , texture : impl AsArg < crate :: generated :: gradient_texture :: GradientTexture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_trail_color_modifier ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr ()) ; } } # [doc = "Emitter will emit `amount` divided by `trail_divisor` particles. The remaining particles will be used as trail(s)."] # [doc = ""] # [inline] pub fn set_trail_divisor (& self , divisor : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_trail_divisor ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , divisor) ; } } # [doc = "Trail particles' size will vary along this [CurveTexture]."] # [doc = ""] # [inline] pub fn set_trail_size_modifier (& self , texture : impl AsArg < crate :: generated :: curve_texture :: CurveTexture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParticlesMaterialMethodTable :: get (get_api ()) . set_trail_size_modifier ; 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 ParticlesMaterial { } unsafe impl GodotObject for ParticlesMaterial { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ParticlesMaterial" } } impl std :: ops :: Deref for ParticlesMaterial { type Target = crate :: generated :: material :: Material ; # [inline] fn deref (& self) -> & crate :: generated :: material :: Material { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ParticlesMaterial { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: material :: Material { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: material :: Material > for ParticlesMaterial { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ParticlesMaterial { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ParticlesMaterial { } unsafe impl SubClass < crate :: generated :: object :: Object > for ParticlesMaterial { } impl Instanciable for ParticlesMaterial { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ParticlesMaterial :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ParticlesMaterialMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_color : * mut sys :: godot_method_bind , pub get_color_ramp : * mut sys :: godot_method_bind , pub get_direction : * mut sys :: godot_method_bind , pub get_emission_box_extents : * mut sys :: godot_method_bind , pub get_emission_color_texture : * mut sys :: godot_method_bind , pub get_emission_normal_texture : * mut sys :: godot_method_bind , pub get_emission_point_count : * mut sys :: godot_method_bind , pub get_emission_point_texture : * mut sys :: godot_method_bind , pub get_emission_shape : * mut sys :: godot_method_bind , pub get_emission_sphere_radius : * mut sys :: godot_method_bind , pub get_flag : * mut sys :: godot_method_bind , pub get_flatness : * mut sys :: godot_method_bind , pub get_gravity : * mut sys :: godot_method_bind , pub get_lifetime_randomness : * mut sys :: godot_method_bind , pub get_param : * mut sys :: godot_method_bind , pub get_param_randomness : * mut sys :: godot_method_bind , pub get_param_texture : * mut sys :: godot_method_bind , pub get_spread : * mut sys :: godot_method_bind , pub get_trail_color_modifier : * mut sys :: godot_method_bind , pub get_trail_divisor : * mut sys :: godot_method_bind , pub get_trail_size_modifier : * mut sys :: godot_method_bind , pub set_color : * mut sys :: godot_method_bind , pub set_color_ramp : * mut sys :: godot_method_bind , pub set_direction : * mut sys :: godot_method_bind , pub set_emission_box_extents : * mut sys :: godot_method_bind , pub set_emission_color_texture : * mut sys :: godot_method_bind , pub set_emission_normal_texture : * mut sys :: godot_method_bind , pub set_emission_point_count : * mut sys :: godot_method_bind , pub set_emission_point_texture : * mut sys :: godot_method_bind , pub set_emission_shape : * mut sys :: godot_method_bind , pub set_emission_sphere_radius : * mut sys :: godot_method_bind , pub set_flag : * mut sys :: godot_method_bind , pub set_flatness : * mut sys :: godot_method_bind , pub set_gravity : * mut sys :: godot_method_bind , pub set_lifetime_randomness : * mut sys :: godot_method_bind , pub set_param : * mut sys :: godot_method_bind , pub set_param_randomness : * mut sys :: godot_method_bind , pub set_param_texture : * mut sys :: godot_method_bind , pub set_spread : * mut sys :: godot_method_bind , pub set_trail_color_modifier : * mut sys :: godot_method_bind , pub set_trail_divisor : * mut sys :: godot_method_bind , pub set_trail_size_modifier : * mut sys :: godot_method_bind } impl ParticlesMaterialMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ParticlesMaterialMethodTable = ParticlesMaterialMethodTable { class_constructor : None , get_color : 0 as * mut sys :: godot_method_bind , get_color_ramp : 0 as * mut sys :: godot_method_bind , get_direction : 0 as * mut sys :: godot_method_bind , get_emission_box_extents : 0 as * mut sys :: godot_method_bind , get_emission_color_texture : 0 as * mut sys :: godot_method_bind , get_emission_normal_texture : 0 as * mut sys :: godot_method_bind , get_emission_point_count : 0 as * mut sys :: godot_method_bind , get_emission_point_texture : 0 as * mut sys :: godot_method_bind , get_emission_shape : 0 as * mut sys :: godot_method_bind , get_emission_sphere_radius : 0 as * mut sys :: godot_method_bind , get_flag : 0 as * mut sys :: godot_method_bind , get_flatness : 0 as * mut sys :: godot_method_bind , get_gravity : 0 as * mut sys :: godot_method_bind , get_lifetime_randomness : 0 as * mut sys :: godot_method_bind , get_param : 0 as * mut sys :: godot_method_bind , get_param_randomness : 0 as * mut sys :: godot_method_bind , get_param_texture : 0 as * mut sys :: godot_method_bind , get_spread : 0 as * mut sys :: godot_method_bind , get_trail_color_modifier : 0 as * mut sys :: godot_method_bind , get_trail_divisor : 0 as * mut sys :: godot_method_bind , get_trail_size_modifier : 0 as * mut sys :: godot_method_bind , set_color : 0 as * mut sys :: godot_method_bind , set_color_ramp : 0 as * mut sys :: godot_method_bind , set_direction : 0 as * mut sys :: godot_method_bind , set_emission_box_extents : 0 as * mut sys :: godot_method_bind , set_emission_color_texture : 0 as * mut sys :: godot_method_bind , set_emission_normal_texture : 0 as * mut sys :: godot_method_bind , set_emission_point_count : 0 as * mut sys :: godot_method_bind , set_emission_point_texture : 0 as * mut sys :: godot_method_bind , set_emission_shape : 0 as * mut sys :: godot_method_bind , set_emission_sphere_radius : 0 as * mut sys :: godot_method_bind , set_flag : 0 as * mut sys :: godot_method_bind , set_flatness : 0 as * mut sys :: godot_method_bind , set_gravity : 0 as * mut sys :: godot_method_bind , set_lifetime_randomness : 0 as * mut sys :: godot_method_bind , set_param : 0 as * mut sys :: godot_method_bind , set_param_randomness : 0 as * mut sys :: godot_method_bind , set_param_texture : 0 as * mut sys :: godot_method_bind , set_spread : 0 as * mut sys :: godot_method_bind , set_trail_color_modifier : 0 as * mut sys :: godot_method_bind , set_trail_divisor : 0 as * mut sys :: godot_method_bind , set_trail_size_modifier : 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 (|| { ParticlesMaterialMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ParticlesMaterial\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_color = (gd_api . godot_method_bind_get_method) (class_name , "get_color\0" . as_ptr () as * const c_char) ; table . get_color_ramp = (gd_api . godot_method_bind_get_method) (class_name , "get_color_ramp\0" . as_ptr () as * const c_char) ; table . get_direction = (gd_api . godot_method_bind_get_method) (class_name , "get_direction\0" . as_ptr () as * const c_char) ; table . get_emission_box_extents = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_box_extents\0" . as_ptr () as * const c_char) ; table . get_emission_color_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_color_texture\0" . as_ptr () as * const c_char) ; table . get_emission_normal_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_normal_texture\0" . as_ptr () as * const c_char) ; table . get_emission_point_count = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_point_count\0" . as_ptr () as * const c_char) ; table . get_emission_point_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_point_texture\0" . as_ptr () as * const c_char) ; table . get_emission_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_shape\0" . as_ptr () as * const c_char) ; table . get_emission_sphere_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_emission_sphere_radius\0" . as_ptr () as * const c_char) ; table . get_flag = (gd_api . godot_method_bind_get_method) (class_name , "get_flag\0" . as_ptr () as * const c_char) ; table . get_flatness = (gd_api . godot_method_bind_get_method) (class_name , "get_flatness\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_lifetime_randomness = (gd_api . godot_method_bind_get_method) (class_name , "get_lifetime_randomness\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_param_randomness = (gd_api . godot_method_bind_get_method) (class_name , "get_param_randomness\0" . as_ptr () as * const c_char) ; table . get_param_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_param_texture\0" . as_ptr () as * const c_char) ; table . get_spread = (gd_api . godot_method_bind_get_method) (class_name , "get_spread\0" . as_ptr () as * const c_char) ; table . get_trail_color_modifier = (gd_api . godot_method_bind_get_method) (class_name , "get_trail_color_modifier\0" . as_ptr () as * const c_char) ; table . get_trail_divisor = (gd_api . godot_method_bind_get_method) (class_name , "get_trail_divisor\0" . as_ptr () as * const c_char) ; table . get_trail_size_modifier = (gd_api . godot_method_bind_get_method) (class_name , "get_trail_size_modifier\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_color_ramp = (gd_api . godot_method_bind_get_method) (class_name , "set_color_ramp\0" . as_ptr () as * const c_char) ; table . set_direction = (gd_api . godot_method_bind_get_method) (class_name , "set_direction\0" . as_ptr () as * const c_char) ; table . set_emission_box_extents = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_box_extents\0" . as_ptr () as * const c_char) ; table . set_emission_color_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_color_texture\0" . as_ptr () as * const c_char) ; table . set_emission_normal_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_normal_texture\0" . as_ptr () as * const c_char) ; table . set_emission_point_count = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_point_count\0" . as_ptr () as * const c_char) ; table . set_emission_point_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_point_texture\0" . as_ptr () as * const c_char) ; table . set_emission_shape = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_shape\0" . as_ptr () as * const c_char) ; table . set_emission_sphere_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_emission_sphere_radius\0" . as_ptr () as * const c_char) ; table . set_flag = (gd_api . godot_method_bind_get_method) (class_name , "set_flag\0" . as_ptr () as * const c_char) ; table . set_flatness = (gd_api . godot_method_bind_get_method) (class_name , "set_flatness\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_lifetime_randomness = (gd_api . godot_method_bind_get_method) (class_name , "set_lifetime_randomness\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_param_randomness = (gd_api . godot_method_bind_get_method) (class_name , "set_param_randomness\0" . as_ptr () as * const c_char) ; table . set_param_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_param_texture\0" . as_ptr () as * const c_char) ; table . set_spread = (gd_api . godot_method_bind_get_method) (class_name , "set_spread\0" . as_ptr () as * const c_char) ; table . set_trail_color_modifier = (gd_api . godot_method_bind_get_method) (class_name , "set_trail_color_modifier\0" . as_ptr () as * const c_char) ; table . set_trail_divisor = (gd_api . godot_method_bind_get_method) (class_name , "set_trail_divisor\0" . as_ptr () as * const c_char) ; table . set_trail_size_modifier = (gd_api . godot_method_bind_get_method) (class_name , "set_trail_size_modifier\0" . as_ptr () as * const c_char) ; } } } [WARN] too much data in the log, truncating it