[INFO] fetching crate gdnative-bindings-lily 0.9.3... [INFO] checking gdnative-bindings-lily-0.9.3 against master#c797096598b80ba4a40397ad7e91584fcd3df5f1 for pr-146377 [INFO] extracting crate gdnative-bindings-lily 0.9.3 into /workspace/builds/worker-0-tc1/source [INFO] started tweaking crates.io crate gdnative-bindings-lily 0.9.3 [INFO] finished tweaking crates.io crate gdnative-bindings-lily 0.9.3 [INFO] tweaked toml for crates.io crate gdnative-bindings-lily 0.9.3 written to /workspace/builds/worker-0-tc1/source/Cargo.toml [INFO] validating manifest of crates.io crate gdnative-bindings-lily 0.9.3 on toolchain c797096598b80ba4a40397ad7e91584fcd3df5f1 [INFO] running `Command { std: CARGO_HOME="/workspace/cargo-home" RUSTUP_HOME="/workspace/rustup-home" "/workspace/cargo-home/bin/cargo" "+c797096598b80ba4a40397ad7e91584fcd3df5f1" "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" "+c797096598b80ba4a40397ad7e91584fcd3df5f1" "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: v2.10.0) [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" "+c797096598b80ba4a40397ad7e91584fcd3df5f1" "fetch" "--manifest-path" "Cargo.toml", kill_on_drop: false }` [INFO] [stderr] Downloading crates ... [INFO] [stderr] Downloaded mini-internal v0.1.13 [INFO] [stderr] Downloaded gdnative-impl-proc-macros v0.9.3 [INFO] [stderr] Downloaded gdnative_bindings_generator v0.9.3 [INFO] [stderr] Downloaded gdnative-core v0.9.3 [INFO] [stderr] Downloaded miniserde v0.1.13 [INFO] [stderr] Downloaded gdnative-sys v0.9.3 [INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-0-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-0-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:94a0c148923f5b2b52a63ef0eeb1882ad339ab61bce784c8077cbe41c61feb6c" "/opt/rustwide/cargo-home/bin/cargo" "+c797096598b80ba4a40397ad7e91584fcd3df5f1" "metadata" "--no-deps" "--format-version=1", kill_on_drop: false }` [INFO] [stdout] 236734fdd18d2e98acf2696d1c9ec023c98ab9d91d91edc67b5ecbaac0c786d1 [INFO] running `Command { std: "docker" "start" "-a" "236734fdd18d2e98acf2696d1c9ec023c98ab9d91d91edc67b5ecbaac0c786d1", kill_on_drop: false }` [INFO] running `Command { std: "docker" "inspect" "236734fdd18d2e98acf2696d1c9ec023c98ab9d91d91edc67b5ecbaac0c786d1", kill_on_drop: false }` [INFO] running `Command { std: "docker" "rm" "-f" "236734fdd18d2e98acf2696d1c9ec023c98ab9d91d91edc67b5ecbaac0c786d1", kill_on_drop: false }` [INFO] [stdout] 236734fdd18d2e98acf2696d1c9ec023c98ab9d91d91edc67b5ecbaac0c786d1 [INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-0-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-0-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_INCREMENTAL=0" "-e" "RUST_BACKTRACE=full" "-e" "RUSTFLAGS=--cap-lints=forbid" "-e" "RUSTDOCFLAGS=--cap-lints=forbid" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:94a0c148923f5b2b52a63ef0eeb1882ad339ab61bce784c8077cbe41c61feb6c" "/opt/rustwide/cargo-home/bin/cargo" "+c797096598b80ba4a40397ad7e91584fcd3df5f1" "check" "--frozen" "--all" "--all-targets" "--message-format=json", kill_on_drop: false }` [INFO] [stdout] 1fb7fad63a69d4ca64b2ec74033c560acd9fb84543447da37ec9e3be1bb5bbec [INFO] running `Command { std: "docker" "start" "-a" "1fb7fad63a69d4ca64b2ec74033c560acd9fb84543447da37ec9e3be1bb5bbec", kill_on_drop: false }` [INFO] [stderr] Compiling syn v1.0.109 [INFO] [stderr] Compiling itoa v0.4.8 [INFO] [stderr] Compiling memchr v2.7.6 [INFO] [stderr] Compiling bindgen v0.56.0 [INFO] [stderr] Compiling nom v5.1.3 [INFO] [stderr] Compiling regex-automata v0.4.13 [INFO] [stderr] Compiling shlex v0.1.1 [INFO] [stderr] Compiling xmlparser v0.13.6 [INFO] [stderr] Compiling clang-sys v1.8.1 [INFO] [stderr] Compiling heck v0.3.3 [INFO] [stderr] Compiling ahash v0.7.8 [INFO] [stderr] Compiling unindent v0.1.11 [INFO] [stderr] Checking parking_lot_core v0.8.6 [INFO] [stderr] Checking euclid v0.22.11 [INFO] [stderr] Checking approx v0.4.0 [INFO] [stderr] Checking parking_lot v0.11.2 [INFO] [stderr] Compiling roxmltree v0.14.1 [INFO] [stderr] Compiling regex v1.12.2 [INFO] [stderr] Compiling cexpr v0.4.0 [INFO] [stderr] Compiling mini-internal v0.1.13 [INFO] [stderr] Compiling gdnative-impl-proc-macros v0.9.3 [INFO] [stderr] Compiling miniserde v0.1.13 [INFO] [stderr] Compiling gdnative_bindings_generator v0.9.3 [INFO] [stderr] Compiling gdnative-sys v0.9.3 [INFO] [stderr] Compiling gdnative-bindings-lily v0.9.3 (/opt/rustwide/workdir) [INFO] [stderr] Checking gdnative-core v0.9.3 [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:10:1458 [INFO] [stdout] | [INFO] [stdout] 10 | ...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] = note: `#[warn(dead_code)]` (part of `#[warn(unused)]`) 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-7a634cfa4295a760/out/generated.rs:28:1490 [INFO] [stdout] | [INFO] [stdout] 28 | ...ase_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-7a634cfa4295a760/out/generated.rs:34:1321 [INFO] [stdout] | [INFO] [stdout] 34 | ...amel_case_types)] # [derive (Debug)] pub struct TriangleMesh { this : RawObject < Self > , } impl TriangleMesh { # [doc = "Create... [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-7a634cfa4295a760/out/generated.rs:40:1349 [INFO] [stdout] | [INFO] [stdout] 40 | ..._case_types)] # [derive (Debug)] pub struct AudioEffectInstance { this : RawObject < Self > , } impl AudioEffectInstance { } impl... [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-7a634cfa4295a760/out/generated.rs:46:1707 [INFO] [stdout] | [INFO] [stdout] 46 | ...amel_case_types)] # [derive (Debug)] pub struct JNISingleton { this : RawObject < Self > , } impl JNISingleton { # [doc = "Create... [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-7a634cfa4295a760/out/generated.rs:76:1516 [INFO] [stdout] | [INFO] [stdout] 76 | ...se_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-7a634cfa4295a760/out/generated.rs:154:1434 [INFO] [stdout] | [INFO] [stdout] 154 | ...se_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-7a634cfa4295a760/out/generated.rs:220:1458 [INFO] [stdout] | [INFO] [stdout] 220 | ...ase_types)] # [derive (Debug)] pub struct VisualScriptExpression { this : RawObject < Self > , } impl VisualScriptExpression { #... [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-7a634cfa4295a760/out/generated.rs:280:1832 [INFO] [stdout] | [INFO] [stdout] 280 | ...camel_case_types)] # [derive (Debug)] pub struct SpotLight { this : RawObject < Self > , } impl SpotLight { # [doc = "Creates a ... [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-7a634cfa4295a760/out/generated.rs:286:1572 [INFO] [stdout] | [INFO] [stdout] 286 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeTransformUniform { this : RawObject < Self > , } impl VisualShaderNodeTrans... [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-7a634cfa4295a760/out/generated.rs:352:1438 [INFO] [stdout] | [INFO] [stdout] 352 | ...l_case_types)] # [derive (Debug)] pub struct VisualScriptWhile { this : RawObject < Self > , } impl VisualScriptWhile { # [doc =... [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-7a634cfa4295a760/out/generated.rs:382:1846 [INFO] [stdout] | [INFO] [stdout] 382 | ..._camel_case_types)] # [derive (Debug)] pub struct HSlider { this : RawObject < Self > , } impl HSlider { # [doc = "Creates a new... [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-7a634cfa4295a760/out/generated.rs:400:1798 [INFO] [stdout] | [INFO] [stdout] 400 | ...amel_case_types)] # [derive (Debug)] pub struct Position2D { this : RawObject < Self > , } impl Position2D { # [doc = "Creates a... [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-7a634cfa4295a760/out/generated.rs:412:1450 [INFO] [stdout] | [INFO] [stdout] 412 | ...case_types)] # [derive (Debug)] pub struct VisualScriptIndexSet { this : RawObject < Self > , } impl VisualScriptIndexSet { # [d... [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-7a634cfa4295a760/out/generated.rs:430:1398 [INFO] [stdout] | [INFO] [stdout] 430 | ...mel_case_types)] # [derive (Debug)] pub struct StyleBoxEmpty { this : RawObject < Self > , } impl StyleBoxEmpty { # [doc = "Crea... [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-7a634cfa4295a760/out/generated.rs:442:1494 [INFO] [stdout] | [INFO] [stdout] 442 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeVectorDecompose { this : RawObject < Self > , } impl VisualShaderNodeVecto... [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-7a634cfa4295a760/out/generated.rs:526:1442 [INFO] [stdout] | [INFO] [stdout] 526 | ..._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-7a634cfa4295a760/out/generated.rs:562:1494 [INFO] [stdout] | [INFO] [stdout] 562 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarMix { this : RawObject < Self > , } impl VisualShaderNodeVecto... [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-7a634cfa4295a760/out/generated.rs:592:1564 [INFO] [stdout] | [INFO] [stdout] 592 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeBooleanUniform { this : RawObject < Self > , } impl VisualShaderNodeBoolea... [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-7a634cfa4295a760/out/generated.rs:700:1474 [INFO] [stdout] | [INFO] [stdout] 700 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeDotProduct { this : RawObject < Self > , } impl VisualShaderNodeDotProdu... [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-7a634cfa4295a760/out/generated.rs:724:1293 [INFO] [stdout] | [INFO] [stdout] 724 | ...el_case_types)] # [derive (Debug)] pub struct RootMotionView { this : RawObject < Self > , } impl RootMotionView { } impl gdnati... [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-7a634cfa4295a760/out/generated.rs:772:1449 [INFO] [stdout] | [INFO] [stdout] 772 | ...ase_types)] # [derive (Debug)] pub struct AnimationNodeTimeScale { this : RawObject < Self > , } impl AnimationNodeTimeScale { #... [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-7a634cfa4295a760/out/generated.rs:784:1792 [INFO] [stdout] | [INFO] [stdout] 784 | ...amel_case_types)] # [derive (Debug)] pub struct ARVRCamera { this : RawObject < Self > , } impl ARVRCamera { # [doc = "Creates a... [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-7a634cfa4295a760/out/generated.rs:856:1365 [INFO] [stdout] | [INFO] [stdout] 856 | ...el_case_types)] # [derive (Debug)] pub struct AudioBusLayout { this : RawObject < Self > , } impl AudioBusLayout { # [doc = "Cre... [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-7a634cfa4295a760/out/generated.rs:880:1874 [INFO] [stdout] | [INFO] [stdout] 880 | ...amel_case_types)] # [derive (Debug)] pub struct ToolButton { this : RawObject < Self > , } impl ToolButton { # [doc = "Creates a... [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-7a634cfa4295a760/out/generated.rs:892:1478 [INFO] [stdout] | [INFO] [stdout] 892 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeDeterminant { this : RawObject < Self > , } impl VisualShaderNodeDetermi... [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-7a634cfa4295a760/out/generated.rs:898:1652 [INFO] [stdout] | [INFO] [stdout] 898 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeGlobalExpression { this : RawObject < Self > , } impl VisualShaderNodeGloba... [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-7a634cfa4295a760/out/generated.rs:910:1458 [INFO] [stdout] | [INFO] [stdout] 910 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeOutput { this : RawObject < Self > , } impl VisualShaderNodeOutput { }... [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-7a634cfa4295a760/out/generated.rs:916:1482 [INFO] [stdout] | [INFO] [stdout] 916 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeScalarInterp { this : RawObject < Self > , } impl VisualShaderNodeScalarI... [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-7a634cfa4295a760/out/generated.rs:952:1926 [INFO] [stdout] | [INFO] [stdout] 952 | ...el_case_types)] # [derive (Debug)] pub struct HSplitContainer { this : RawObject < Self > , } impl HSplitContainer { # [doc = "C... [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-7a634cfa4295a760/out/generated.rs:964:1458 [INFO] [stdout] | [INFO] [stdout] 964 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeSwitch { this : RawObject < Self > , } impl VisualShaderNodeSwitch { #... [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-7a634cfa4295a760/out/generated.rs:982:1498 [INFO] [stdout] | [INFO] [stdout] 982 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeScalarSmoothStep { this : RawObject < Self > , } impl VisualShaderNodeScala... [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-7a634cfa4295a760/out/generated.rs:1018:1556 [INFO] [stdout] | [INFO] [stdout] 1018 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeColorUniform { this : RawObject < Self > , } impl VisualShaderNodeColorU... [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-7a634cfa4295a760/out/generated.rs:1036:1873 [INFO] [stdout] | [INFO] [stdout] 1036 | ...amel_case_types)] # [derive (Debug)] pub struct VScrollBar { this : RawObject < Self > , } impl VScrollBar { # [doc = "Creates ... [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-7a634cfa4295a760/out/generated.rs:1066:1464 [INFO] [stdout] | [INFO] [stdout] 1066 | ...l_case_types)] # [derive (Debug)] pub struct AudioEffectEQ21 { this : RawObject < Self > , } impl AudioEffectEQ21 { # [doc = "C... [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-7a634cfa4295a760/out/generated.rs:1072:1246 [INFO] [stdout] | [INFO] [stdout] 1072 | ...case_types)] # [derive (Debug)] pub struct BulletPhysicsServer { this : RawObject < Self > , } impl BulletPhysicsServer { } imp... [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-7a634cfa4295a760/out/generated.rs:1108:1450 [INFO] [stdout] | [INFO] [stdout] 1108 | ...case_types)] # [derive (Debug)] pub struct VisualScriptIterator { this : RawObject < Self > , } impl VisualScriptIterator { # [... [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-7a634cfa4295a760/out/generated.rs:1174:1498 [INFO] [stdout] | [INFO] [stdout] 1174 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeTransformCompose { this : RawObject < Self > , } impl VisualShaderNodeTran... [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-7a634cfa4295a760/out/generated.rs:1204:1353 [INFO] [stdout] | [INFO] [stdout] 1204 | ...case_types)] # [derive (Debug)] pub struct ResourceFormatLoader { this : RawObject < Self > , } impl ResourceFormatLoader { # [... [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-7a634cfa4295a760/out/generated.rs:1216:1552 [INFO] [stdout] | [INFO] [stdout] 1216 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeVec3Uniform { this : RawObject < Self > , } impl VisualShaderNodeVec3Uni... [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-7a634cfa4295a760/out/generated.rs:1234:1560 [INFO] [stdout] | [INFO] [stdout] 1234 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeScalarUniform { this : RawObject < Self > , } impl VisualShaderNodeScalar... [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-7a634cfa4295a760/out/generated.rs:1270:1349 [INFO] [stdout] | [INFO] [stdout] 1270 | ...case_types)] # [derive (Debug)] pub struct ResourceFormatSaver { this : RawObject < Self > , } impl ResourceFormatSaver { # [do... [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-7a634cfa4295a760/out/generated.rs:1300:1516 [INFO] [stdout] | [INFO] [stdout] 1300 | ...e_types)] # [derive (Debug)] pub struct AudioEffectBandPassFilter { this : RawObject < Self > , } impl AudioEffectBandPassFilte... [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-7a634cfa4295a760/out/generated.rs:1306:1454 [INFO] [stdout] | [INFO] [stdout] 1306 | ..._types)] # [derive (Debug)] pub struct AudioStreamPlaybackResampled { this : RawObject < Self > , } impl AudioStreamPlaybackRes... [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-7a634cfa4295a760/out/generated.rs:1318:1478 [INFO] [stdout] | [INFO] [stdout] 1318 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeScalarClamp { this : RawObject < Self > , } impl VisualShaderNodeScalarC... [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-7a634cfa4295a760/out/generated.rs:1414:1309 [INFO] [stdout] | [INFO] [stdout] 1414 | ...amel_case_types)] # [derive (Debug)] pub struct JavaClass { this : RawObject < Self > , } impl JavaClass { # [doc = "Creates a ... [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-7a634cfa4295a760/out/generated.rs:1456:1512 [INFO] [stdout] | [INFO] [stdout] 1456 | ...se_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-7a634cfa4295a760/out/generated.rs:1480:1387 [INFO] [stdout] | [INFO] [stdout] 1480 | ..._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-7a634cfa4295a760/out/generated.rs:1504:1872 [INFO] [stdout] | [INFO] [stdout] 1504 | ...l_case_types)] # [derive (Debug)] pub struct MarginContainer { this : RawObject < Self > , } impl MarginContainer { # [doc = "C... [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-7a634cfa4295a760/out/generated.rs:1516:1836 [INFO] [stdout] | [INFO] [stdout] 1516 | ...mel_case_types)] # [derive (Debug)] pub struct PopupDialog { this : RawObject < Self > , } impl PopupDialog { # [doc = "Creates... [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-7a634cfa4295a760/out/generated.rs:1528:1450 [INFO] [stdout] | [INFO] [stdout] 1528 | ...case_types)] # [derive (Debug)] pub struct VisualScriptFunction { this : RawObject < Self > , } impl VisualScriptFunction { # [... [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-7a634cfa4295a760/out/generated.rs:1606:1429 [INFO] [stdout] | [INFO] [stdout] 1606 | ..._case_types)] # [derive (Debug)] pub struct AnimationRootNode { this : RawObject < Self > , } impl AnimationRootNode { # [doc =... [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-7a634cfa4295a760/out/generated.rs:1654:1688 [INFO] [stdout] | [INFO] [stdout] 1654 | ...)] # [derive (Debug)] pub struct VisualShaderNodeTextureUniformTriplanar { this : RawObject < Self > , } impl VisualShaderNodeT... [INFO] [stdout] | --------------------------------------- ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualShaderNodeTextureUniformTriplanar` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:1660:1186 [INFO] [stdout] | [INFO] [stdout] 1660 | ...l_case_types)] # [derive (Debug)] pub struct GlobalConstants { this : RawObject < Self > , } # [doc = "Constants"] # [allow (no... [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-7a634cfa4295a760/out/generated.rs:1732:1652 [INFO] [stdout] | [INFO] [stdout] 1732 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeCubeMapUniform { this : RawObject < Self > , } impl VisualShaderNodeCubeM... [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-7a634cfa4295a760/out/generated.rs:1762:1771 [INFO] [stdout] | [INFO] [stdout] 1762 | ..._camel_case_types)] # [derive (Debug)] pub struct Panel { this : RawObject < Self > , } impl Panel { # [doc = "Creates a new in... [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-7a634cfa4295a760/out/generated.rs:1786:1477 [INFO] [stdout] | [INFO] [stdout] 1786 | ...e_types)] # [derive (Debug)] pub struct WebRTCDataChannelGDNative { this : RawObject < Self > , } impl WebRTCDataChannelGDNativ... [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-7a634cfa4295a760/out/generated.rs:1810:1520 [INFO] [stdout] | [INFO] [stdout] 1810 | ...e_types)] # [derive (Debug)] pub struct AudioEffectBandLimitFilter { this : RawObject < Self > , } impl AudioEffectBandLimitFil... [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-7a634cfa4295a760/out/generated.rs:1816:1506 [INFO] [stdout] | [INFO] [stdout] 1816 | ...pes)] # [derive (Debug)] pub struct VisualShaderNodeTransformDecompose { this : RawObject < Self > , } impl VisualShaderNodeTra... [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-7a634cfa4295a760/out/generated.rs:1822:1866 [INFO] [stdout] | [INFO] [stdout] 1822 | ...el_case_types)] # [derive (Debug)] pub struct PanelContainer { this : RawObject < Self > , } impl PanelContainer { # [doc = "Cr... [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-7a634cfa4295a760/out/generated.rs:1840:1486 [INFO] [stdout] | [INFO] [stdout] 1840 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeVectorCompose { this : RawObject < Self > , } impl VisualShaderNodeVector... [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-7a634cfa4295a760/out/generated.rs:1882:1165 [INFO] [stdout] | [INFO] [stdout] 1882 | ...camel_case_types)] # [derive (Debug)] pub struct IP_Unix { this : RawObject < Self > , } impl IP_Unix { } impl gdnative_core ::... [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-7a634cfa4295a760/out/generated.rs:1906:1309 [INFO] [stdout] | [INFO] [stdout] 1906 | ..._types)] # [derive (Debug)] pub struct BulletPhysicsDirectBodyState { this : RawObject < Self > , } impl BulletPhysicsDirectBod... [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-7a634cfa4295a760/out/generated.rs:1924:1353 [INFO] [stdout] | [INFO] [stdout] 1924 | ...mel_case_types)] # [derive (Debug)] pub struct VideoStream { this : RawObject < Self > , } impl VideoStream { } impl gdnative_c... [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-7a634cfa4295a760/out/generated.rs:1930:1454 [INFO] [stdout] | [INFO] [stdout] 1930 | ...ase_types)] # [derive (Debug)] pub struct VisualScriptSceneTree { this : RawObject < Self > , } impl VisualScriptSceneTree { # ... [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-7a634cfa4295a760/out/generated.rs:1942:1337 [INFO] [stdout] | [INFO] [stdout] 1942 | ...l_case_types)] # [derive (Debug)] pub struct ResourceImporter { this : RawObject < Self > , } impl ResourceImporter { } impl gd... [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-7a634cfa4295a760/out/generated.rs:1954:1353 [INFO] [stdout] | [INFO] [stdout] 1954 | ...mel_case_types)] # [derive (Debug)] pub struct AudioEffect { this : RawObject < Self > , } impl AudioEffect { } impl gdnative_c... [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-7a634cfa4295a760/out/generated.rs:1960:1478 [INFO] [stdout] | [INFO] [stdout] 1960 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeFaceForward { this : RawObject < Self > , } impl VisualShaderNodeFaceFor... [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-7a634cfa4295a760/out/generated.rs:2032:1490 [INFO] [stdout] | [INFO] [stdout] 2032 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeVectorDistance { this : RawObject < Self > , } impl VisualShaderNodeVecto... [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-7a634cfa4295a760/out/generated.rs:2110:1457 [INFO] [stdout] | [INFO] [stdout] 2110 | ..._types)] # [derive (Debug)] pub struct WebRTCPeerConnectionGDNative { this : RawObject < Self > , } impl WebRTCPeerConnectionGD... [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-7a634cfa4295a760/out/generated.rs:2116:1516 [INFO] [stdout] | [INFO] [stdout] 2116 | ...e_types)] # [derive (Debug)] pub struct AudioEffectHighPassFilter { this : RawObject < Self > , } impl AudioEffectHighPassFilte... [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-7a634cfa4295a760/out/generated.rs:2140:1445 [INFO] [stdout] | [INFO] [stdout] 2140 | ...ase_types)] # [derive (Debug)] pub struct AnimationNodeTimeSeek { this : RawObject < Self > , } impl AnimationNodeTimeSeek { # ... [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-7a634cfa4295a760/out/generated.rs:2146:1520 [INFO] [stdout] | [INFO] [stdout] 2146 | ...e_types)] # [derive (Debug)] pub struct AudioEffectHighShelfFilter { this : RawObject < Self > , } impl AudioEffectHighShelfFil... [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-7a634cfa4295a760/out/generated.rs:2188:1194 [INFO] [stdout] | [INFO] [stdout] 2188 | ...mel_case_types)] # [derive (Debug)] pub struct InputDefault { this : RawObject < Self > , } impl InputDefault { } impl gdnative... [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-7a634cfa4295a760/out/generated.rs:2200:1365 [INFO] [stdout] | [INFO] [stdout] 2200 | ...el_case_types)] # [derive (Debug)] pub struct RichTextEffect { this : RawObject < Self > , } impl RichTextEffect { # [doc = "Cr... [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-7a634cfa4295a760/out/generated.rs:2236:1458 [INFO] [stdout] | [INFO] [stdout] 2236 | ...ase_types)] # [derive (Debug)] pub struct VisualShaderNodeCustom { this : RawObject < Self > , } impl VisualShaderNodeCustom { ... [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-7a634cfa4295a760/out/generated.rs:2242:1454 [INFO] [stdout] | [INFO] [stdout] 2242 | ...ase_types)] # [derive (Debug)] pub struct VisualScriptCondition { this : RawObject < Self > , } impl VisualScriptCondition { # ... [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-7a634cfa4295a760/out/generated.rs:2302:1862 [INFO] [stdout] | [INFO] [stdout] 2302 | ...camel_case_types)] # [derive (Debug)] pub struct CheckBox { this : RawObject < Self > , } impl CheckBox { # [doc = "Creates a n... [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-7a634cfa4295a760/out/generated.rs:2398:1470 [INFO] [stdout] | [INFO] [stdout] 2398 | ...e_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorLen { this : RawObject < Self > , } impl VisualShaderNodeVectorLe... [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-7a634cfa4295a760/out/generated.rs:2404:1842 [INFO] [stdout] | [INFO] [stdout] 2404 | ...amel_case_types)] # [derive (Debug)] pub struct VSeparator { this : RawObject < Self > , } impl VSeparator { # [doc = "Creates ... [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-7a634cfa4295a760/out/generated.rs:2422:1498 [INFO] [stdout] | [INFO] [stdout] 2422 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarStep { this : RawObject < Self > , } impl VisualShaderNodeVect... [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-7a634cfa4295a760/out/generated.rs:2428:1464 [INFO] [stdout] | [INFO] [stdout] 2428 | ...l_case_types)] # [derive (Debug)] pub struct AudioEffectEQ10 { this : RawObject < Self > , } impl AudioEffectEQ10 { # [doc = "C... [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-7a634cfa4295a760/out/generated.rs:2434:1908 [INFO] [stdout] | [INFO] [stdout] 2434 | ...el_case_types)] # [derive (Debug)] pub struct VBoxContainer { this : RawObject < Self > , } impl VBoxContainer { # [doc = "Crea... [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-7a634cfa4295a760/out/generated.rs:2464:1434 [INFO] [stdout] | [INFO] [stdout] 2464 | ...l_case_types)] # [derive (Debug)] pub struct VisualScriptSelf { this : RawObject < Self > , } impl VisualScriptSelf { # [doc = ... [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-7a634cfa4295a760/out/generated.rs:2512:1244 [INFO] [stdout] | [INFO] [stdout] 2512 | ..._case_types)] # [derive (Debug)] pub struct Physics2DServerSW { this : RawObject < Self > , } impl Physics2DServerSW { } impl g... [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-7a634cfa4295a760/out/generated.rs:2518:1426 [INFO] [stdout] | [INFO] [stdout] 2518 | ...amel_case_types)] # [derive (Debug)] pub struct PointMesh { this : RawObject < Self > , } impl PointMesh { # [doc = "Creates a ... [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-7a634cfa4295a760/out/generated.rs:2554:1341 [INFO] [stdout] | [INFO] [stdout] 2554 | ...camel_case_types)] # [derive (Debug)] pub struct TextFile { this : RawObject < Self > , } impl TextFile { # [doc = "Creates a n... [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-7a634cfa4295a760/out/generated.rs:2572:1830 [INFO] [stdout] | [INFO] [stdout] 2572 | ...amel_case_types)] # [derive (Debug)] pub struct PopupPanel { this : RawObject < Self > , } impl PopupPanel { # [doc = "Creates ... [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-7a634cfa4295a760/out/generated.rs:2614:1458 [INFO] [stdout] | [INFO] [stdout] 2614 | ...types)] # [derive (Debug)] pub struct EditorResourcePreviewGenerator { this : RawObject < Self > , } impl EditorResourcePreview... [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-7a634cfa4295a760/out/generated.rs:2632:1908 [INFO] [stdout] | [INFO] [stdout] 2632 | ...el_case_types)] # [derive (Debug)] pub struct HBoxContainer { this : RawObject < Self > , } impl HBoxContainer { # [doc = "Crea... [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-7a634cfa4295a760/out/generated.rs:2740:1482 [INFO] [stdout] | [INFO] [stdout] 2740 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeOuterProduct { this : RawObject < Self > , } impl VisualShaderNodeOuterP... [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-7a634cfa4295a760/out/generated.rs:2752:1458 [INFO] [stdout] | [INFO] [stdout] 2752 | ...types)] # [derive (Debug)] pub struct EditorResourceConversionPlugin { this : RawObject < Self > , } impl EditorResourceConvers... [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-7a634cfa4295a760/out/generated.rs:2824:1486 [INFO] [stdout] | [INFO] [stdout] 2824 | ...types)] # [derive (Debug)] pub struct VisualShaderNodeVectorRefract { this : RawObject < Self > , } impl VisualShaderNodeVector... [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-7a634cfa4295a760/out/generated.rs:2830:1400 [INFO] [stdout] | [INFO] [stdout] 2830 | ...amel_case_types)] # [derive (Debug)] pub struct Texture3D { this : RawObject < Self > , } impl Texture3D { # [doc = "Creates a ... [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-7a634cfa4295a760/out/generated.rs:2836:1321 [INFO] [stdout] | [INFO] [stdout] 2836 | ...mel_case_types)] # [derive (Debug)] pub struct SpatialGizmo { this : RawObject < Self > , } impl SpatialGizmo { } impl gdnative... [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-7a634cfa4295a760/out/generated.rs:2854:1495 [INFO] [stdout] | [INFO] [stdout] 2854 | ...ase_types)] # [derive (Debug)] pub struct EditorSceneImporterFBX { this : RawObject < Self > , } impl EditorSceneImporterFBX { ... [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-7a634cfa4295a760/out/generated.rs:2860:1387 [INFO] [stdout] | [INFO] [stdout] 2860 | ..._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-7a634cfa4295a760/out/generated.rs:2920:1926 [INFO] [stdout] | [INFO] [stdout] 2920 | ...l_case_types)] # [derive (Debug)] pub struct VSplitContainer { this : RawObject < Self > , } impl VSplitContainer { # [doc = "C... [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-7a634cfa4295a760/out/generated.rs:2950:1906 [INFO] [stdout] | [INFO] [stdout] 2950 | ...mel_case_types)] # [derive (Debug)] pub struct CSGCombiner { this : RawObject < Self > , } impl CSGCombiner { # [doc = "Creates... [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-7a634cfa4295a760/out/generated.rs:2968:1450 [INFO] [stdout] | [INFO] [stdout] 2968 | ...case_types)] # [derive (Debug)] pub struct VisualScriptIndexGet { this : RawObject < Self > , } impl VisualScriptIndexGet { # [... [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-7a634cfa4295a760/out/generated.rs:3016:1760 [INFO] [stdout] | [INFO] [stdout] 3016 | ...amel_case_types)] # [derive (Debug)] pub struct Position3D { this : RawObject < Self > , } impl Position3D { # [doc = "Creates ... [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-7a634cfa4295a760/out/generated.rs:3034:1442 [INFO] [stdout] | [INFO] [stdout] 3034 | ..._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-7a634cfa4295a760/out/generated.rs:3082:1412 [INFO] [stdout] | [INFO] [stdout] 3082 | ...mel_case_types)] # [derive (Debug)] pub struct TextureArray { this : RawObject < Self > , } impl TextureArray { # [doc = "Creat... [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-7a634cfa4295a760/out/generated.rs:3148:1498 [INFO] [stdout] | [INFO] [stdout] 3148 | ...ypes)] # [derive (Debug)] pub struct VisualShaderNodeVectorSmoothStep { this : RawObject < Self > , } impl VisualShaderNodeVect... [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-7a634cfa4295a760/out/generated.rs:3166:1553 [INFO] [stdout] | [INFO] [stdout] 3166 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeScalarSwitch { this : RawObject < Self > , } impl VisualShaderNodeScalar... [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-7a634cfa4295a760/out/generated.rs:3190:1880 [INFO] [stdout] | [INFO] [stdout] 3190 | ...mel_case_types)] # [derive (Debug)] pub struct CheckButton { this : RawObject < Self > , } impl CheckButton { # [doc = "Creates... [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-7a634cfa4295a760/out/generated.rs:3238:1873 [INFO] [stdout] | [INFO] [stdout] 3238 | ...amel_case_types)] # [derive (Debug)] pub struct HScrollBar { this : RawObject < Self > , } impl HScrollBar { # [doc = "Creates ... [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-7a634cfa4295a760/out/generated.rs:3244:1460 [INFO] [stdout] | [INFO] [stdout] 3244 | ...el_case_types)] # [derive (Debug)] pub struct AudioEffectEQ6 { this : RawObject < Self > , } impl AudioEffectEQ6 { # [doc = "Cr... [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-7a634cfa4295a760/out/generated.rs:3256:1470 [INFO] [stdout] | [INFO] [stdout] 3256 | ..._case_types)] # [derive (Debug)] pub struct EditorImportPlugin { this : RawObject < Self > , } impl EditorImportPlugin { } impl... [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-7a634cfa4295a760/out/generated.rs:3262:1504 [INFO] [stdout] | [INFO] [stdout] 3262 | ...ase_types)] # [derive (Debug)] pub struct AudioEffectNotchFilter { this : RawObject < Self > , } impl AudioEffectNotchFilter { ... [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-7a634cfa4295a760/out/generated.rs:3334:1842 [INFO] [stdout] | [INFO] [stdout] 3334 | ...amel_case_types)] # [derive (Debug)] pub struct HSeparator { this : RawObject < Self > , } impl HSeparator { # [doc = "Creates ... [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-7a634cfa4295a760/out/generated.rs:3358:1349 [INFO] [stdout] | [INFO] [stdout] 3358 | ...case_types)] # [derive (Debug)] pub struct AudioStreamPlayback { this : RawObject < Self > , } impl AudioStreamPlayback { } imp... [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-7a634cfa4295a760/out/generated.rs:3388:1462 [INFO] [stdout] | [INFO] [stdout] 3388 | ...se_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-7a634cfa4295a760/out/generated.rs:3400:1522 [INFO] [stdout] | [INFO] [stdout] 3400 | ...s)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarSmoothStep { this : RawObject < Self > , } impl VisualShaderNodeV... [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-7a634cfa4295a760/out/generated.rs:3460:1437 [INFO] [stdout] | [INFO] [stdout] 3460 | ...case_types)] # [derive (Debug)] pub struct AnimationNodeOutput { this : RawObject < Self > , } impl AnimationNodeOutput { # [do... [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-7a634cfa4295a760/out/generated.rs:3478:1439 [INFO] [stdout] | [INFO] [stdout] 3478 | ...ase_types)] # [derive (Debug)] pub struct AudioStreamMicrophone { this : RawObject < Self > , } impl AudioStreamMicrophone { # ... [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-7a634cfa4295a760/out/generated.rs:3514:1482 [INFO] [stdout] | [INFO] [stdout] 3514 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeVectorInterp { this : RawObject < Self > , } impl VisualShaderNodeVector... [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-7a634cfa4295a760/out/generated.rs:3538:1846 [INFO] [stdout] | [INFO] [stdout] 3538 | ...camel_case_types)] # [derive (Debug)] pub struct VSlider { this : RawObject < Self > , } impl VSlider { # [doc = "Creates a new... [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-7a634cfa4295a760/out/generated.rs:3550:1522 [INFO] [stdout] | [INFO] [stdout] 3550 | ...se_types)] # [derive (Debug)] pub struct VisualScriptComposeArray { this : RawObject < Self > , } impl VisualScriptComposeArray... [INFO] [stdout] | ------------------------ ^^^^ [INFO] [stdout] | | [INFO] [stdout] | field in this struct [INFO] [stdout] | [INFO] [stdout] = note: `VisualScriptComposeArray` has a derived impl for the trait `Debug`, but this is intentionally ignored during dead code analysis [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: field `this` is never read [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:3568:1258 [INFO] [stdout] | [INFO] [stdout] 3568 | ...amel_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-7a634cfa4295a760/out/generated.rs:3628:1478 [INFO] [stdout] | [INFO] [stdout] 3628 | ..._types)] # [derive (Debug)] pub struct VisualShaderNodeVectorClamp { this : RawObject < Self > , } impl VisualShaderNodeVectorC... [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-7a634cfa4295a760/out/generated.rs:3658:1446 [INFO] [stdout] | [INFO] [stdout] 3658 | ...case_types)] # [derive (Debug)] pub struct VisualScriptSubCall { this : RawObject < Self > , } impl VisualScriptSubCall { # [do... [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-7a634cfa4295a760/out/generated.rs:3682:1408 [INFO] [stdout] | [INFO] [stdout] 3682 | ...ase_types)] # [derive (Debug)] pub struct ARVRInterfaceGDNative { this : RawObject < Self > , } impl ARVRInterfaceGDNative { # ... [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-7a634cfa4295a760/out/generated.rs:3694:1307 [INFO] [stdout] | [INFO] [stdout] 3694 | ...e_types)] # [derive (Debug)] pub struct Physics2DDirectBodyStateSW { this : RawObject < Self > , } impl Physics2DDirectBodyStat... [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: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:4:28818 [INFO] [stdout] | [INFO] [stdout] 4 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'sta... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any 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)]` (part of `#[warn(rust_2024_compatibility)]`) on by default [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 4 | # [doc = "`core singleton class AudioServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioserver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nAudioServer inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioServer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SpeakerMode (pub i64) ; impl SpeakerMode { pub const MODE_STEREO : SpeakerMode = SpeakerMode (0i64) ; pub const SURROUND_31 : SpeakerMode = SpeakerMode (1i64) ; pub const SURROUND_51 : SpeakerMode = SpeakerMode (2i64) ; pub const SURROUND_71 : SpeakerMode = SpeakerMode (3i64) ; } impl From < i64 > for SpeakerMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SpeakerMode > for i64 { # [inline] fn from (v : SpeakerMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AudioServer { pub const SPEAKER_MODE_STEREO : i64 = 0i64 ; pub const SPEAKER_SURROUND_31 : i64 = 1i64 ; pub const SPEAKER_SURROUND_51 : i64 = 2i64 ; pub const SPEAKER_SURROUND_71 : i64 = 3i64 ; } impl AudioServer { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("AudioServer\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Adds a bus at `at_position`.\n# Default Arguments\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_bus (& self , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . add_bus ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , at_position) ; } } # [doc = "Adds an [AudioEffect] effect to the bus `bus_idx` at `at_position`.\n# Default Arguments\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_bus_effect (& self , bus_idx : i64 , effect : impl AsArg < crate :: generated :: audio_effect :: AudioEffect > , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . add_bus_effect ; let ret = crate :: icalls :: icallptr_void_i64_obj_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect . as_arg_ptr () , at_position) ; } } # [doc = "Name of the current device for audio input (see [method capture_get_device_list])."] # [doc = ""] # [inline] pub fn capture_get_device (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . capture_get_device ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the names of all audio input devices detected on the system."] # [doc = ""] # [inline] pub fn capture_get_device_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . capture_get_device_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Sets which audio input device is used for audio capture."] # [doc = ""] # [inline] pub fn capture_set_device (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . capture_set_device ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Generates an [AudioBusLayout] using the available buses and effects."] # [doc = ""] # [inline] pub fn generate_bus_layout (& self) -> Option < Ref < crate :: generated :: audio_bus_layout :: AudioBusLayout , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . generate_bus_layout ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: audio_bus_layout :: AudioBusLayout , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the amount of channels of the bus at index `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_channels (& self , bus_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_channels ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Number of available audio buses."] # [doc = ""] # [inline] pub fn bus_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the [AudioEffect] at position `effect_idx` in bus `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_effect (& self , bus_idx : i64 , effect_idx : i64) -> Option < Ref < crate :: generated :: audio_effect :: AudioEffect , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_effect ; let ret = crate :: icalls :: icallptr_obj_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: audio_effect :: AudioEffect , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of effects on the bus at `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_effect_count (& self , bus_idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_effect_count ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Returns the [AudioEffectInstance] assigned to the given bus and effect indices (and optionally channel).\n# Default Arguments\n* `channel` - `0`"] # [doc = ""] # [inline] pub fn get_bus_effect_instance (& self , bus_idx : i64 , effect_idx : i64 , channel : i64) -> Option < Ref < crate :: generated :: audio_effect_instance :: AudioEffectInstance , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_effect_instance ; let ret = crate :: icalls :: icallptr_obj_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx , channel) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: audio_effect_instance :: AudioEffectInstance , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the index of the bus with the name `bus_name`."] # [doc = ""] # [inline] pub fn get_bus_index (& self , bus_name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_index ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , bus_name . into ()) ; ret as _ } } # [doc = "Returns the name of the bus with the index `bus_idx`."] # [doc = ""] # [inline] pub fn get_bus_name (& self , bus_idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the peak volume of the left speaker at bus index `bus_idx` and channel index `channel`."] # [doc = ""] # [inline] pub fn get_bus_peak_volume_left_db (& self , bus_idx : i64 , channel : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_peak_volume_left_db ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , channel) ; ret as _ } } # [doc = "Returns the peak volume of the right speaker at bus index `bus_idx` and channel index `channel`."] # [doc = ""] # [inline] pub fn get_bus_peak_volume_right_db (& self , bus_idx : i64 , channel : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_peak_volume_right_db ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , channel) ; ret as _ } } # [doc = "Returns the name of the bus that the bus at index `bus_idx` sends to."] # [doc = ""] # [inline] pub fn get_bus_send (& self , bus_idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_send ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the volume of the bus at index `bus_idx` in dB."] # [doc = ""] # [inline] pub fn get_bus_volume_db (& self , bus_idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_bus_volume_db ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Name of the current device for audio output (see [method get_device_list])."] # [doc = ""] # [inline] pub fn device (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_device ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the names of all audio devices detected on the system."] # [doc = ""] # [inline] pub fn get_device_list (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_device_list ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Scales the rate at which audio is played (i.e. setting it to `0.5` will make the audio be played twice as fast)."] # [doc = ""] # [inline] pub fn global_rate_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_global_rate_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the sample rate at the output of the [AudioServer]."] # [doc = ""] # [inline] pub fn get_mix_rate (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_mix_rate ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the audio driver's output latency."] # [doc = ""] # [inline] pub fn get_output_latency (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_output_latency ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the speaker configuration."] # [doc = ""] # [inline] pub fn get_speaker_mode (& self) -> crate :: generated :: audio_server :: SpeakerMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_speaker_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: audio_server :: SpeakerMode (ret) } } # [doc = "Returns the relative time since the last mix occurred."] # [doc = ""] # [inline] pub fn get_time_since_last_mix (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_time_since_last_mix ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the relative time until the next mix occurs."] # [doc = ""] # [inline] pub fn get_time_to_next_mix (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . get_time_to_next_mix ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the bus at index `bus_idx` is bypassing effects."] # [doc = ""] # [inline] pub fn is_bus_bypassing_effects (& self , bus_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_bypassing_effects ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "If `true`, the effect at index `effect_idx` on the bus at index `bus_idx` is enabled."] # [doc = ""] # [inline] pub fn is_bus_effect_enabled (& self , bus_idx : i64 , effect_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_effect_enabled ; let ret = crate :: icalls :: icallptr_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx) ; ret as _ } } # [doc = "If `true`, the bus at index `bus_idx` is muted."] # [doc = ""] # [inline] pub fn is_bus_mute (& self , bus_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_mute ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "If `true`, the bus at index `bus_idx` is in solo mode."] # [doc = ""] # [inline] pub fn is_bus_solo (& self , bus_idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . is_bus_solo ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx) ; ret as _ } } # [doc = "Locks the audio driver's main loop.\n**Note:** Remember to unlock it afterwards."] # [doc = ""] # [inline] pub fn lock (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . lock ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Moves the bus from index `index` to index `to_index`."] # [doc = ""] # [inline] pub fn move_bus (& self , index : i64 , to_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . move_bus ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , index , to_index) ; } } # [doc = "Removes the bus at index `index`."] # [doc = ""] # [inline] pub fn remove_bus (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . remove_bus ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "Removes the effect at index `effect_idx` from the bus at index `bus_idx`."] # [doc = ""] # [inline] pub fn remove_bus_effect (& self , bus_idx : i64 , effect_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . remove_bus_effect ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx) ; } } # [doc = "If `true`, the bus at index `bus_idx` is bypassing effects."] # [doc = ""] # [inline] pub fn set_bus_bypass_effects (& self , bus_idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_bypass_effects ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , enable) ; } } # [doc = "Number of available audio buses."] # [doc = ""] # [inline] pub fn set_bus_count (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_count ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "If `true`, the effect at index `effect_idx` on the bus at index `bus_idx` is enabled."] # [doc = ""] # [inline] pub fn set_bus_effect_enabled (& self , bus_idx : i64 , effect_idx : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_effect_enabled ; let ret = crate :: icalls :: icallptr_void_i64_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx , enabled) ; } } # [doc = "Overwrites the currently used [AudioBusLayout]."] # [doc = ""] # [inline] pub fn set_bus_layout (& self , bus_layout : impl AsArg < crate :: generated :: audio_bus_layout :: AudioBusLayout >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_layout ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , bus_layout . as_arg_ptr ()) ; } } # [doc = "If `true`, the bus at index `bus_idx` is muted."] # [doc = ""] # [inline] pub fn set_bus_mute (& self , bus_idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_mute ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , enable) ; } } # [doc = "Sets the name of the bus at index `bus_idx` to `name`."] # [doc = ""] # [inline] pub fn set_bus_name (& self , bus_idx : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , bus_idx , name . into ()) ; } } # [doc = "Connects the output of the bus at `bus_idx` to the bus named `send`."] # [doc = ""] # [inline] pub fn set_bus_send (& self , bus_idx : i64 , send : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_send ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , bus_idx , send . into ()) ; } } # [doc = "If `true`, the bus at index `bus_idx` is in solo mode."] # [doc = ""] # [inline] pub fn set_bus_solo (& self , bus_idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_solo ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bus_idx , enable) ; } } # [doc = "Sets the volume of the bus at index `bus_idx` to `volume_db`."] # [doc = ""] # [inline] pub fn set_bus_volume_db (& self , bus_idx : i64 , volume_db : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_bus_volume_db ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , bus_idx , volume_db) ; } } # [doc = "Name of the current device for audio output (see [method get_device_list])."] # [doc = ""] # [inline] pub fn set_device (& self , device : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_device ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , device . into ()) ; } } # [doc = "Scales the rate at which audio is played (i.e. setting it to `0.5` will make the audio be played twice as fast)."] # [doc = ""] # [inline] pub fn set_global_rate_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . set_global_rate_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Swaps the position of two effects in bus `bus_idx`."] # [doc = ""] # [inline] pub fn swap_bus_effects (& self , bus_idx : i64 , effect_idx : i64 , by_effect_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . swap_bus_effects ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , bus_idx , effect_idx , by_effect_idx) ; } } # [doc = "Unlocks the audio driver's main loop. (After locking it, you should always unlock it.)"] # [doc = ""] # [inline] pub fn unlock (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioServerMethodTable :: get (get_api ()) . unlock ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioServer { } unsafe impl GodotObject for AudioServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "AudioServer" } } impl std :: ops :: Deref for AudioServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioServer { } unsafe impl Send for AudioServer { } unsafe impl Sync for AudioServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_bus : * mut sys :: godot_method_bind , pub add_bus_effect : * mut sys :: godot_method_bind , pub capture_get_device : * mut sys :: godot_method_bind , pub capture_get_device_list : * mut sys :: godot_method_bind , pub capture_set_device : * mut sys :: godot_method_bind , pub generate_bus_layout : * mut sys :: godot_method_bind , pub get_bus_channels : * mut sys :: godot_method_bind , pub get_bus_count : * mut sys :: godot_method_bind , pub get_bus_effect : * mut sys :: godot_method_bind , pub get_bus_effect_count : * mut sys :: godot_method_bind , pub get_bus_effect_instance : * mut sys :: godot_method_bind , pub get_bus_index : * mut sys :: godot_method_bind , pub get_bus_name : * mut sys :: godot_method_bind , pub get_bus_peak_volume_left_db : * mut sys :: godot_method_bind , pub get_bus_peak_volume_right_db : * mut sys :: godot_method_bind , pub get_bus_send : * mut sys :: godot_method_bind , pub get_bus_volume_db : * mut sys :: godot_method_bind , pub get_device : * mut sys :: godot_method_bind , pub get_device_list : * mut sys :: godot_method_bind , pub get_global_rate_scale : * mut sys :: godot_method_bind , pub get_mix_rate : * mut sys :: godot_method_bind , pub get_output_latency : * mut sys :: godot_method_bind , pub get_speaker_mode : * mut sys :: godot_method_bind , pub get_time_since_last_mix : * mut sys :: godot_method_bind , pub get_time_to_next_mix : * mut sys :: godot_method_bind , pub is_bus_bypassing_effects : * mut sys :: godot_method_bind , pub is_bus_effect_enabled : * mut sys :: godot_method_bind , pub is_bus_mute : * mut sys :: godot_method_bind , pub is_bus_solo : * mut sys :: godot_method_bind , pub lock : * mut sys :: godot_method_bind , pub move_bus : * mut sys :: godot_method_bind , pub remove_bus : * mut sys :: godot_method_bind , pub remove_bus_effect : * mut sys :: godot_method_bind , pub set_bus_bypass_effects : * mut sys :: godot_method_bind , pub set_bus_count : * mut sys :: godot_method_bind , pub set_bus_effect_enabled : * mut sys :: godot_method_bind , pub set_bus_layout : * mut sys :: godot_method_bind , pub set_bus_mute : * mut sys :: godot_method_bind , pub set_bus_name : * mut sys :: godot_method_bind , pub set_bus_send : * mut sys :: godot_method_bind , pub set_bus_solo : * mut sys :: godot_method_bind , pub set_bus_volume_db : * mut sys :: godot_method_bind , pub set_device : * mut sys :: godot_method_bind , pub set_global_rate_scale : * mut sys :: godot_method_bind , pub swap_bus_effects : * mut sys :: godot_method_bind , pub unlock : * mut sys :: godot_method_bind } impl AudioServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioServerMethodTable = AudioServerMethodTable { class_constructor : None , add_bus : 0 as * mut sys :: godot_method_bind , add_bus_effect : 0 as * mut sys :: godot_method_bind , capture_get_device : 0 as * mut sys :: godot_method_bind , capture_get_device_list : 0 as * mut sys :: godot_method_bind , capture_set_device : 0 as * mut sys :: godot_method_bind , generate_bus_layout : 0 as * mut sys :: godot_method_bind , get_bus_channels : 0 as * mut sys :: godot_method_bind , get_bus_count : 0 as * mut sys :: godot_method_bind , get_bus_effect : 0 as * mut sys :: godot_method_bind , get_bus_effect_count : 0 as * mut sys :: godot_method_bind , get_bus_effect_instance : 0 as * mut sys :: godot_method_bind , get_bus_index : 0 as * mut sys :: godot_method_bind , get_bus_name : 0 as * mut sys :: godot_method_bind , get_bus_peak_volume_left_db : 0 as * mut sys :: godot_method_bind , get_bus_peak_volume_right_db : 0 as * mut sys :: godot_method_bind , get_bus_send : 0 as * mut sys :: godot_method_bind , get_bus_volume_db : 0 as * mut sys :: godot_method_bind , get_device : 0 as * mut sys :: godot_method_bind , get_device_list : 0 as * mut sys :: godot_method_bind , get_global_rate_scale : 0 as * mut sys :: godot_method_bind , get_mix_rate : 0 as * mut sys :: godot_method_bind , get_output_latency : 0 as * mut sys :: godot_method_bind , get_speaker_mode : 0 as * mut sys :: godot_method_bind , get_time_since_last_mix : 0 as * mut sys :: godot_method_bind , get_time_to_next_mix : 0 as * mut sys :: godot_method_bind , is_bus_bypassing_effects : 0 as * mut sys :: godot_method_bind , is_bus_effect_enabled : 0 as * mut sys :: godot_method_bind , is_bus_mute : 0 as * mut sys :: godot_method_bind , is_bus_solo : 0 as * mut sys :: godot_method_bind , lock : 0 as * mut sys :: godot_method_bind , move_bus : 0 as * mut sys :: godot_method_bind , remove_bus : 0 as * mut sys :: godot_method_bind , remove_bus_effect : 0 as * mut sys :: godot_method_bind , set_bus_bypass_effects : 0 as * mut sys :: godot_method_bind , set_bus_count : 0 as * mut sys :: godot_method_bind , set_bus_effect_enabled : 0 as * mut sys :: godot_method_bind , set_bus_layout : 0 as * mut sys :: godot_method_bind , set_bus_mute : 0 as * mut sys :: godot_method_bind , set_bus_name : 0 as * mut sys :: godot_method_bind , set_bus_send : 0 as * mut sys :: godot_method_bind , set_bus_solo : 0 as * mut sys :: godot_method_bind , set_bus_volume_db : 0 as * mut sys :: godot_method_bind , set_device : 0 as * mut sys :: godot_method_bind , set_global_rate_scale : 0 as * mut sys :: godot_method_bind , swap_bus_effects : 0 as * mut sys :: godot_method_bind , unlock : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_bus = (gd_api . godot_method_bind_get_method) (class_name , "add_bus\0" . as_ptr () as * const c_char) ; table . add_bus_effect = (gd_api . godot_method_bind_get_method) (class_name , "add_bus_effect\0" . as_ptr () as * const c_char) ; table . capture_get_device = (gd_api . godot_method_bind_get_method) (class_name , "capture_get_device\0" . as_ptr () as * const c_char) ; table . capture_get_device_list = (gd_api . godot_method_bind_get_method) (class_name , "capture_get_device_list\0" . as_ptr () as * const c_char) ; table . capture_set_device = (gd_api . godot_method_bind_get_method) (class_name , "capture_set_device\0" . as_ptr () as * const c_char) ; table . generate_bus_layout = (gd_api . godot_method_bind_get_method) (class_name , "generate_bus_layout\0" . as_ptr () as * const c_char) ; table . get_bus_channels = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_channels\0" . as_ptr () as * const c_char) ; table . get_bus_count = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_count\0" . as_ptr () as * const c_char) ; table . get_bus_effect = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_effect\0" . as_ptr () as * const c_char) ; table . get_bus_effect_count = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_effect_count\0" . as_ptr () as * const c_char) ; table . get_bus_effect_instance = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_effect_instance\0" . as_ptr () as * const c_char) ; table . get_bus_index = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_index\0" . as_ptr () as * const c_char) ; table . get_bus_name = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_name\0" . as_ptr () as * const c_char) ; table . get_bus_peak_volume_left_db = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_peak_volume_left_db\0" . as_ptr () as * const c_char) ; table . get_bus_peak_volume_right_db = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_peak_volume_right_db\0" . as_ptr () as * const c_char) ; table . get_bus_send = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_send\0" . as_ptr () as * const c_char) ; table . get_bus_volume_db = (gd_api . godot_method_bind_get_method) (class_name , "get_bus_volume_db\0" . as_ptr () as * const c_char) ; table . get_device = (gd_api . godot_method_bind_get_method) (class_name , "get_device\0" . as_ptr () as * const c_char) ; table . get_device_list = (gd_api . godot_method_bind_get_method) (class_name , "get_device_list\0" . as_ptr () as * const c_char) ; table . get_global_rate_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_global_rate_scale\0" . as_ptr () as * const c_char) ; table . get_mix_rate = (gd_api . godot_method_bind_get_method) (class_name , "get_mix_rate\0" . as_ptr () as * const c_char) ; table . get_output_latency = (gd_api . godot_method_bind_get_method) (class_name , "get_output_latency\0" . as_ptr () as * const c_char) ; table . get_speaker_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_speaker_mode\0" . as_ptr () as * const c_char) ; table . get_time_since_last_mix = (gd_api . godot_method_bind_get_method) (class_name , "get_time_since_last_mix\0" . as_ptr () as * const c_char) ; table . get_time_to_next_mix = (gd_api . godot_method_bind_get_method) (class_name , "get_time_to_next_mix\0" . as_ptr () as * const c_char) ; table . is_bus_bypassing_effects = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_bypassing_effects\0" . as_ptr () as * const c_char) ; table . is_bus_effect_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_effect_enabled\0" . as_ptr () as * const c_char) ; table . is_bus_mute = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_mute\0" . as_ptr () as * const c_char) ; table . is_bus_solo = (gd_api . godot_method_bind_get_method) (class_name , "is_bus_solo\0" . as_ptr () as * const c_char) ; table . lock = (gd_api . godot_method_bind_get_method) (class_name , "lock\0" . as_ptr () as * const c_char) ; table . move_bus = (gd_api . godot_method_bind_get_method) (class_name , "move_bus\0" . as_ptr () as * const c_char) ; table . remove_bus = (gd_api . godot_method_bind_get_method) (class_name , "remove_bus\0" . as_ptr () as * const c_char) ; table . remove_bus_effect = (gd_api . godot_method_bind_get_method) (class_name , "remove_bus_effect\0" . as_ptr () as * const c_char) ; table . set_bus_bypass_effects = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_bypass_effects\0" . as_ptr () as * const c_char) ; table . set_bus_count = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_count\0" . as_ptr () as * const c_char) ; table . set_bus_effect_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_effect_enabled\0" . as_ptr () as * const c_char) ; table . set_bus_layout = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_layout\0" . as_ptr () as * const c_char) ; table . set_bus_mute = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_mute\0" . as_ptr () as * const c_char) ; table . set_bus_name = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_name\0" . as_ptr () as * const c_char) ; table . set_bus_send = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_send\0" . as_ptr () as * const c_char) ; table . set_bus_solo = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_solo\0" . as_ptr () as * const c_char) ; table . set_bus_volume_db = (gd_api . godot_method_bind_get_method) (class_name , "set_bus_volume_db\0" . as_ptr () as * const c_char) ; table . set_device = (gd_api . godot_method_bind_get_method) (class_name , "set_device\0" . as_ptr () as * const c_char) ; table . set_global_rate_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_global_rate_scale\0" . as_ptr () as * const c_char) ; table . swap_bus_effects = (gd_api . godot_method_bind_get_method) (class_name , "swap_bus_effects\0" . as_ptr () as * const c_char) ; table . unlock = (gd_api . godot_method_bind_get_method) (class_name , "unlock\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:10:4658 [INFO] [stdout] | [INFO] [stdout] 10 | ...odTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:16:6281 [INFO] [stdout] | [INFO] [stdout] 16 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:22:13732 [INFO] [stdout] | [INFO] [stdout] 22 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 ColorPicker` inherits `BoxContainer` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_colorpicker.html) in the Godot 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`ColorPicker` 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\nColorPicker inherits methods from:\n - [BoxContainer](struct.BoxContainer.html)\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ColorPicker { this : RawObject < Self > , } impl ColorPicker { # [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 = ColorPickerMethodTable :: 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 given color to a list of color presets. The presets are displayed in the color picker and the user will be able to select them.\n**Note:** the presets list is only for [i]this[/i] color picker."] # [doc = ""] # [inline] pub fn add_preset (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . add_preset ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "If `true`, the \"add preset\" button is enabled."] # [doc = ""] # [inline] pub fn are_presets_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . are_presets_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, saved color presets are visible."] # [doc = ""] # [inline] pub fn are_presets_visible (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . are_presets_visible ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes the given color from the list of color presets of this color picker."] # [doc = ""] # [inline] pub fn erase_preset (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . erase_preset ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "The currently selected color."] # [doc = ""] # [inline] pub fn pick_color (& self) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . get_pick_color ; let ret = crate :: icalls :: icallptr_color (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the list of colors in the presets of the color picker."] # [doc = ""] # [inline] pub fn get_presets (& self) -> ColorArray { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . get_presets ; let ret = crate :: icalls :: icallptr_colorarr (method_bind , self . this . sys () . as_ptr ()) ; ColorArray :: from_sys (ret) } } # [doc = "If `true`, the color will apply only after the user releases the mouse button, otherwise it will apply immediately even in mouse motion event (which can cause performance issues)."] # [doc = ""] # [inline] pub fn is_deferred_mode (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . is_deferred_mode ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, shows an alpha channel slider (transparency)."] # [doc = ""] # [inline] pub fn is_editing_alpha (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . is_editing_alpha ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, allows editing the color with Hue/Saturation/Value sliders.\n**Note:** Cannot be enabled if raw mode is on."] # [doc = ""] # [inline] pub fn is_hsv_mode (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . is_hsv_mode ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, allows the color R, G, B component values to go beyond 1.0, which can be used for certain special operations that require it (like tinting without darkening or rendering sprites in HDR).\n**Note:** Cannot be enabled if HSV mode is on."] # [doc = ""] # [inline] pub fn is_raw_mode (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . is_raw_mode ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the color will apply only after the user releases the mouse button, otherwise it will apply immediately even in mouse motion event (which can cause performance issues)."] # [doc = ""] # [inline] pub fn set_deferred_mode (& self , mode : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . set_deferred_mode ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "If `true`, shows an alpha channel slider (transparency)."] # [doc = ""] # [inline] pub fn set_edit_alpha (& self , show : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . set_edit_alpha ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , show) ; } } # [doc = "If `true`, allows editing the color with Hue/Saturation/Value sliders.\n**Note:** Cannot be enabled if raw mode is on."] # [doc = ""] # [inline] pub fn set_hsv_mode (& self , mode : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . set_hsv_mode ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The currently selected color."] # [doc = ""] # [inline] pub fn set_pick_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . set_pick_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "If `true`, the \"add preset\" button is enabled."] # [doc = ""] # [inline] pub fn set_presets_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . set_presets_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, saved color presets are visible."] # [doc = ""] # [inline] pub fn set_presets_visible (& self , visible : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . set_presets_visible ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , visible) ; } } # [doc = "If `true`, allows the color R, G, B component values to go beyond 1.0, which can be used for certain special operations that require it (like tinting without darkening or rendering sprites in HDR).\n**Note:** Cannot be enabled if HSV mode is on."] # [doc = ""] # [inline] pub fn set_raw_mode (& self , mode : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ColorPickerMethodTable :: get (get_api ()) . set_raw_mode ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ColorPicker { } unsafe impl GodotObject for ColorPicker { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ColorPicker" } } impl QueueFree for ColorPicker { # [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 ColorPicker { type Target = crate :: generated :: box_container :: BoxContainer ; # [inline] fn deref (& self) -> & crate :: generated :: box_container :: BoxContainer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ColorPicker { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: box_container :: BoxContainer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: box_container :: BoxContainer > for ColorPicker { } unsafe impl SubClass < crate :: generated :: container :: Container > for ColorPicker { } unsafe impl SubClass < crate :: generated :: control :: Control > for ColorPicker { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ColorPicker { } unsafe impl SubClass < crate :: generated :: node :: Node > for ColorPicker { } unsafe impl SubClass < crate :: generated :: object :: Object > for ColorPicker { } impl Instanciable for ColorPicker { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ColorPicker :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ColorPickerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_preset : * mut sys :: godot_method_bind , pub are_presets_enabled : * mut sys :: godot_method_bind , pub are_presets_visible : * mut sys :: godot_method_bind , pub erase_preset : * mut sys :: godot_method_bind , pub get_pick_color : * mut sys :: godot_method_bind , pub get_presets : * mut sys :: godot_method_bind , pub is_deferred_mode : * mut sys :: godot_method_bind , pub is_editing_alpha : * mut sys :: godot_method_bind , pub is_hsv_mode : * mut sys :: godot_method_bind , pub is_raw_mode : * mut sys :: godot_method_bind , pub set_deferred_mode : * mut sys :: godot_method_bind , pub set_edit_alpha : * mut sys :: godot_method_bind , pub set_hsv_mode : * mut sys :: godot_method_bind , pub set_pick_color : * mut sys :: godot_method_bind , pub set_presets_enabled : * mut sys :: godot_method_bind , pub set_presets_visible : * mut sys :: godot_method_bind , pub set_raw_mode : * mut sys :: godot_method_bind } impl ColorPickerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ColorPickerMethodTable = ColorPickerMethodTable { class_constructor : None , add_preset : 0 as * mut sys :: godot_method_bind , are_presets_enabled : 0 as * mut sys :: godot_method_bind , are_presets_visible : 0 as * mut sys :: godot_method_bind , erase_preset : 0 as * mut sys :: godot_method_bind , get_pick_color : 0 as * mut sys :: godot_method_bind , get_presets : 0 as * mut sys :: godot_method_bind , is_deferred_mode : 0 as * mut sys :: godot_method_bind , is_editing_alpha : 0 as * mut sys :: godot_method_bind , is_hsv_mode : 0 as * mut sys :: godot_method_bind , is_raw_mode : 0 as * mut sys :: godot_method_bind , set_deferred_mode : 0 as * mut sys :: godot_method_bind , set_edit_alpha : 0 as * mut sys :: godot_method_bind , set_hsv_mode : 0 as * mut sys :: godot_method_bind , set_pick_color : 0 as * mut sys :: godot_method_bind , set_presets_enabled : 0 as * mut sys :: godot_method_bind , set_presets_visible : 0 as * mut sys :: godot_method_bind , set_raw_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 (|| { ColorPickerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ColorPicker\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_preset = (gd_api . godot_method_bind_get_method) (class_name , "add_preset\0" . as_ptr () as * const c_char) ; table . are_presets_enabled = (gd_api . godot_method_bind_get_method) (class_name , "are_presets_enabled\0" . as_ptr () as * const c_char) ; table . are_presets_visible = (gd_api . godot_method_bind_get_method) (class_name , "are_presets_visible\0" . as_ptr () as * const c_char) ; table . erase_preset = (gd_api . godot_method_bind_get_method) (class_name , "erase_preset\0" . as_ptr () as * const c_char) ; table . get_pick_color = (gd_api . godot_method_bind_get_method) (class_name , "get_pick_color\0" . as_ptr () as * const c_char) ; table . get_presets = (gd_api . godot_method_bind_get_method) (class_name , "get_presets\0" . as_ptr () as * const c_char) ; table . is_deferred_mode = (gd_api . godot_method_bind_get_method) (class_name , "is_deferred_mode\0" . as_ptr () as * const c_char) ; table . is_editing_alpha = (gd_api . godot_method_bind_get_method) (class_name , "is_editing_alpha\0" . as_ptr () as * const c_char) ; table . is_hsv_mode = (gd_api . godot_method_bind_get_method) (class_name , "is_hsv_mode\0" . as_ptr () as * const c_char) ; table . is_raw_mode = (gd_api . godot_method_bind_get_method) (class_name , "is_raw_mode\0" . as_ptr () as * const c_char) ; table . set_deferred_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_deferred_mode\0" . as_ptr () as * const c_char) ; table . set_edit_alpha = (gd_api . godot_method_bind_get_method) (class_name , "set_edit_alpha\0" . as_ptr () as * const c_char) ; table . set_hsv_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_hsv_mode\0" . as_ptr () as * const c_char) ; table . set_pick_color = (gd_api . godot_method_bind_get_method) (class_name , "set_pick_color\0" . as_ptr () as * const c_char) ; table . set_presets_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_presets_enabled\0" . as_ptr () as * const c_char) ; table . set_presets_visible = (gd_api . godot_method_bind_get_method) (class_name , "set_presets_visible\0" . as_ptr () as * const c_char) ; table . set_raw_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_raw_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-7a634cfa4295a760/out/generated.rs:28:3797 [INFO] [stdout] | [INFO] [stdout] 28 | ...odTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:34:3128 [INFO] [stdout] | [INFO] [stdout] 34 | ...odTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 TriangleMesh` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_trianglemesh.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nTriangleMesh 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 TriangleMesh { this : RawObject < Self > , } impl TriangleMesh { # [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 = TriangleMeshMethodTable :: 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 TriangleMesh { } unsafe impl GodotObject for TriangleMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "TriangleMesh" } } impl std :: ops :: Deref for TriangleMesh { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TriangleMesh { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for TriangleMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for TriangleMesh { } impl Instanciable for TriangleMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TriangleMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TriangleMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl TriangleMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TriangleMeshMethodTable = TriangleMeshMethodTable { 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 (|| { TriangleMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TriangleMesh\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-7a634cfa4295a760/out/generated.rs:46:3699 [INFO] [stdout] | [INFO] [stdout] 46 | ...odTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:52:7950 [INFO] [stdout] | [INFO] [stdout] 52 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 InputEventMouseButton` inherits `InputEventMouse` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventmousebutton.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventMouseButton 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 InputEventMouseButton { this : RawObject < Self > , } impl InputEventMouseButton { # [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 = InputEventMouseButtonMethodTable :: 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 mouse button identifier, one of the [enum ButtonList] button or button wheel constants."] # [doc = ""] # [inline] pub fn button_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseButtonMethodTable :: get (get_api ()) . get_button_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The amount (or delta) of the event. When used for high-precision scroll events, this indicates the scroll amount (vertical or horizontal). This is only supported on some platforms; the reported sensitivity varies depending on the platform. May be `0` if not supported."] # [doc = ""] # [inline] pub fn factor (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseButtonMethodTable :: get (get_api ()) . get_factor ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the mouse button's state is a double-click."] # [doc = ""] # [inline] pub fn is_doubleclick (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseButtonMethodTable :: get (get_api ()) . is_doubleclick ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The mouse button identifier, one of the [enum ButtonList] button or button wheel constants."] # [doc = ""] # [inline] pub fn set_button_index (& self , button_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseButtonMethodTable :: 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 mouse button's state is a double-click."] # [doc = ""] # [inline] pub fn set_doubleclick (& self , doubleclick : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseButtonMethodTable :: get (get_api ()) . set_doubleclick ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , doubleclick) ; } } # [doc = "The amount (or delta) of the event. When used for high-precision scroll events, this indicates the scroll amount (vertical or horizontal). This is only supported on some platforms; the reported sensitivity varies depending on the platform. May be `0` if not supported."] # [doc = ""] # [inline] pub fn set_factor (& self , factor : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseButtonMethodTable :: get (get_api ()) . set_factor ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , factor) ; } } # [doc = "If `true`, the mouse button's state is pressed. If `false`, the mouse button's state is released."] # [doc = ""] # [inline] pub fn set_pressed (& self , pressed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseButtonMethodTable :: get (get_api ()) . set_pressed ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , pressed) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventMouseButton { } unsafe impl GodotObject for InputEventMouseButton { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventMouseButton" } } impl std :: ops :: Deref for InputEventMouseButton { 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 InputEventMouseButton { # [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 InputEventMouseButton { } unsafe impl SubClass < crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers > for InputEventMouseButton { } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventMouseButton { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventMouseButton { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventMouseButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventMouseButton { } impl Instanciable for InputEventMouseButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventMouseButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventMouseButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_button_index : * mut sys :: godot_method_bind , pub get_factor : * mut sys :: godot_method_bind , pub is_doubleclick : * mut sys :: godot_method_bind , pub set_button_index : * mut sys :: godot_method_bind , pub set_doubleclick : * mut sys :: godot_method_bind , pub set_factor : * mut sys :: godot_method_bind , pub set_pressed : * mut sys :: godot_method_bind } impl InputEventMouseButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventMouseButtonMethodTable = InputEventMouseButtonMethodTable { class_constructor : None , get_button_index : 0 as * mut sys :: godot_method_bind , get_factor : 0 as * mut sys :: godot_method_bind , is_doubleclick : 0 as * mut sys :: godot_method_bind , set_button_index : 0 as * mut sys :: godot_method_bind , set_doubleclick : 0 as * mut sys :: godot_method_bind , set_factor : 0 as * mut sys :: godot_method_bind , set_pressed : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventMouseButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventMouseButton\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_factor = (gd_api . godot_method_bind_get_method) (class_name , "get_factor\0" . as_ptr () as * const c_char) ; table . is_doubleclick = (gd_api . godot_method_bind_get_method) (class_name , "is_doubleclick\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_doubleclick = (gd_api . godot_method_bind_get_method) (class_name , "set_doubleclick\0" . as_ptr () as * const c_char) ; table . set_factor = (gd_api . godot_method_bind_get_method) (class_name , "set_factor\0" . as_ptr () as * const c_char) ; table . set_pressed = (gd_api . godot_method_bind_get_method) (class_name , "set_pressed\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:58:7401 [INFO] [stdout] | [INFO] [stdout] 58 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 OccluderPolygon2D` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_occluderpolygon2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nOccluderPolygon2D inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct OccluderPolygon2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CullMode (pub i64) ; impl CullMode { pub const DISABLED : CullMode = CullMode (0i64) ; pub const CLOCKWISE : CullMode = CullMode (1i64) ; pub const COUNTER_CLOCKWISE : CullMode = CullMode (2i64) ; } impl From < i64 > for CullMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CullMode > for i64 { # [inline] fn from (v : CullMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl OccluderPolygon2D { pub const CULL_CLOCKWISE : i64 = 1i64 ; pub const CULL_COUNTER_CLOCKWISE : i64 = 2i64 ; pub const CULL_DISABLED : i64 = 0i64 ; } impl OccluderPolygon2D { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = OccluderPolygon2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The culling mode to use."] # [doc = ""] # [inline] pub fn cull_mode (& self) -> crate :: generated :: occluder_polygon_2d :: CullMode { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . get_cull_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: occluder_polygon_2d :: CullMode (ret) } } # [doc = "A [Vector2] array with the index for polygon's vertices positions.\n**Note:** The returned value is a copy of the underlying array, rather than a reference."] # [doc = ""] # [inline] pub fn polygon (& self) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . get_polygon ; let ret = crate :: icalls :: icallptr_vec2arr (method_bind , self . this . sys () . as_ptr ()) ; Vector2Array :: from_sys (ret) } } # [doc = "If `true`, closes the polygon. A closed OccluderPolygon2D occludes the light coming from any direction. An opened OccluderPolygon2D occludes the light only at its outline's direction."] # [doc = ""] # [inline] pub fn is_closed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . is_closed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, closes the polygon. A closed OccluderPolygon2D occludes the light coming from any direction. An opened OccluderPolygon2D occludes the light only at its outline's direction."] # [doc = ""] # [inline] pub fn set_closed (& self , closed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . set_closed ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , closed) ; } } # [doc = "The culling mode to use."] # [doc = ""] # [inline] pub fn set_cull_mode (& self , cull_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . set_cull_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , cull_mode) ; } } # [doc = "A [Vector2] array with the index for polygon's vertices positions.\n**Note:** The returned value is a copy of the underlying array, rather than a reference."] # [doc = ""] # [inline] pub fn set_polygon (& self , polygon : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OccluderPolygon2DMethodTable :: get (get_api ()) . set_polygon ; let ret = crate :: icalls :: icallptr_void_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for OccluderPolygon2D { } unsafe impl GodotObject for OccluderPolygon2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "OccluderPolygon2D" } } impl std :: ops :: Deref for OccluderPolygon2D { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for OccluderPolygon2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for OccluderPolygon2D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for OccluderPolygon2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for OccluderPolygon2D { } impl Instanciable for OccluderPolygon2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { OccluderPolygon2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct OccluderPolygon2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_cull_mode : * mut sys :: godot_method_bind , pub get_polygon : * mut sys :: godot_method_bind , pub is_closed : * mut sys :: godot_method_bind , pub set_closed : * mut sys :: godot_method_bind , pub set_cull_mode : * mut sys :: godot_method_bind , pub set_polygon : * mut sys :: godot_method_bind } impl OccluderPolygon2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : OccluderPolygon2DMethodTable = OccluderPolygon2DMethodTable { class_constructor : None , get_cull_mode : 0 as * mut sys :: godot_method_bind , get_polygon : 0 as * mut sys :: godot_method_bind , is_closed : 0 as * mut sys :: godot_method_bind , set_closed : 0 as * mut sys :: godot_method_bind , set_cull_mode : 0 as * mut sys :: godot_method_bind , set_polygon : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { OccluderPolygon2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "OccluderPolygon2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_cull_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_cull_mode\0" . as_ptr () as * const c_char) ; table . get_polygon = (gd_api . godot_method_bind_get_method) (class_name , "get_polygon\0" . as_ptr () as * const c_char) ; table . is_closed = (gd_api . godot_method_bind_get_method) (class_name , "is_closed\0" . as_ptr () as * const c_char) ; table . set_closed = (gd_api . godot_method_bind_get_method) (class_name , "set_closed\0" . as_ptr () as * const c_char) ; table . set_cull_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_cull_mode\0" . as_ptr () as * const c_char) ; table . set_polygon = (gd_api . godot_method_bind_get_method) (class_name , "set_polygon\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:64:20850 [INFO] [stdout] | [INFO] [stdout] 64 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:70:16205 [INFO] [stdout] | [INFO] [stdout] 70 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 70 | # [doc = "`core class 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-7a634cfa4295a760/out/generated.rs:76:3905 [INFO] [stdout] | [INFO] [stdout] 76 | ...odTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 76 | # [doc = "`core class AudioEffectLowShelfFilter` inherits `AudioEffectFilter` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectlowshelffilter.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectLowShelfFilter 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 AudioEffectLowShelfFilter { this : RawObject < Self > , } impl AudioEffectLowShelfFilter { # [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 = AudioEffectLowShelfFilterMethodTable :: 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 AudioEffectLowShelfFilter { } unsafe impl GodotObject for AudioEffectLowShelfFilter { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectLowShelfFilter" } } impl std :: ops :: Deref for AudioEffectLowShelfFilter { 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 AudioEffectLowShelfFilter { # [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 AudioEffectLowShelfFilter { } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectLowShelfFilter { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectLowShelfFilter { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectLowShelfFilter { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectLowShelfFilter { } impl Instanciable for AudioEffectLowShelfFilter { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectLowShelfFilter :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectLowShelfFilterMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AudioEffectLowShelfFilterMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectLowShelfFilterMethodTable = AudioEffectLowShelfFilterMethodTable { 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 (|| { AudioEffectLowShelfFilterMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectLowShelfFilter\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-7a634cfa4295a760/out/generated.rs:82:6131 [INFO] [stdout] | [INFO] [stdout] 82 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeVectorOp` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorop.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorOp 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 VisualShaderNodeVectorOp { 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 CROSS : Operator = Operator (8i64) ; pub const ATAN2 : Operator = Operator (9i64) ; pub const REFLECT : Operator = Operator (10i64) ; pub const STEP : Operator = Operator (11i64) ; } 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 VisualShaderNodeVectorOp { pub const OP_ADD : i64 = 0i64 ; pub const OP_ATAN2 : i64 = 9i64 ; pub const OP_CROSS : 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_REFLECT : i64 = 10i64 ; pub const OP_STEP : i64 = 11i64 ; pub const OP_SUB : i64 = 1i64 ; } impl VisualShaderNodeVectorOp { # [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 = VisualShaderNodeVectorOpMethodTable :: 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 operator to be used. See [enum Operator] for options."] # [doc = ""] # [inline] pub fn operator (& self) -> crate :: generated :: visual_shader_node_vector_op :: Operator { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeVectorOpMethodTable :: get (get_api ()) . get_operator ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_vector_op :: Operator (ret) } } # [doc = "The operator to be used. See [enum Operator] for options."] # [doc = ""] # [inline] pub fn set_operator (& self , op : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeVectorOpMethodTable :: 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 VisualShaderNodeVectorOp { } unsafe impl GodotObject for VisualShaderNodeVectorOp { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorOp" } } impl std :: ops :: Deref for VisualShaderNodeVectorOp { 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 VisualShaderNodeVectorOp { # [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 VisualShaderNodeVectorOp { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorOp { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorOp { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorOp { } impl Instanciable for VisualShaderNodeVectorOp { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorOp :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorOpMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_operator : * mut sys :: godot_method_bind , pub set_operator : * mut sys :: godot_method_bind } impl VisualShaderNodeVectorOpMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorOpMethodTable = VisualShaderNodeVectorOpMethodTable { 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 (|| { VisualShaderNodeVectorOpMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorOp\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-7a634cfa4295a760/out/generated.rs:88:4726 [INFO] [stdout] | [INFO] [stdout] 88 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AnimationNodeBlend2` inherits `AnimationNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeblend2.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeBlend2 inherits methods from:\n - [AnimationNode](struct.AnimationNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AnimationNodeBlend2 { this : RawObject < Self > , } impl AnimationNodeBlend2 { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AnimationNodeBlend2MethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "If `true`, sets the `optimization` to `false` when calling [method AnimationNode.blend_input], forcing the blended animations to update every frame."] # [doc = ""] # [inline] pub fn is_using_sync (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlend2MethodTable :: get (get_api ()) . is_using_sync ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, sets the `optimization` to `false` when calling [method AnimationNode.blend_input], forcing the blended animations to update every frame."] # [doc = ""] # [inline] pub fn set_use_sync (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlend2MethodTable :: get (get_api ()) . set_use_sync ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeBlend2 { } unsafe impl GodotObject for AnimationNodeBlend2 { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeBlend2" } } impl std :: ops :: Deref for AnimationNodeBlend2 { type Target = crate :: generated :: animation_node :: AnimationNode ; # [inline] fn deref (& self) -> & crate :: generated :: animation_node :: AnimationNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationNodeBlend2 { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: animation_node :: AnimationNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: animation_node :: AnimationNode > for AnimationNodeBlend2 { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeBlend2 { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeBlend2 { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeBlend2 { } impl Instanciable for AnimationNodeBlend2 { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeBlend2 :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeBlend2MethodTable { pub class_constructor : sys :: godot_class_constructor , pub is_using_sync : * mut sys :: godot_method_bind , pub set_use_sync : * mut sys :: godot_method_bind } impl AnimationNodeBlend2MethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeBlend2MethodTable = AnimationNodeBlend2MethodTable { class_constructor : None , is_using_sync : 0 as * mut sys :: godot_method_bind , set_use_sync : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeBlend2MethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeBlend2\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . is_using_sync = (gd_api . godot_method_bind_get_method) (class_name , "is_using_sync\0" . as_ptr () as * const c_char) ; table . set_use_sync = (gd_api . godot_method_bind_get_method) (class_name , "set_use_sync\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:94:17232 [INFO] [stdout] | [INFO] [stdout] 94 | ... 0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:100:6872 [INFO] [stdout] | [INFO] [stdout] 100 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Joint` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_joint.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nJoint inherits methods from:\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Joint { this : RawObject < Self > , } impl Joint { # [doc = "If `true`, the two bodies of the nodes are not able to collide with each other."] # [doc = ""] # [inline] pub fn exclude_nodes_from_collision (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The node attached to the first side (A) of the joint."] # [doc = ""] # [inline] pub fn node_a (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_node_a ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The node attached to the second side (B) of the joint."] # [doc = ""] # [inline] pub fn node_b (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_node_b ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The priority used to define which solver is executed first for multiple joints. The lower the value, the higher the priority."] # [doc = ""] # [inline] pub fn solver_priority (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . get_solver_priority ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the two bodies of the nodes are not able to collide with each other."] # [doc = ""] # [inline] pub fn set_exclude_nodes_from_collision (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The node attached to the first side (A) of the joint."] # [doc = ""] # [inline] pub fn set_node_a (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_node_a ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } # [doc = "The node attached to the second side (B) of the joint."] # [doc = ""] # [inline] pub fn set_node_b (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_node_b ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } # [doc = "The priority used to define which solver is executed first for multiple joints. The lower the value, the higher the priority."] # [doc = ""] # [inline] pub fn set_solver_priority (& self , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JointMethodTable :: get (get_api ()) . set_solver_priority ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , priority) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Joint { } unsafe impl GodotObject for Joint { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Joint" } } impl QueueFree for Joint { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Joint { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Joint { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for Joint { } unsafe impl SubClass < crate :: generated :: node :: Node > for Joint { } unsafe impl SubClass < crate :: generated :: object :: Object > for Joint { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JointMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub get_node_a : * mut sys :: godot_method_bind , pub get_node_b : * mut sys :: godot_method_bind , pub get_solver_priority : * mut sys :: godot_method_bind , pub set_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub set_node_a : * mut sys :: godot_method_bind , pub set_node_b : * mut sys :: godot_method_bind , pub set_solver_priority : * mut sys :: godot_method_bind } impl JointMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JointMethodTable = JointMethodTable { class_constructor : None , get_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , get_node_a : 0 as * mut sys :: godot_method_bind , get_node_b : 0 as * mut sys :: godot_method_bind , get_solver_priority : 0 as * mut sys :: godot_method_bind , set_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , set_node_a : 0 as * mut sys :: godot_method_bind , set_node_b : 0 as * mut sys :: godot_method_bind , set_solver_priority : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JointMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Joint\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . get_node_a = (gd_api . godot_method_bind_get_method) (class_name , "get_node_a\0" . as_ptr () as * const c_char) ; table . get_node_b = (gd_api . godot_method_bind_get_method) (class_name , "get_node_b\0" . as_ptr () as * const c_char) ; table . get_solver_priority = (gd_api . godot_method_bind_get_method) (class_name , "get_solver_priority\0" . as_ptr () as * const c_char) ; table . set_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . set_node_a = (gd_api . godot_method_bind_get_method) (class_name , "set_node_a\0" . as_ptr () as * const c_char) ; table . set_node_b = (gd_api . godot_method_bind_get_method) (class_name , "set_node_b\0" . as_ptr () as * const c_char) ; table . set_solver_priority = (gd_api . godot_method_bind_get_method) (class_name , "set_solver_priority\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:106:5195 [INFO] [stdout] | [INFO] [stdout] 106 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeIs` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodeis.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeIs 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 VisualShaderNodeIs { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Function (pub i64) ; impl Function { pub const INF : Function = Function (0i64) ; pub const NAN : 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 VisualShaderNodeIs { pub const FUNC_IS_INF : i64 = 0i64 ; pub const FUNC_IS_NAN : i64 = 1i64 ; } impl VisualShaderNodeIs { # [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 = VisualShaderNodeIsMethodTable :: 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 comparison function. See [enum Function] for options."] # [doc = ""] # [inline] pub fn function (& self) -> crate :: generated :: visual_shader_node_is :: Function { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeIsMethodTable :: get (get_api ()) . get_function ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_is :: Function (ret) } } # [doc = "The comparison function. See [enum Function] for options."] # [doc = ""] # [inline] pub fn set_function (& self , func : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeIsMethodTable :: 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 VisualShaderNodeIs { } unsafe impl GodotObject for VisualShaderNodeIs { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeIs" } } impl std :: ops :: Deref for VisualShaderNodeIs { 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 VisualShaderNodeIs { # [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 VisualShaderNodeIs { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeIs { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeIs { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeIs { } impl Instanciable for VisualShaderNodeIs { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeIs :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeIsMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_function : * mut sys :: godot_method_bind , pub set_function : * mut sys :: godot_method_bind } impl VisualShaderNodeIsMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeIsMethodTable = VisualShaderNodeIsMethodTable { 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 (|| { VisualShaderNodeIsMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeIs\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-7a634cfa4295a760/out/generated.rs:112:7922 [INFO] [stdout] | [INFO] [stdout] 112 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 NoiseTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_noisetexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nNoiseTexture 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 NoiseTexture { this : RawObject < Self > , } impl NoiseTexture { # [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 = NoiseTextureMethodTable :: 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 bump_strength (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . get_bump_strength ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn noise (& self) -> Option < Ref < crate :: generated :: open_simplex_noise :: OpenSimplexNoise , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . get_noise ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: open_simplex_noise :: OpenSimplexNoise , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn seamless (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . get_seamless ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_normalmap (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . is_normalmap ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_as_normalmap (& self , as_normalmap : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . set_as_normalmap ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , as_normalmap) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_bump_strength (& self , bump_strength : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . set_bump_strength ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bump_strength) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_height (& self , height : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . set_height ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_noise (& self , noise : impl AsArg < crate :: generated :: open_simplex_noise :: OpenSimplexNoise >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . set_noise ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , noise . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_seamless (& self , seamless : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . set_seamless ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , seamless) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_width (& self , width : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NoiseTextureMethodTable :: get (get_api ()) . set_width ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , width) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for NoiseTexture { } unsafe impl GodotObject for NoiseTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "NoiseTexture" } } impl std :: ops :: Deref for NoiseTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for NoiseTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for NoiseTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for NoiseTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for NoiseTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for NoiseTexture { } impl Instanciable for NoiseTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { NoiseTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct NoiseTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bump_strength : * mut sys :: godot_method_bind , pub get_noise : * mut sys :: godot_method_bind , pub get_seamless : * mut sys :: godot_method_bind , pub is_normalmap : * mut sys :: godot_method_bind , pub set_as_normalmap : * mut sys :: godot_method_bind , pub set_bump_strength : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_noise : * mut sys :: godot_method_bind , pub set_seamless : * mut sys :: godot_method_bind , pub set_width : * mut sys :: godot_method_bind } impl NoiseTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : NoiseTextureMethodTable = NoiseTextureMethodTable { class_constructor : None , get_bump_strength : 0 as * mut sys :: godot_method_bind , get_noise : 0 as * mut sys :: godot_method_bind , get_seamless : 0 as * mut sys :: godot_method_bind , is_normalmap : 0 as * mut sys :: godot_method_bind , set_as_normalmap : 0 as * mut sys :: godot_method_bind , set_bump_strength : 0 as * mut sys :: godot_method_bind , set_height : 0 as * mut sys :: godot_method_bind , set_noise : 0 as * mut sys :: godot_method_bind , set_seamless : 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 (|| { NoiseTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "NoiseTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bump_strength = (gd_api . godot_method_bind_get_method) (class_name , "get_bump_strength\0" . as_ptr () as * const c_char) ; table . get_noise = (gd_api . godot_method_bind_get_method) (class_name , "get_noise\0" . as_ptr () as * const c_char) ; table . get_seamless = (gd_api . godot_method_bind_get_method) (class_name , "get_seamless\0" . as_ptr () as * const c_char) ; table . is_normalmap = (gd_api . godot_method_bind_get_method) (class_name , "is_normalmap\0" . as_ptr () as * const c_char) ; table . set_as_normalmap = (gd_api . godot_method_bind_get_method) (class_name , "set_as_normalmap\0" . as_ptr () as * const c_char) ; table . set_bump_strength = (gd_api . godot_method_bind_get_method) (class_name , "set_bump_strength\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_noise = (gd_api . godot_method_bind_get_method) (class_name , "set_noise\0" . as_ptr () as * const c_char) ; table . set_seamless = (gd_api . godot_method_bind_get_method) (class_name , "set_seamless\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-7a634cfa4295a760/out/generated.rs:118:7629 [INFO] [stdout] | [INFO] [stdout] 118 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 LargeTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_largetexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nLargeTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct LargeTexture { this : RawObject < Self > , } impl LargeTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = LargeTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds `texture` to this [LargeTexture], starting on offset `ofs`."] # [doc = ""] # [inline] pub fn add_piece (& self , ofs : Vector2 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . add_piece ; let ret = crate :: icalls :: icallptr_i64_vec2_obj (method_bind , self . this . sys () . as_ptr () , ofs , texture . as_arg_ptr ()) ; ret as _ } } # [doc = "Clears the [LargeTexture]."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the number of pieces currently in this [LargeTexture]."] # [doc = ""] # [inline] pub fn get_piece_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . get_piece_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the offset of the piece with the index `idx`."] # [doc = ""] # [inline] pub fn get_piece_offset (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . get_piece_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the [Texture] of the piece with the index `idx`."] # [doc = ""] # [inline] pub fn get_piece_texture (& self , idx : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . get_piece_texture ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Sets the offset of the piece with the index `idx` to `ofs`."] # [doc = ""] # [inline] pub fn set_piece_offset (& self , idx : i64 , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . set_piece_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , idx , ofs) ; } } # [doc = "Sets the [Texture] of the piece with index `idx` to `texture`."] # [doc = ""] # [inline] pub fn set_piece_texture (& self , idx : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . set_piece_texture ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , idx , texture . as_arg_ptr ()) ; } } # [doc = "Sets the size of this [LargeTexture]."] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = LargeTextureMethodTable :: get (get_api ()) . set_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for LargeTexture { } unsafe impl GodotObject for LargeTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "LargeTexture" } } impl std :: ops :: Deref for LargeTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for LargeTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for LargeTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for LargeTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for LargeTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for LargeTexture { } impl Instanciable for LargeTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { LargeTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct LargeTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_piece : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_piece_count : * mut sys :: godot_method_bind , pub get_piece_offset : * mut sys :: godot_method_bind , pub get_piece_texture : * mut sys :: godot_method_bind , pub set_piece_offset : * mut sys :: godot_method_bind , pub set_piece_texture : * mut sys :: godot_method_bind , pub set_size : * mut sys :: godot_method_bind } impl LargeTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : LargeTextureMethodTable = LargeTextureMethodTable { class_constructor : None , add_piece : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_piece_count : 0 as * mut sys :: godot_method_bind , get_piece_offset : 0 as * mut sys :: godot_method_bind , get_piece_texture : 0 as * mut sys :: godot_method_bind , set_piece_offset : 0 as * mut sys :: godot_method_bind , set_piece_texture : 0 as * mut sys :: godot_method_bind , set_size : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { LargeTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "LargeTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_piece = (gd_api . godot_method_bind_get_method) (class_name , "add_piece\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . get_piece_count = (gd_api . godot_method_bind_get_method) (class_name , "get_piece_count\0" . as_ptr () as * const c_char) ; table . get_piece_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_piece_offset\0" . as_ptr () as * const c_char) ; table . get_piece_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_piece_texture\0" . as_ptr () as * const c_char) ; table . set_piece_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_piece_offset\0" . as_ptr () as * const c_char) ; table . set_piece_texture = (gd_api . godot_method_bind_get_method) (class_name , "set_piece_texture\0" . as_ptr () as * const c_char) ; table . set_size = (gd_api . godot_method_bind_get_method) (class_name , "set_size\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:124:5359 [INFO] [stdout] | [INFO] [stdout] 124 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Path2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_path2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Path2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nPath2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Path2D { this : RawObject < Self > , } impl Path2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = Path2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "A [Curve2D] describing the path."] # [doc = ""] # [inline] pub fn curve (& self) -> Option < Ref < crate :: generated :: curve_2d :: Curve2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = Path2DMethodTable :: get (get_api ()) . get_curve ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: curve_2d :: Curve2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "A [Curve2D] describing the path."] # [doc = ""] # [inline] pub fn set_curve (& self , curve : impl AsArg < crate :: generated :: curve_2d :: Curve2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Path2DMethodTable :: get (get_api ()) . set_curve ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , curve . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Path2D { } unsafe impl GodotObject for Path2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Path2D" } } impl QueueFree for Path2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Path2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Path2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for Path2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Path2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Path2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Path2D { } impl Instanciable for Path2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Path2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Path2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_curve : * mut sys :: godot_method_bind , pub set_curve : * mut sys :: godot_method_bind } impl Path2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Path2DMethodTable = Path2DMethodTable { class_constructor : None , get_curve : 0 as * mut sys :: godot_method_bind , set_curve : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Path2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Path2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_curve = (gd_api . godot_method_bind_get_method) (class_name , "get_curve\0" . as_ptr () as * const c_char) ; table . set_curve = (gd_api . godot_method_bind_get_method) (class_name , "set_curve\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:130:8440 [INFO] [stdout] | [INFO] [stdout] 130 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:136:5076 [INFO] [stdout] | [INFO] [stdout] 136 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 RayShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_rayshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nRayShape inherits methods from:\n - [Shape](struct.Shape.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RayShape { this : RawObject < Self > , } impl RayShape { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RayShapeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The ray's length."] # [doc = ""] # [inline] pub fn length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . get_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, allow the shape to return the correct normal."] # [doc = ""] # [inline] pub fn slips_on_slope (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . get_slips_on_slope ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The ray's length."] # [doc = ""] # [inline] pub fn set_length (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . set_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "If `true`, allow the shape to return the correct normal."] # [doc = ""] # [inline] pub fn set_slips_on_slope (& self , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayShapeMethodTable :: get (get_api ()) . set_slips_on_slope ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , active) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RayShape { } unsafe impl GodotObject for RayShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "RayShape" } } impl std :: ops :: Deref for RayShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RayShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for RayShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for RayShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for RayShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for RayShape { } impl Instanciable for RayShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RayShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RayShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_length : * mut sys :: godot_method_bind , pub get_slips_on_slope : * mut sys :: godot_method_bind , pub set_length : * mut sys :: godot_method_bind , pub set_slips_on_slope : * mut sys :: godot_method_bind } impl RayShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RayShapeMethodTable = RayShapeMethodTable { class_constructor : None , get_length : 0 as * mut sys :: godot_method_bind , get_slips_on_slope : 0 as * mut sys :: godot_method_bind , set_length : 0 as * mut sys :: godot_method_bind , set_slips_on_slope : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RayShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RayShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_length = (gd_api . godot_method_bind_get_method) (class_name , "get_length\0" . as_ptr () as * const c_char) ; table . get_slips_on_slope = (gd_api . godot_method_bind_get_method) (class_name , "get_slips_on_slope\0" . as_ptr () as * const c_char) ; table . set_length = (gd_api . godot_method_bind_get_method) (class_name , "set_length\0" . as_ptr () as * const c_char) ; table . set_slips_on_slope = (gd_api . godot_method_bind_get_method) (class_name , "set_slips_on_slope\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:142:21553 [INFO] [stdout] | [INFO] [stdout] 142 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Curve3D` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_curve3d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nCurve3D 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 Curve3D { this : RawObject < Self > , } impl Curve3D { # [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 = Curve3DMethodTable :: 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` - `Vector3( 0, 0, 0 )`\n* `out` - `Vector3( 0, 0, 0 )`\n* `at_position` - `-1`"] # [doc = ""] # [inline] pub fn add_point (& self , position : Vector3 , _in : Vector3 , out : Vector3 , at_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . add_point ; let ret = crate :: icalls :: icallptr_void_vec3_vec3_vec3_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 = Curve3DMethodTable :: get (get_api ()) . clear_points ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The distance in meters 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 = Curve3DMethodTable :: 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 = Curve3DMethodTable :: 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 [PoolVector3Array]."] # [doc = ""] # [inline] pub fn get_baked_points (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_baked_points ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = "Returns the cache of tilts as a [PoolRealArray]."] # [doc = ""] # [inline] pub fn get_baked_tilts (& self) -> Float32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_baked_tilts ; let ret = crate :: icalls :: icallptr_f32arr (method_bind , self . this . sys () . as_ptr ()) ; Float32Array :: from_sys (ret) } } # [doc = "Returns the cache of up vectors as a [PoolVector3Array].\nIf [member up_vector_enabled] is `false`, the cache will be empty."] # [doc = ""] # [inline] pub fn get_baked_up_vectors (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_baked_up_vectors ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = "Returns the closest offset to `to_point`. This offset is meant to be used in [method interpolate_baked] or [method interpolate_baked_up_vector].\n`to_point` must be in this curve's local space."] # [doc = ""] # [inline] pub fn get_closest_offset (& self , to_point : Vector3) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_closest_offset ; let ret = crate :: icalls :: icallptr_f64_vec3 (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 : Vector3) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_closest_point ; let ret = crate :: icalls :: icallptr_vec3_vec3 (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 = Curve3DMethodTable :: 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, 0)`."] # [doc = ""] # [inline] pub fn get_point_in (& self , idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_point_in ; let ret = crate :: icalls :: icallptr_vec3_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, 0)`."] # [doc = ""] # [inline] pub fn get_point_out (& self , idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_point_out ; let ret = crate :: icalls :: icallptr_vec3_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, 0)`."] # [doc = ""] # [inline] pub fn get_point_position (& self , idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_point_position ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the tilt angle in radians for the point `idx`. If the index is out of bounds, the function sends an error to the console, and returns `0`."] # [doc = ""] # [inline] pub fn get_point_tilt (& self , idx : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . get_point_tilt ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [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, 0)`."] # [doc = ""] # [inline] pub fn interpolate (& self , idx : i64 , t : f64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . interpolate ; let ret = crate :: icalls :: icallptr_vec3_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) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . interpolate_baked ; let ret = crate :: icalls :: icallptr_vec3_f64_bool (method_bind , self . this . sys () . as_ptr () , offset , cubic) ; mem :: transmute (ret) } } # [doc = "Returns an up vector within the curve at position `offset`, where `offset` is measured as a distance in 3D units along the curve.\nTo do that, it finds the two cached up vectors where the `offset` lies between, then interpolates the values. If `apply_tilt` is `true`, an interpolated tilt is applied to the interpolated up vector.\nIf the curve has no up vectors, the function sends an error to the console, and returns `(0, 1, 0)`.\n# Default Arguments\n* `apply_tilt` - `false`"] # [doc = ""] # [inline] pub fn interpolate_baked_up_vector (& self , offset : f64 , apply_tilt : bool) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . interpolate_baked_up_vector ; let ret = crate :: icalls :: icallptr_vec3_f64_bool (method_bind , self . this . sys () . as_ptr () , offset , apply_tilt) ; 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) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . interpolatef ; let ret = crate :: icalls :: icallptr_vec3_f64 (method_bind , self . this . sys () . as_ptr () , fofs) ; mem :: transmute (ret) } } # [doc = "If `true`, the curve will bake up vectors used for orientation. This is used when [member PathFollow.rotation_mode] is set to [constant PathFollow.ROTATION_ORIENTED]. Changing it forces the cache to be recomputed."] # [doc = ""] # [inline] pub fn is_up_vector_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . is_up_vector_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [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 = Curve3DMethodTable :: get (get_api ()) . remove_point ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "The distance in meters 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 = Curve3DMethodTable :: 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 : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . set_point_in ; let ret = crate :: icalls :: icallptr_void_i64_vec3 (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 : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . set_point_out ; let ret = crate :: icalls :: icallptr_void_i64_vec3 (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 : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . set_point_position ; let ret = crate :: icalls :: icallptr_void_i64_vec3 (method_bind , self . this . sys () . as_ptr () , idx , position) ; } } # [doc = "Sets the tilt angle in radians for the point `idx`. If the index is out of bounds, the function sends an error to the console.\nThe tilt controls the rotation along the look-at axis an object traveling the path would have. In the case of a curve controlling a [PathFollow], this tilt is an offset over the natural tilt the [PathFollow] calculates."] # [doc = ""] # [inline] pub fn set_point_tilt (& self , idx : i64 , tilt : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . set_point_tilt ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , idx , tilt) ; } } # [doc = "If `true`, the curve will bake up vectors used for orientation. This is used when [member PathFollow.rotation_mode] is set to [constant PathFollow.ROTATION_ORIENTED]. Changing it forces the cache to be recomputed."] # [doc = ""] # [inline] pub fn set_up_vector_enabled (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . set_up_vector_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [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) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = Curve3DMethodTable :: get (get_api ()) . tessellate ; let ret = crate :: icalls :: icallptr_vec3arr_i64_f64 (method_bind , self . this . sys () . as_ptr () , max_stages , tolerance_degrees) ; Vector3Array :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for Curve3D { } unsafe impl GodotObject for Curve3D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Curve3D" } } impl std :: ops :: Deref for Curve3D { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Curve3D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Curve3D { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Curve3D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Curve3D { } impl Instanciable for Curve3D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Curve3D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Curve3DMethodTable { 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_baked_tilts : * mut sys :: godot_method_bind , pub get_baked_up_vectors : * 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 get_point_tilt : * mut sys :: godot_method_bind , pub interpolate : * mut sys :: godot_method_bind , pub interpolate_baked : * mut sys :: godot_method_bind , pub interpolate_baked_up_vector : * mut sys :: godot_method_bind , pub interpolatef : * mut sys :: godot_method_bind , pub is_up_vector_enabled : * 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 set_point_tilt : * mut sys :: godot_method_bind , pub set_up_vector_enabled : * mut sys :: godot_method_bind , pub tessellate : * mut sys :: godot_method_bind } impl Curve3DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Curve3DMethodTable = Curve3DMethodTable { 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_baked_tilts : 0 as * mut sys :: godot_method_bind , get_baked_up_vectors : 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 , get_point_tilt : 0 as * mut sys :: godot_method_bind , interpolate : 0 as * mut sys :: godot_method_bind , interpolate_baked : 0 as * mut sys :: godot_method_bind , interpolate_baked_up_vector : 0 as * mut sys :: godot_method_bind , interpolatef : 0 as * mut sys :: godot_method_bind , is_up_vector_enabled : 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 , set_point_tilt : 0 as * mut sys :: godot_method_bind , set_up_vector_enabled : 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 (|| { Curve3DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Curve3D\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_baked_tilts = (gd_api . godot_method_bind_get_method) (class_name , "get_baked_tilts\0" . as_ptr () as * const c_char) ; table . get_baked_up_vectors = (gd_api . godot_method_bind_get_method) (class_name , "get_baked_up_vectors\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 . get_point_tilt = (gd_api . godot_method_bind_get_method) (class_name , "get_point_tilt\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 . interpolate_baked_up_vector = (gd_api . godot_method_bind_get_method) (class_name , "interpolate_baked_up_vector\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 . is_up_vector_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_up_vector_enabled\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 . set_point_tilt = (gd_api . godot_method_bind_get_method) (class_name , "set_point_tilt\0" . as_ptr () as * const c_char) ; table . set_up_vector_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_up_vector_enabled\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-7a634cfa4295a760/out/generated.rs:148:27512 [INFO] [stdout] | [INFO] [stdout] 148 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 = "`tools class EditorPlugin` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_editorplugin.html) 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\nEditorPlugin inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = "\n## Tool\n\nThis class is used to interact with Godot's editor."] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct EditorPlugin { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CustomControlContainer (pub i64) ; impl CustomControlContainer { pub const TOOLBAR : CustomControlContainer = CustomControlContainer (0i64) ; pub const SPATIAL_EDITOR_MENU : CustomControlContainer = CustomControlContainer (1i64) ; pub const SPATIAL_EDITOR_SIDE_LEFT : CustomControlContainer = CustomControlContainer (2i64) ; pub const SPATIAL_EDITOR_SIDE_RIGHT : CustomControlContainer = CustomControlContainer (3i64) ; pub const SPATIAL_EDITOR_BOTTOM : CustomControlContainer = CustomControlContainer (4i64) ; pub const CANVAS_EDITOR_MENU : CustomControlContainer = CustomControlContainer (5i64) ; pub const CANVAS_EDITOR_SIDE_LEFT : CustomControlContainer = CustomControlContainer (6i64) ; pub const CANVAS_EDITOR_SIDE_RIGHT : CustomControlContainer = CustomControlContainer (7i64) ; pub const CANVAS_EDITOR_BOTTOM : CustomControlContainer = CustomControlContainer (8i64) ; pub const PROPERTY_EDITOR_BOTTOM : CustomControlContainer = CustomControlContainer (9i64) ; pub const PROJECT_SETTING_TAB_LEFT : CustomControlContainer = CustomControlContainer (10i64) ; pub const PROJECT_SETTING_TAB_RIGHT : CustomControlContainer = CustomControlContainer (11i64) ; } impl From < i64 > for CustomControlContainer { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CustomControlContainer > for i64 { # [inline] fn from (v : CustomControlContainer) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct DockSlot (pub i64) ; impl DockSlot { pub const LEFT_UL : DockSlot = DockSlot (0i64) ; pub const LEFT_BL : DockSlot = DockSlot (1i64) ; pub const LEFT_UR : DockSlot = DockSlot (2i64) ; pub const LEFT_BR : DockSlot = DockSlot (3i64) ; pub const RIGHT_UL : DockSlot = DockSlot (4i64) ; pub const RIGHT_BL : DockSlot = DockSlot (5i64) ; pub const RIGHT_UR : DockSlot = DockSlot (6i64) ; pub const RIGHT_BR : DockSlot = DockSlot (7i64) ; pub const MAX : DockSlot = DockSlot (8i64) ; } impl From < i64 > for DockSlot { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < DockSlot > for i64 { # [inline] fn from (v : DockSlot) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl EditorPlugin { pub const CONTAINER_CANVAS_EDITOR_BOTTOM : i64 = 8i64 ; pub const CONTAINER_CANVAS_EDITOR_MENU : i64 = 5i64 ; pub const CONTAINER_CANVAS_EDITOR_SIDE_LEFT : i64 = 6i64 ; pub const CONTAINER_CANVAS_EDITOR_SIDE_RIGHT : i64 = 7i64 ; pub const CONTAINER_PROJECT_SETTING_TAB_LEFT : i64 = 10i64 ; pub const CONTAINER_PROJECT_SETTING_TAB_RIGHT : i64 = 11i64 ; pub const CONTAINER_PROPERTY_EDITOR_BOTTOM : i64 = 9i64 ; pub const CONTAINER_SPATIAL_EDITOR_BOTTOM : i64 = 4i64 ; pub const CONTAINER_SPATIAL_EDITOR_MENU : i64 = 1i64 ; pub const CONTAINER_SPATIAL_EDITOR_SIDE_LEFT : i64 = 2i64 ; pub const CONTAINER_SPATIAL_EDITOR_SIDE_RIGHT : i64 = 3i64 ; pub const CONTAINER_TOOLBAR : i64 = 0i64 ; pub const DOCK_SLOT_LEFT_BL : i64 = 1i64 ; pub const DOCK_SLOT_LEFT_BR : i64 = 3i64 ; pub const DOCK_SLOT_LEFT_UL : i64 = 0i64 ; pub const DOCK_SLOT_LEFT_UR : i64 = 2i64 ; pub const DOCK_SLOT_MAX : i64 = 8i64 ; pub const DOCK_SLOT_RIGHT_BL : i64 = 5i64 ; pub const DOCK_SLOT_RIGHT_BR : i64 = 7i64 ; pub const DOCK_SLOT_RIGHT_UL : i64 = 4i64 ; pub const DOCK_SLOT_RIGHT_UR : i64 = 6i64 ; } impl EditorPlugin { # [doc = "Adds a script at `path` to the Autoload list as `name`."] # [doc = ""] # [inline] pub fn add_autoload_singleton (& self , name : impl Into < GodotString > , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_autoload_singleton ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , path . into ()) ; } } # [doc = "Adds a control to the bottom panel (together with Output, Debug, Animation, etc). Returns a reference to the button added. It's up to you to hide/show the button when needed. When your plugin is deactivated, make sure to remove your custom control with [method remove_control_from_bottom_panel] and free it with [method Node.queue_free]."] # [doc = ""] # [inline] pub fn add_control_to_bottom_panel (& self , control : impl AsArg < crate :: generated :: control :: Control > , title : impl Into < GodotString >) -> Option < Ref < crate :: generated :: tool_button :: ToolButton , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_control_to_bottom_panel ; let ret = crate :: icalls :: icallptr_obj_obj_str (method_bind , self . this . sys () . as_ptr () , control . as_arg_ptr () , title . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: tool_button :: ToolButton , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Adds a custom control to a container (see [enum CustomControlContainer]). There are many locations where custom controls can be added in the editor UI.\nPlease remember that you have to manage the visibility of your custom controls yourself (and likely hide it after adding it).\nWhen your plugin is deactivated, make sure to remove your custom control with [method remove_control_from_container] and free it with [method Node.queue_free]."] # [doc = ""] # [inline] pub fn add_control_to_container (& self , container : i64 , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_control_to_container ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , container , control . as_arg_ptr ()) ; } } # [doc = "Adds the control to a specific dock slot (see [enum DockSlot] for options).\nIf the dock is repositioned and as long as the plugin is active, the editor will save the dock position on further sessions.\nWhen your plugin is deactivated, make sure to remove your custom control with [method remove_control_from_docks] and free it with [method Node.queue_free]."] # [doc = ""] # [inline] pub fn add_control_to_dock (& self , slot : i64 , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_control_to_dock ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , slot , control . as_arg_ptr ()) ; } } # [doc = "Adds a custom type, which will appear in the list of nodes or resources. An icon can be optionally passed.\nWhen given node or resource is selected, the base type will be instanced (ie, \"Spatial\", \"Control\", \"Resource\"), then the script will be loaded and set to this object.\nYou can use the virtual method [method handles] to check if your custom object is being edited by checking the script or using the `is` keyword.\nDuring run-time, this will be a simple object with a script so this function does not need to be called then."] # [doc = ""] # [inline] pub fn add_custom_type (& self , _type : impl Into < GodotString > , base : impl Into < GodotString > , script : impl AsArg < crate :: generated :: script :: Script > , icon : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_custom_type ; let ret = crate :: icalls :: icallptr_void_str_str_obj_obj (method_bind , self . this . sys () . as_ptr () , _type . into () , base . into () , script . as_arg_ptr () , icon . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_export_plugin (& self , plugin : impl AsArg < crate :: generated :: editor_export_plugin :: EditorExportPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_export_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , plugin . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_import_plugin (& self , importer : impl AsArg < crate :: generated :: editor_import_plugin :: EditorImportPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_import_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , importer . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_inspector_plugin (& self , plugin : impl AsArg < crate :: generated :: editor_inspector_plugin :: EditorInspectorPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_inspector_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , plugin . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_scene_import_plugin (& self , scene_importer : impl AsArg < crate :: generated :: editor_scene_importer :: EditorSceneImporter >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_scene_import_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , scene_importer . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_spatial_gizmo_plugin (& self , plugin : impl AsArg < crate :: generated :: editor_spatial_gizmo_plugin :: EditorSpatialGizmoPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_spatial_gizmo_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , plugin . as_arg_ptr ()) ; } } # [doc = "Adds a custom menu item to **Project > Tools** as `name` that calls `callback` on an instance of `handler` with a parameter `ud` when user activates it.\n# Default Arguments\n* `ud` - `null`"] # [doc = ""] # [inline] pub fn add_tool_menu_item (& self , name : impl Into < GodotString > , handler : impl AsArg < crate :: generated :: object :: Object > , callback : impl Into < GodotString > , ud : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_tool_menu_item ; let ret = crate :: icalls :: icallptr_void_str_obj_str_var (method_bind , self . this . sys () . as_ptr () , name . into () , handler . as_arg_ptr () , callback . into () , ud . owned_to_variant ()) ; } } # [doc = "Adds a custom submenu under **Project > Tools >** `name`. `submenu` should be an object of class [PopupMenu]. This submenu should be cleaned up using `remove_tool_menu_item(name)`."] # [doc = ""] # [inline] pub fn add_tool_submenu_item (& self , name : impl Into < GodotString > , submenu : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . add_tool_submenu_item ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , name . into () , submenu . as_arg_ptr ()) ; } } # [doc = "Returns the [EditorInterface] object that gives you control over Godot editor's window and its functionalities."] # [doc = ""] # [inline] pub fn get_editor_interface (& self) -> Option < Ref < crate :: generated :: editor_interface :: EditorInterface , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . get_editor_interface ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: editor_interface :: EditorInterface , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Gets the Editor's dialogue used for making scripts.\n**Note:** Users can configure it before use."] # [doc = ""] # [inline] pub fn get_script_create_dialog (& self) -> Option < Ref < crate :: generated :: script_create_dialog :: ScriptCreateDialog , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . get_script_create_dialog ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: script_create_dialog :: ScriptCreateDialog , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Gets the undo/redo object. Most actions in the editor can be undoable, so use this object to make sure this happens when it's worth it."] # [doc = ""] # [inline] pub fn get_undo_redo (& self) -> Option < Ref < crate :: generated :: undo_redo :: UndoRedo , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . get_undo_redo ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: undo_redo :: UndoRedo , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn hide_bottom_panel (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . hide_bottom_panel ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn make_bottom_panel_item_visible (& self , item : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . make_bottom_panel_item_visible ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , item . as_arg_ptr ()) ; } } # [doc = "Queue save the project's editor layout."] # [doc = ""] # [inline] pub fn queue_save_layout (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . queue_save_layout ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes an Autoload `name` from the list."] # [doc = ""] # [inline] pub fn remove_autoload_singleton (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_autoload_singleton ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Removes the control from the bottom panel. You have to manually [method Node.queue_free] the control."] # [doc = ""] # [inline] pub fn remove_control_from_bottom_panel (& self , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_control_from_bottom_panel ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , control . as_arg_ptr ()) ; } } # [doc = "Removes the control from the specified container. You have to manually [method Node.queue_free] the control."] # [doc = ""] # [inline] pub fn remove_control_from_container (& self , container : i64 , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_control_from_container ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , container , control . as_arg_ptr ()) ; } } # [doc = "Removes the control from the dock. You have to manually [method Node.queue_free] the control."] # [doc = ""] # [inline] pub fn remove_control_from_docks (& self , control : impl AsArg < crate :: generated :: control :: Control >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_control_from_docks ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , control . as_arg_ptr ()) ; } } # [doc = "Removes a custom type added by [method add_custom_type]."] # [doc = ""] # [inline] pub fn remove_custom_type (& self , _type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_custom_type ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , _type . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_export_plugin (& self , plugin : impl AsArg < crate :: generated :: editor_export_plugin :: EditorExportPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_export_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , plugin . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_import_plugin (& self , importer : impl AsArg < crate :: generated :: editor_import_plugin :: EditorImportPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_import_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , importer . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_inspector_plugin (& self , plugin : impl AsArg < crate :: generated :: editor_inspector_plugin :: EditorInspectorPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_inspector_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , plugin . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_scene_import_plugin (& self , scene_importer : impl AsArg < crate :: generated :: editor_scene_importer :: EditorSceneImporter >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_scene_import_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , scene_importer . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_spatial_gizmo_plugin (& self , plugin : impl AsArg < crate :: generated :: editor_spatial_gizmo_plugin :: EditorSpatialGizmoPlugin >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_spatial_gizmo_plugin ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , plugin . as_arg_ptr ()) ; } } # [doc = "Removes a menu `name` from **Project > Tools**."] # [doc = ""] # [inline] pub fn remove_tool_menu_item (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . remove_tool_menu_item ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_force_draw_over_forwarding_enabled (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . set_force_draw_over_forwarding_enabled ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Use this method if you always want to receive inputs from 3D view screen inside [method forward_spatial_gui_input]. It might be especially usable if your plugin will want to use raycast in the scene."] # [doc = ""] # [inline] pub fn set_input_event_forwarding_always_enabled (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . set_input_event_forwarding_always_enabled ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Updates the overlays of the editor (2D/3D) viewport."] # [doc = ""] # [inline] pub fn update_overlays (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = EditorPluginMethodTable :: get (get_api ()) . update_overlays ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for EditorPlugin { } unsafe impl GodotObject for EditorPlugin { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "EditorPlugin" } } impl QueueFree for EditorPlugin { # [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 EditorPlugin { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for EditorPlugin { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for EditorPlugin { } unsafe impl SubClass < crate :: generated :: object :: Object > for EditorPlugin { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct EditorPluginMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_autoload_singleton : * mut sys :: godot_method_bind , pub add_control_to_bottom_panel : * mut sys :: godot_method_bind , pub add_control_to_container : * mut sys :: godot_method_bind , pub add_control_to_dock : * mut sys :: godot_method_bind , pub add_custom_type : * mut sys :: godot_method_bind , pub add_export_plugin : * mut sys :: godot_method_bind , pub add_import_plugin : * mut sys :: godot_method_bind , pub add_inspector_plugin : * mut sys :: godot_method_bind , pub add_scene_import_plugin : * mut sys :: godot_method_bind , pub add_spatial_gizmo_plugin : * mut sys :: godot_method_bind , pub add_tool_menu_item : * mut sys :: godot_method_bind , pub add_tool_submenu_item : * mut sys :: godot_method_bind , pub get_editor_interface : * mut sys :: godot_method_bind , pub get_script_create_dialog : * mut sys :: godot_method_bind , pub get_undo_redo : * mut sys :: godot_method_bind , pub hide_bottom_panel : * mut sys :: godot_method_bind , pub make_bottom_panel_item_visible : * mut sys :: godot_method_bind , pub queue_save_layout : * mut sys :: godot_method_bind , pub remove_autoload_singleton : * mut sys :: godot_method_bind , pub remove_control_from_bottom_panel : * mut sys :: godot_method_bind , pub remove_control_from_container : * mut sys :: godot_method_bind , pub remove_control_from_docks : * mut sys :: godot_method_bind , pub remove_custom_type : * mut sys :: godot_method_bind , pub remove_export_plugin : * mut sys :: godot_method_bind , pub remove_import_plugin : * mut sys :: godot_method_bind , pub remove_inspector_plugin : * mut sys :: godot_method_bind , pub remove_scene_import_plugin : * mut sys :: godot_method_bind , pub remove_spatial_gizmo_plugin : * mut sys :: godot_method_bind , pub remove_tool_menu_item : * mut sys :: godot_method_bind , pub set_force_draw_over_forwarding_enabled : * mut sys :: godot_method_bind , pub set_input_event_forwarding_always_enabled : * mut sys :: godot_method_bind , pub update_overlays : * mut sys :: godot_method_bind } impl EditorPluginMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : EditorPluginMethodTable = EditorPluginMethodTable { class_constructor : None , add_autoload_singleton : 0 as * mut sys :: godot_method_bind , add_control_to_bottom_panel : 0 as * mut sys :: godot_method_bind , add_control_to_container : 0 as * mut sys :: godot_method_bind , add_control_to_dock : 0 as * mut sys :: godot_method_bind , add_custom_type : 0 as * mut sys :: godot_method_bind , add_export_plugin : 0 as * mut sys :: godot_method_bind , add_import_plugin : 0 as * mut sys :: godot_method_bind , add_inspector_plugin : 0 as * mut sys :: godot_method_bind , add_scene_import_plugin : 0 as * mut sys :: godot_method_bind , add_spatial_gizmo_plugin : 0 as * mut sys :: godot_method_bind , add_tool_menu_item : 0 as * mut sys :: godot_method_bind , add_tool_submenu_item : 0 as * mut sys :: godot_method_bind , get_editor_interface : 0 as * mut sys :: godot_method_bind , get_script_create_dialog : 0 as * mut sys :: godot_method_bind , get_undo_redo : 0 as * mut sys :: godot_method_bind , hide_bottom_panel : 0 as * mut sys :: godot_method_bind , make_bottom_panel_item_visible : 0 as * mut sys :: godot_method_bind , queue_save_layout : 0 as * mut sys :: godot_method_bind , remove_autoload_singleton : 0 as * mut sys :: godot_method_bind , remove_control_from_bottom_panel : 0 as * mut sys :: godot_method_bind , remove_control_from_container : 0 as * mut sys :: godot_method_bind , remove_control_from_docks : 0 as * mut sys :: godot_method_bind , remove_custom_type : 0 as * mut sys :: godot_method_bind , remove_export_plugin : 0 as * mut sys :: godot_method_bind , remove_import_plugin : 0 as * mut sys :: godot_method_bind , remove_inspector_plugin : 0 as * mut sys :: godot_method_bind , remove_scene_import_plugin : 0 as * mut sys :: godot_method_bind , remove_spatial_gizmo_plugin : 0 as * mut sys :: godot_method_bind , remove_tool_menu_item : 0 as * mut sys :: godot_method_bind , set_force_draw_over_forwarding_enabled : 0 as * mut sys :: godot_method_bind , set_input_event_forwarding_always_enabled : 0 as * mut sys :: godot_method_bind , update_overlays : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { EditorPluginMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "EditorPlugin\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_autoload_singleton = (gd_api . godot_method_bind_get_method) (class_name , "add_autoload_singleton\0" . as_ptr () as * const c_char) ; table . add_control_to_bottom_panel = (gd_api . godot_method_bind_get_method) (class_name , "add_control_to_bottom_panel\0" . as_ptr () as * const c_char) ; table . add_control_to_container = (gd_api . godot_method_bind_get_method) (class_name , "add_control_to_container\0" . as_ptr () as * const c_char) ; table . add_control_to_dock = (gd_api . godot_method_bind_get_method) (class_name , "add_control_to_dock\0" . as_ptr () as * const c_char) ; table . add_custom_type = (gd_api . godot_method_bind_get_method) (class_name , "add_custom_type\0" . as_ptr () as * const c_char) ; table . add_export_plugin = (gd_api . godot_method_bind_get_method) (class_name , "add_export_plugin\0" . as_ptr () as * const c_char) ; table . add_import_plugin = (gd_api . godot_method_bind_get_method) (class_name , "add_import_plugin\0" . as_ptr () as * const c_char) ; table . add_inspector_plugin = (gd_api . godot_method_bind_get_method) (class_name , "add_inspector_plugin\0" . as_ptr () as * const c_char) ; table . add_scene_import_plugin = (gd_api . godot_method_bind_get_method) (class_name , "add_scene_import_plugin\0" . as_ptr () as * const c_char) ; table . add_spatial_gizmo_plugin = (gd_api . godot_method_bind_get_method) (class_name , "add_spatial_gizmo_plugin\0" . as_ptr () as * const c_char) ; table . add_tool_menu_item = (gd_api . godot_method_bind_get_method) (class_name , "add_tool_menu_item\0" . as_ptr () as * const c_char) ; table . add_tool_submenu_item = (gd_api . godot_method_bind_get_method) (class_name , "add_tool_submenu_item\0" . as_ptr () as * const c_char) ; table . get_editor_interface = (gd_api . godot_method_bind_get_method) (class_name , "get_editor_interface\0" . as_ptr () as * const c_char) ; table . get_script_create_dialog = (gd_api . godot_method_bind_get_method) (class_name , "get_script_create_dialog\0" . as_ptr () as * const c_char) ; table . get_undo_redo = (gd_api . godot_method_bind_get_method) (class_name , "get_undo_redo\0" . as_ptr () as * const c_char) ; table . hide_bottom_panel = (gd_api . godot_method_bind_get_method) (class_name , "hide_bottom_panel\0" . as_ptr () as * const c_char) ; table . make_bottom_panel_item_visible = (gd_api . godot_method_bind_get_method) (class_name , "make_bottom_panel_item_visible\0" . as_ptr () as * const c_char) ; table . queue_save_layout = (gd_api . godot_method_bind_get_method) (class_name , "queue_save_layout\0" . as_ptr () as * const c_char) ; table . remove_autoload_singleton = (gd_api . godot_method_bind_get_method) (class_name , "remove_autoload_singleton\0" . as_ptr () as * const c_char) ; table . remove_control_from_bottom_panel = (gd_api . godot_method_bind_get_method) (class_name , "remove_control_from_bottom_panel\0" . as_ptr () as * const c_char) ; table . remove_control_from_container = (gd_api . godot_method_bind_get_method) (class_name , "remove_control_from_container\0" . as_ptr () as * const c_char) ; table . remove_control_from_docks = (gd_api . godot_method_bind_get_method) (class_name , "remove_control_from_docks\0" . as_ptr () as * const c_char) ; table . remove_custom_type = (gd_api . godot_method_bind_get_method) (class_name , "remove_custom_type\0" . as_ptr () as * const c_char) ; table . remove_export_plugin = (gd_api . godot_method_bind_get_method) (class_name , "remove_export_plugin\0" . as_ptr () as * const c_char) ; table . remove_import_plugin = (gd_api . godot_method_bind_get_method) (class_name , "remove_import_plugin\0" . as_ptr () as * const c_char) ; table . remove_inspector_plugin = (gd_api . godot_method_bind_get_method) (class_name , "remove_inspector_plugin\0" . as_ptr () as * const c_char) ; table . remove_scene_import_plugin = (gd_api . godot_method_bind_get_method) (class_name , "remove_scene_import_plugin\0" . as_ptr () as * const c_char) ; table . remove_spatial_gizmo_plugin = (gd_api . godot_method_bind_get_method) (class_name , "remove_spatial_gizmo_plugin\0" . as_ptr () as * const c_char) ; table . remove_tool_menu_item = (gd_api . godot_method_bind_get_method) (class_name , "remove_tool_menu_item\0" . as_ptr () as * const c_char) ; table . set_force_draw_over_forwarding_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_force_draw_over_forwarding_enabled\0" . as_ptr () as * const c_char) ; table . set_input_event_forwarding_always_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_input_event_forwarding_always_enabled\0" . as_ptr () as * const c_char) ; table . update_overlays = (gd_api . godot_method_bind_get_method) (class_name , "update_overlays\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:160:18262 [INFO] [stdout] | [INFO] [stdout] 160 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 160 | # [doc = "`core class RayCast2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_raycast2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RayCast2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRayCast2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RayCast2D { this : RawObject < Self > , } impl RayCast2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RayCast2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a collision exception so the ray does not report collisions with the specified node."] # [doc = ""] # [inline] pub fn add_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . add_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Adds a collision exception so the ray does not report collisions with the specified [RID]."] # [doc = ""] # [inline] pub fn add_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . add_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "Removes all collision exceptions for this ray."] # [doc = ""] # [inline] pub fn clear_exceptions (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . clear_exceptions ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Updates the collision information for the ray. Use this method to update the collision information immediately instead of waiting for the next `_physics_process` call, for example if the ray or its parent has changed state.\n**Note:** `enabled` is not required for this to work."] # [doc = ""] # [inline] pub fn force_raycast_update (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . force_raycast_update ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The ray's destination point, relative to the RayCast's `position`."] # [doc = ""] # [inline] pub fn cast_to (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_cast_to ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the first object that the ray intersects, or `null` if no object is intersecting the ray (i.e. [method is_colliding] returns `false`)."] # [doc = ""] # [inline] pub fn get_collider (& self) -> Option < Ref < crate :: generated :: object :: Object , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collider ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: object :: Object , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the shape ID of the first object that the ray intersects, or `0` if no object is intersecting the ray (i.e. [method is_colliding] returns `false`)."] # [doc = ""] # [inline] pub fn get_collider_shape (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collider_shape ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The ray's collision mask. Only objects in at least one collision layer enabled in the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an individual bit on the collision mask."] # [doc = ""] # [inline] pub fn get_collision_mask_bit (& self , bit : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_mask_bit ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , bit) ; ret as _ } } # [doc = "Returns the normal of the intersecting object's shape at the collision point."] # [doc = ""] # [inline] pub fn get_collision_normal (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_normal ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the collision point at which the ray intersects the closest object.\n**Note:** this point is in the **global** coordinate system."] # [doc = ""] # [inline] pub fn get_collision_point (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_collision_point ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, the parent node will be excluded from collision detection."] # [doc = ""] # [inline] pub fn exclude_parent_body (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . get_exclude_parent_body ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision with [Area2D]s will be reported."] # [doc = ""] # [inline] pub fn is_collide_with_areas_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_collide_with_areas_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision with [PhysicsBody2D]s will be reported."] # [doc = ""] # [inline] pub fn is_collide_with_bodies_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_collide_with_bodies_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns whether any object is intersecting with the ray's vector (considering the vector length)."] # [doc = ""] # [inline] pub fn is_colliding (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_colliding ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collisions will be reported."] # [doc = ""] # [inline] pub fn is_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . is_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Removes a collision exception so the ray does report collisions with the specified node."] # [doc = ""] # [inline] pub fn remove_exception (& self , node : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . remove_exception ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Removes a collision exception so the ray does report collisions with the specified [RID]."] # [doc = ""] # [inline] pub fn remove_exception_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . remove_exception_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "The ray's destination point, relative to the RayCast's `position`."] # [doc = ""] # [inline] pub fn set_cast_to (& self , local_point : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_cast_to ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , local_point) ; } } # [doc = "If `true`, collision with [Area2D]s will be reported."] # [doc = ""] # [inline] pub fn set_collide_with_areas (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collide_with_areas ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, collision with [PhysicsBody2D]s will be reported."] # [doc = ""] # [inline] pub fn set_collide_with_bodies (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collide_with_bodies ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The ray's collision mask. Only objects in at least one collision layer enabled in the mask will be detected. See [url=https://docs.godotengine.org/en/latest/tutorials/physics/physics_introduction.html#collision-layers-and-masks]Collision layers and masks[/url] in the documentation for more information."] # [doc = ""] # [inline] pub fn set_collision_mask (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collision_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mask) ; } } # [doc = "Sets or clears individual bits on the collision mask. This makes selecting the areas scanned easier."] # [doc = ""] # [inline] pub fn set_collision_mask_bit (& self , bit : i64 , value : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_collision_mask_bit ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , bit , value) ; } } # [doc = "If `true`, collisions will be reported."] # [doc = ""] # [inline] pub fn set_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the parent node will be excluded from collision detection."] # [doc = ""] # [inline] pub fn set_exclude_parent_body (& self , mask : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RayCast2DMethodTable :: get (get_api ()) . set_exclude_parent_body ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , mask) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RayCast2D { } unsafe impl GodotObject for RayCast2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RayCast2D" } } impl QueueFree for RayCast2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RayCast2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RayCast2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for RayCast2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for RayCast2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for RayCast2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for RayCast2D { } impl Instanciable for RayCast2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RayCast2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RayCast2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_exception : * mut sys :: godot_method_bind , pub add_exception_rid : * mut sys :: godot_method_bind , pub clear_exceptions : * mut sys :: godot_method_bind , pub force_raycast_update : * mut sys :: godot_method_bind , pub get_cast_to : * mut sys :: godot_method_bind , pub get_collider : * mut sys :: godot_method_bind , pub get_collider_shape : * mut sys :: godot_method_bind , pub get_collision_mask : * mut sys :: godot_method_bind , pub get_collision_mask_bit : * mut sys :: godot_method_bind , pub get_collision_normal : * mut sys :: godot_method_bind , pub get_collision_point : * mut sys :: godot_method_bind , pub get_exclude_parent_body : * mut sys :: godot_method_bind , pub is_collide_with_areas_enabled : * mut sys :: godot_method_bind , pub is_collide_with_bodies_enabled : * mut sys :: godot_method_bind , pub is_colliding : * mut sys :: godot_method_bind , pub is_enabled : * mut sys :: godot_method_bind , pub remove_exception : * mut sys :: godot_method_bind , pub remove_exception_rid : * mut sys :: godot_method_bind , pub set_cast_to : * mut sys :: godot_method_bind , pub set_collide_with_areas : * mut sys :: godot_method_bind , pub set_collide_with_bodies : * mut sys :: godot_method_bind , pub set_collision_mask : * mut sys :: godot_method_bind , pub set_collision_mask_bit : * mut sys :: godot_method_bind , pub set_enabled : * mut sys :: godot_method_bind , pub set_exclude_parent_body : * mut sys :: godot_method_bind } impl RayCast2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RayCast2DMethodTable = RayCast2DMethodTable { class_constructor : None , add_exception : 0 as * mut sys :: godot_method_bind , add_exception_rid : 0 as * mut sys :: godot_method_bind , clear_exceptions : 0 as * mut sys :: godot_method_bind , force_raycast_update : 0 as * mut sys :: godot_method_bind , get_cast_to : 0 as * mut sys :: godot_method_bind , get_collider : 0 as * mut sys :: godot_method_bind , get_collider_shape : 0 as * mut sys :: godot_method_bind , get_collision_mask : 0 as * mut sys :: godot_method_bind , get_collision_mask_bit : 0 as * mut sys :: godot_method_bind , get_collision_normal : 0 as * mut sys :: godot_method_bind , get_collision_point : 0 as * mut sys :: godot_method_bind , get_exclude_parent_body : 0 as * mut sys :: godot_method_bind , is_collide_with_areas_enabled : 0 as * mut sys :: godot_method_bind , is_collide_with_bodies_enabled : 0 as * mut sys :: godot_method_bind , is_colliding : 0 as * mut sys :: godot_method_bind , is_enabled : 0 as * mut sys :: godot_method_bind , remove_exception : 0 as * mut sys :: godot_method_bind , remove_exception_rid : 0 as * mut sys :: godot_method_bind , set_cast_to : 0 as * mut sys :: godot_method_bind , set_collide_with_areas : 0 as * mut sys :: godot_method_bind , set_collide_with_bodies : 0 as * mut sys :: godot_method_bind , set_collision_mask : 0 as * mut sys :: godot_method_bind , set_collision_mask_bit : 0 as * mut sys :: godot_method_bind , set_enabled : 0 as * mut sys :: godot_method_bind , set_exclude_parent_body : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RayCast2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RayCast2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_exception = (gd_api . godot_method_bind_get_method) (class_name , "add_exception\0" . as_ptr () as * const c_char) ; table . add_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "add_exception_rid\0" . as_ptr () as * const c_char) ; table . clear_exceptions = (gd_api . godot_method_bind_get_method) (class_name , "clear_exceptions\0" . as_ptr () as * const c_char) ; table . force_raycast_update = (gd_api . godot_method_bind_get_method) (class_name , "force_raycast_update\0" . as_ptr () as * const c_char) ; table . get_cast_to = (gd_api . godot_method_bind_get_method) (class_name , "get_cast_to\0" . as_ptr () as * const c_char) ; table . get_collider = (gd_api . godot_method_bind_get_method) (class_name , "get_collider\0" . as_ptr () as * const c_char) ; table . get_collider_shape = (gd_api . godot_method_bind_get_method) (class_name , "get_collider_shape\0" . as_ptr () as * const c_char) ; table . get_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask\0" . as_ptr () as * const c_char) ; table . get_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . get_collision_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_normal\0" . as_ptr () as * const c_char) ; table . get_collision_point = (gd_api . godot_method_bind_get_method) (class_name , "get_collision_point\0" . as_ptr () as * const c_char) ; table . get_exclude_parent_body = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude_parent_body\0" . as_ptr () as * const c_char) ; table . is_collide_with_areas_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_areas_enabled\0" . as_ptr () as * const c_char) ; table . is_collide_with_bodies_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_collide_with_bodies_enabled\0" . as_ptr () as * const c_char) ; table . is_colliding = (gd_api . godot_method_bind_get_method) (class_name , "is_colliding\0" . as_ptr () as * const c_char) ; table . is_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_enabled\0" . as_ptr () as * const c_char) ; table . remove_exception = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception\0" . as_ptr () as * const c_char) ; table . remove_exception_rid = (gd_api . godot_method_bind_get_method) (class_name , "remove_exception_rid\0" . as_ptr () as * const c_char) ; table . set_cast_to = (gd_api . godot_method_bind_get_method) (class_name , "set_cast_to\0" . as_ptr () as * const c_char) ; table . set_collide_with_areas = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_areas\0" . as_ptr () as * const c_char) ; table . set_collide_with_bodies = (gd_api . godot_method_bind_get_method) (class_name , "set_collide_with_bodies\0" . as_ptr () as * const c_char) ; table . set_collision_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask\0" . as_ptr () as * const c_char) ; table . set_collision_mask_bit = (gd_api . godot_method_bind_get_method) (class_name , "set_collision_mask_bit\0" . as_ptr () as * const c_char) ; table . set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_enabled\0" . as_ptr () as * const c_char) ; table . set_exclude_parent_body = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude_parent_body\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:166:3568 [INFO] [stdout] | [INFO] [stdout] 166 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:172:11978 [INFO] [stdout] | [INFO] [stdout] 172 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:178:23272 [INFO] [stdout] | [INFO] [stdout] 178 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 MeshDataTool` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_meshdatatool.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nMeshDataTool 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 MeshDataTool { this : RawObject < Self > , } impl MeshDataTool { # [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 = MeshDataToolMethodTable :: 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 data currently in MeshDataTool."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Adds a new surface to specified [Mesh] with edited data."] # [doc = ""] # [inline] pub fn commit_to_surface (& self , mesh : impl AsArg < crate :: generated :: array_mesh :: ArrayMesh >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . commit_to_surface ; let ret = crate :: icalls :: icallptr_i64_obj (method_bind , self . this . sys () . as_ptr () , mesh . as_arg_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Uses specified surface of given [Mesh] to populate data for MeshDataTool.\nRequires [Mesh] with primitive type [constant Mesh.PRIMITIVE_TRIANGLES]."] # [doc = ""] # [inline] pub fn create_from_surface (& self , mesh : impl AsArg < crate :: generated :: array_mesh :: ArrayMesh > , surface : i64) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . create_from_surface ; let ret = crate :: icalls :: icallptr_i64_obj_i64 (method_bind , self . this . sys () . as_ptr () , mesh . as_arg_ptr () , surface) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Returns the number of edges in this [Mesh]."] # [doc = ""] # [inline] pub fn get_edge_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_edge_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns array of faces that touch given edge."] # [doc = ""] # [inline] pub fn get_edge_faces (& self , idx : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_edge_faces ; let ret = crate :: icalls :: icallptr_i32arr_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Int32Array :: from_sys (ret) } } # [doc = "Returns meta information assigned to given edge."] # [doc = ""] # [inline] pub fn get_edge_meta (& self , idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_edge_meta ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Variant :: from_sys (ret) } } # [doc = "Returns index of specified vertex connected to given edge.\nVertex argument can only be 0 or 1 because edges are comprised of two vertices."] # [doc = ""] # [inline] pub fn get_edge_vertex (& self , idx : i64 , vertex : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_edge_vertex ; let ret = crate :: icalls :: icallptr_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , vertex) ; ret as _ } } # [doc = "Returns the number of faces in this [Mesh]."] # [doc = ""] # [inline] pub fn get_face_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_face_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns specified edge associated with given face.\nEdge argument must 2 or less because a face only has three edges."] # [doc = ""] # [inline] pub fn get_face_edge (& self , idx : i64 , edge : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_face_edge ; let ret = crate :: icalls :: icallptr_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , edge) ; ret as _ } } # [doc = "Returns the metadata associated with the given face."] # [doc = ""] # [inline] pub fn get_face_meta (& self , idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_face_meta ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Variant :: from_sys (ret) } } # [doc = "Calculates and returns the face normal of the given face."] # [doc = ""] # [inline] pub fn get_face_normal (& self , idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_face_normal ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the specified vertex of the given face.\nVertex argument must be 2 or less because faces contain three vertices."] # [doc = ""] # [inline] pub fn get_face_vertex (& self , idx : i64 , vertex : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_face_vertex ; let ret = crate :: icalls :: icallptr_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , vertex) ; ret as _ } } # [doc = "Returns the [Mesh]'s format. Format is an integer made up of [Mesh] format flags combined together. For example, a mesh containing both vertices and normals would return a format of `3` because [constant ArrayMesh.ARRAY_FORMAT_VERTEX] is `1` and [constant ArrayMesh.ARRAY_FORMAT_NORMAL] is `2`.\nSee [enum ArrayMesh.ArrayFormat] for a list of format flags."] # [doc = ""] # [inline] pub fn get_format (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_format ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the material assigned to the [Mesh]."] # [doc = ""] # [inline] pub fn get_material (& self) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: 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 = "Returns the vertex at given index."] # [doc = ""] # [inline] pub fn get_vertex (& self , idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the bones of the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_bones (& self , idx : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_bones ; let ret = crate :: icalls :: icallptr_i32arr_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the color of the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_color (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_color ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the total number of vertices in [Mesh]."] # [doc = ""] # [inline] pub fn get_vertex_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an array of edges that share the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_edges (& self , idx : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_edges ; let ret = crate :: icalls :: icallptr_i32arr_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Int32Array :: from_sys (ret) } } # [doc = "Returns an array of faces that share the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_faces (& self , idx : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_faces ; let ret = crate :: icalls :: icallptr_i32arr_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the metadata associated with the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_meta (& self , idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_meta ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Variant :: from_sys (ret) } } # [doc = "Returns the normal of the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_normal (& self , idx : i64) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_normal ; let ret = crate :: icalls :: icallptr_vec3_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the tangent of the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_tangent (& self , idx : i64) -> Plane { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_tangent ; let ret = crate :: icalls :: icallptr_plane_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the UV of the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_uv (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_uv ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the UV2 of the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_uv2 (& self , idx : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_uv2 ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns bone weights of the given vertex."] # [doc = ""] # [inline] pub fn get_vertex_weights (& self , idx : i64) -> Float32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . get_vertex_weights ; let ret = crate :: icalls :: icallptr_f32arr_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Float32Array :: from_sys (ret) } } # [doc = "Sets the metadata of the given edge."] # [doc = ""] # [inline] pub fn set_edge_meta (& self , idx : i64 , meta : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_edge_meta ; let ret = crate :: icalls :: icallptr_void_i64_var (method_bind , self . this . sys () . as_ptr () , idx , meta . owned_to_variant ()) ; } } # [doc = "Sets the metadata of the given face."] # [doc = ""] # [inline] pub fn set_face_meta (& self , idx : i64 , meta : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_face_meta ; let ret = crate :: icalls :: icallptr_void_i64_var (method_bind , self . this . sys () . as_ptr () , idx , meta . owned_to_variant ()) ; } } # [doc = "Sets the material to be used by newly-constructed [Mesh]."] # [doc = ""] # [inline] pub fn set_material (& self , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_material ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , material . as_arg_ptr ()) ; } } # [doc = "Sets the position of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex (& self , idx : i64 , vertex : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex ; let ret = crate :: icalls :: icallptr_void_i64_vec3 (method_bind , self . this . sys () . as_ptr () , idx , vertex) ; } } # [doc = "Sets the bones of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_bones (& self , idx : i64 , bones : Int32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_bones ; let ret = crate :: icalls :: icallptr_void_i64_i32arr (method_bind , self . this . sys () . as_ptr () , idx , bones) ; } } # [doc = "Sets the color of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_color (& self , idx : i64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_color ; let ret = crate :: icalls :: icallptr_void_i64_color (method_bind , self . this . sys () . as_ptr () , idx , color) ; } } # [doc = "Sets the metadata associated with the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_meta (& self , idx : i64 , meta : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_meta ; let ret = crate :: icalls :: icallptr_void_i64_var (method_bind , self . this . sys () . as_ptr () , idx , meta . owned_to_variant ()) ; } } # [doc = "Sets the normal of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_normal (& self , idx : i64 , normal : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_normal ; let ret = crate :: icalls :: icallptr_void_i64_vec3 (method_bind , self . this . sys () . as_ptr () , idx , normal) ; } } # [doc = "Sets the tangent of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_tangent (& self , idx : i64 , tangent : Plane) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_tangent ; let ret = crate :: icalls :: icallptr_void_i64_plane (method_bind , self . this . sys () . as_ptr () , idx , tangent) ; } } # [doc = "Sets the UV of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_uv (& self , idx : i64 , uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_uv ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , idx , uv) ; } } # [doc = "Sets the UV2 of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_uv2 (& self , idx : i64 , uv2 : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_uv2 ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , idx , uv2) ; } } # [doc = "Sets the bone weights of the given vertex."] # [doc = ""] # [inline] pub fn set_vertex_weights (& self , idx : i64 , weights : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshDataToolMethodTable :: get (get_api ()) . set_vertex_weights ; let ret = crate :: icalls :: icallptr_void_i64_f32arr (method_bind , self . this . sys () . as_ptr () , idx , weights) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for MeshDataTool { } unsafe impl GodotObject for MeshDataTool { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "MeshDataTool" } } impl std :: ops :: Deref for MeshDataTool { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for MeshDataTool { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for MeshDataTool { } unsafe impl SubClass < crate :: generated :: object :: Object > for MeshDataTool { } impl Instanciable for MeshDataTool { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MeshDataTool :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MeshDataToolMethodTable { pub class_constructor : sys :: godot_class_constructor , pub clear : * mut sys :: godot_method_bind , pub commit_to_surface : * mut sys :: godot_method_bind , pub create_from_surface : * mut sys :: godot_method_bind , pub get_edge_count : * mut sys :: godot_method_bind , pub get_edge_faces : * mut sys :: godot_method_bind , pub get_edge_meta : * mut sys :: godot_method_bind , pub get_edge_vertex : * mut sys :: godot_method_bind , pub get_face_count : * mut sys :: godot_method_bind , pub get_face_edge : * mut sys :: godot_method_bind , pub get_face_meta : * mut sys :: godot_method_bind , pub get_face_normal : * mut sys :: godot_method_bind , pub get_face_vertex : * mut sys :: godot_method_bind , pub get_format : * mut sys :: godot_method_bind , pub get_material : * mut sys :: godot_method_bind , pub get_vertex : * mut sys :: godot_method_bind , pub get_vertex_bones : * mut sys :: godot_method_bind , pub get_vertex_color : * mut sys :: godot_method_bind , pub get_vertex_count : * mut sys :: godot_method_bind , pub get_vertex_edges : * mut sys :: godot_method_bind , pub get_vertex_faces : * mut sys :: godot_method_bind , pub get_vertex_meta : * mut sys :: godot_method_bind , pub get_vertex_normal : * mut sys :: godot_method_bind , pub get_vertex_tangent : * mut sys :: godot_method_bind , pub get_vertex_uv : * mut sys :: godot_method_bind , pub get_vertex_uv2 : * mut sys :: godot_method_bind , pub get_vertex_weights : * mut sys :: godot_method_bind , pub set_edge_meta : * mut sys :: godot_method_bind , pub set_face_meta : * mut sys :: godot_method_bind , pub set_material : * mut sys :: godot_method_bind , pub set_vertex : * mut sys :: godot_method_bind , pub set_vertex_bones : * mut sys :: godot_method_bind , pub set_vertex_color : * mut sys :: godot_method_bind , pub set_vertex_meta : * mut sys :: godot_method_bind , pub set_vertex_normal : * mut sys :: godot_method_bind , pub set_vertex_tangent : * mut sys :: godot_method_bind , pub set_vertex_uv : * mut sys :: godot_method_bind , pub set_vertex_uv2 : * mut sys :: godot_method_bind , pub set_vertex_weights : * mut sys :: godot_method_bind } impl MeshDataToolMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MeshDataToolMethodTable = MeshDataToolMethodTable { class_constructor : None , clear : 0 as * mut sys :: godot_method_bind , commit_to_surface : 0 as * mut sys :: godot_method_bind , create_from_surface : 0 as * mut sys :: godot_method_bind , get_edge_count : 0 as * mut sys :: godot_method_bind , get_edge_faces : 0 as * mut sys :: godot_method_bind , get_edge_meta : 0 as * mut sys :: godot_method_bind , get_edge_vertex : 0 as * mut sys :: godot_method_bind , get_face_count : 0 as * mut sys :: godot_method_bind , get_face_edge : 0 as * mut sys :: godot_method_bind , get_face_meta : 0 as * mut sys :: godot_method_bind , get_face_normal : 0 as * mut sys :: godot_method_bind , get_face_vertex : 0 as * mut sys :: godot_method_bind , get_format : 0 as * mut sys :: godot_method_bind , get_material : 0 as * mut sys :: godot_method_bind , get_vertex : 0 as * mut sys :: godot_method_bind , get_vertex_bones : 0 as * mut sys :: godot_method_bind , get_vertex_color : 0 as * mut sys :: godot_method_bind , get_vertex_count : 0 as * mut sys :: godot_method_bind , get_vertex_edges : 0 as * mut sys :: godot_method_bind , get_vertex_faces : 0 as * mut sys :: godot_method_bind , get_vertex_meta : 0 as * mut sys :: godot_method_bind , get_vertex_normal : 0 as * mut sys :: godot_method_bind , get_vertex_tangent : 0 as * mut sys :: godot_method_bind , get_vertex_uv : 0 as * mut sys :: godot_method_bind , get_vertex_uv2 : 0 as * mut sys :: godot_method_bind , get_vertex_weights : 0 as * mut sys :: godot_method_bind , set_edge_meta : 0 as * mut sys :: godot_method_bind , set_face_meta : 0 as * mut sys :: godot_method_bind , set_material : 0 as * mut sys :: godot_method_bind , set_vertex : 0 as * mut sys :: godot_method_bind , set_vertex_bones : 0 as * mut sys :: godot_method_bind , set_vertex_color : 0 as * mut sys :: godot_method_bind , set_vertex_meta : 0 as * mut sys :: godot_method_bind , set_vertex_normal : 0 as * mut sys :: godot_method_bind , set_vertex_tangent : 0 as * mut sys :: godot_method_bind , set_vertex_uv : 0 as * mut sys :: godot_method_bind , set_vertex_uv2 : 0 as * mut sys :: godot_method_bind , set_vertex_weights : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { MeshDataToolMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MeshDataTool\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 . commit_to_surface = (gd_api . godot_method_bind_get_method) (class_name , "commit_to_surface\0" . as_ptr () as * const c_char) ; table . create_from_surface = (gd_api . godot_method_bind_get_method) (class_name , "create_from_surface\0" . as_ptr () as * const c_char) ; table . get_edge_count = (gd_api . godot_method_bind_get_method) (class_name , "get_edge_count\0" . as_ptr () as * const c_char) ; table . get_edge_faces = (gd_api . godot_method_bind_get_method) (class_name , "get_edge_faces\0" . as_ptr () as * const c_char) ; table . get_edge_meta = (gd_api . godot_method_bind_get_method) (class_name , "get_edge_meta\0" . as_ptr () as * const c_char) ; table . get_edge_vertex = (gd_api . godot_method_bind_get_method) (class_name , "get_edge_vertex\0" . as_ptr () as * const c_char) ; table . get_face_count = (gd_api . godot_method_bind_get_method) (class_name , "get_face_count\0" . as_ptr () as * const c_char) ; table . get_face_edge = (gd_api . godot_method_bind_get_method) (class_name , "get_face_edge\0" . as_ptr () as * const c_char) ; table . get_face_meta = (gd_api . godot_method_bind_get_method) (class_name , "get_face_meta\0" . as_ptr () as * const c_char) ; table . get_face_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_face_normal\0" . as_ptr () as * const c_char) ; table . get_face_vertex = (gd_api . godot_method_bind_get_method) (class_name , "get_face_vertex\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_material = (gd_api . godot_method_bind_get_method) (class_name , "get_material\0" . as_ptr () as * const c_char) ; table . get_vertex = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex\0" . as_ptr () as * const c_char) ; table . get_vertex_bones = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_bones\0" . as_ptr () as * const c_char) ; table . get_vertex_color = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_color\0" . as_ptr () as * const c_char) ; table . get_vertex_count = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_count\0" . as_ptr () as * const c_char) ; table . get_vertex_edges = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_edges\0" . as_ptr () as * const c_char) ; table . get_vertex_faces = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_faces\0" . as_ptr () as * const c_char) ; table . get_vertex_meta = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_meta\0" . as_ptr () as * const c_char) ; table . get_vertex_normal = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_normal\0" . as_ptr () as * const c_char) ; table . get_vertex_tangent = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_tangent\0" . as_ptr () as * const c_char) ; table . get_vertex_uv = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_uv\0" . as_ptr () as * const c_char) ; table . get_vertex_uv2 = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_uv2\0" . as_ptr () as * const c_char) ; table . get_vertex_weights = (gd_api . godot_method_bind_get_method) (class_name , "get_vertex_weights\0" . as_ptr () as * const c_char) ; table . set_edge_meta = (gd_api . godot_method_bind_get_method) (class_name , "set_edge_meta\0" . as_ptr () as * const c_char) ; table . set_face_meta = (gd_api . godot_method_bind_get_method) (class_name , "set_face_meta\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_vertex = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex\0" . as_ptr () as * const c_char) ; table . set_vertex_bones = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_bones\0" . as_ptr () as * const c_char) ; table . set_vertex_color = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_color\0" . as_ptr () as * const c_char) ; table . set_vertex_meta = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_meta\0" . as_ptr () as * const c_char) ; table . set_vertex_normal = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_normal\0" . as_ptr () as * const c_char) ; table . set_vertex_tangent = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_tangent\0" . as_ptr () as * const c_char) ; table . set_vertex_uv = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_uv\0" . as_ptr () as * const c_char) ; table . set_vertex_uv2 = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_uv2\0" . as_ptr () as * const c_char) ; table . set_vertex_weights = (gd_api . godot_method_bind_get_method) (class_name , "set_vertex_weights\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:184:4841 [INFO] [stdout] | [INFO] [stdout] 184 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:190:8183 [INFO] [stdout] | [INFO] [stdout] 190 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 CSGBox` inherits `CSGPrimitive` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_csgbox.html) in the Godot 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`CSGBox` 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\nCSGBox 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 CSGBox { this : RawObject < Self > , } impl CSGBox { # [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 = CSGBoxMethodTable :: 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 = CSGBoxMethodTable :: 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 height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGBoxMethodTable :: 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 = CSGBoxMethodTable :: 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 width (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGBoxMethodTable :: get (get_api ()) . get_width ; let ret = crate :: icalls :: icallptr_f64 (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 = CSGBoxMethodTable :: 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_height (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGBoxMethodTable :: 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 = CSGBoxMethodTable :: 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_width (& self , width : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CSGBoxMethodTable :: 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 CSGBox { } unsafe impl GodotObject for CSGBox { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CSGBox" } } impl QueueFree for CSGBox { # [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 CSGBox { 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 CSGBox { # [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 CSGBox { } unsafe impl SubClass < crate :: generated :: csg_shape :: CSGShape > for CSGBox { } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for CSGBox { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for CSGBox { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for CSGBox { } unsafe impl SubClass < crate :: generated :: node :: Node > for CSGBox { } unsafe impl SubClass < crate :: generated :: object :: Object > for CSGBox { } impl Instanciable for CSGBox { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CSGBox :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CSGBoxMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_depth : * mut sys :: godot_method_bind , pub get_height : * mut sys :: godot_method_bind , pub get_material : * mut sys :: godot_method_bind , pub get_width : * mut sys :: godot_method_bind , pub set_depth : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_material : * mut sys :: godot_method_bind , pub set_width : * mut sys :: godot_method_bind } impl CSGBoxMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CSGBoxMethodTable = CSGBoxMethodTable { class_constructor : None , get_depth : 0 as * mut sys :: godot_method_bind , get_height : 0 as * mut sys :: godot_method_bind , get_material : 0 as * mut sys :: godot_method_bind , get_width : 0 as * mut sys :: godot_method_bind , set_depth : 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_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 (|| { CSGBoxMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CSGBox\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_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_width = (gd_api . godot_method_bind_get_method) (class_name , "get_width\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_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_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-7a634cfa4295a760/out/generated.rs:196:11283 [INFO] [stdout] | [INFO] [stdout] 196 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 ParallaxBackground` inherits `CanvasLayer` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_parallaxbackground.html) in the Godot 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`ParallaxBackground` 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\nParallaxBackground inherits methods from:\n - [CanvasLayer](struct.CanvasLayer.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 ParallaxBackground { this : RawObject < Self > , } impl ParallaxBackground { # [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 = ParallaxBackgroundMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Top-left limits for scrolling to begin. If the camera is outside of this limit, the background will stop scrolling. Must be lower than [member scroll_limit_end] to work."] # [doc = ""] # [inline] pub fn limit_begin (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . get_limit_begin ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Bottom-right limits for scrolling to end. If the camera is outside of this limit, the background will stop scrolling. Must be higher than [member scroll_limit_begin] to work."] # [doc = ""] # [inline] pub fn limit_end (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . get_limit_end ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The base position offset for all [ParallaxLayer] children."] # [doc = ""] # [inline] pub fn scroll_base_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . get_scroll_base_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The base motion scale for all [ParallaxLayer] children."] # [doc = ""] # [inline] pub fn scroll_base_scale (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . get_scroll_base_scale ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The ParallaxBackground's scroll value. Calculated automatically when using a [Camera2D], but can be used to manually manage scrolling when no camera is present."] # [doc = ""] # [inline] pub fn scroll_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . get_scroll_offset ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "If `true`, elements in [ParallaxLayer] child aren't affected by the zoom level of the camera."] # [doc = ""] # [inline] pub fn is_ignore_camera_zoom (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . is_ignore_camera_zoom ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, elements in [ParallaxLayer] child aren't affected by the zoom level of the camera."] # [doc = ""] # [inline] pub fn set_ignore_camera_zoom (& self , ignore : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . set_ignore_camera_zoom ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , ignore) ; } } # [doc = "Top-left limits for scrolling to begin. If the camera is outside of this limit, the background will stop scrolling. Must be lower than [member scroll_limit_end] to work."] # [doc = ""] # [inline] pub fn set_limit_begin (& self , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . set_limit_begin ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , ofs) ; } } # [doc = "Bottom-right limits for scrolling to end. If the camera is outside of this limit, the background will stop scrolling. Must be higher than [member scroll_limit_begin] to work."] # [doc = ""] # [inline] pub fn set_limit_end (& self , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . set_limit_end ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , ofs) ; } } # [doc = "The base position offset for all [ParallaxLayer] children."] # [doc = ""] # [inline] pub fn set_scroll_base_offset (& self , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . set_scroll_base_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , ofs) ; } } # [doc = "The base motion scale for all [ParallaxLayer] children."] # [doc = ""] # [inline] pub fn set_scroll_base_scale (& self , scale : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . set_scroll_base_scale ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "The ParallaxBackground's scroll value. Calculated automatically when using a [Camera2D], but can be used to manually manage scrolling when no camera is present."] # [doc = ""] # [inline] pub fn set_scroll_offset (& self , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ParallaxBackgroundMethodTable :: get (get_api ()) . set_scroll_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , ofs) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ParallaxBackground { } unsafe impl GodotObject for ParallaxBackground { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ParallaxBackground" } } impl QueueFree for ParallaxBackground { # [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 ParallaxBackground { type Target = crate :: generated :: canvas_layer :: CanvasLayer ; # [inline] fn deref (& self) -> & crate :: generated :: canvas_layer :: CanvasLayer { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ParallaxBackground { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: canvas_layer :: CanvasLayer { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: canvas_layer :: CanvasLayer > for ParallaxBackground { } unsafe impl SubClass < crate :: generated :: node :: Node > for ParallaxBackground { } unsafe impl SubClass < crate :: generated :: object :: Object > for ParallaxBackground { } impl Instanciable for ParallaxBackground { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ParallaxBackground :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ParallaxBackgroundMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_limit_begin : * mut sys :: godot_method_bind , pub get_limit_end : * mut sys :: godot_method_bind , pub get_scroll_base_offset : * mut sys :: godot_method_bind , pub get_scroll_base_scale : * mut sys :: godot_method_bind , pub get_scroll_offset : * mut sys :: godot_method_bind , pub is_ignore_camera_zoom : * mut sys :: godot_method_bind , pub set_ignore_camera_zoom : * mut sys :: godot_method_bind , pub set_limit_begin : * mut sys :: godot_method_bind , pub set_limit_end : * mut sys :: godot_method_bind , pub set_scroll_base_offset : * mut sys :: godot_method_bind , pub set_scroll_base_scale : * mut sys :: godot_method_bind , pub set_scroll_offset : * mut sys :: godot_method_bind } impl ParallaxBackgroundMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ParallaxBackgroundMethodTable = ParallaxBackgroundMethodTable { class_constructor : None , get_limit_begin : 0 as * mut sys :: godot_method_bind , get_limit_end : 0 as * mut sys :: godot_method_bind , get_scroll_base_offset : 0 as * mut sys :: godot_method_bind , get_scroll_base_scale : 0 as * mut sys :: godot_method_bind , get_scroll_offset : 0 as * mut sys :: godot_method_bind , is_ignore_camera_zoom : 0 as * mut sys :: godot_method_bind , set_ignore_camera_zoom : 0 as * mut sys :: godot_method_bind , set_limit_begin : 0 as * mut sys :: godot_method_bind , set_limit_end : 0 as * mut sys :: godot_method_bind , set_scroll_base_offset : 0 as * mut sys :: godot_method_bind , set_scroll_base_scale : 0 as * mut sys :: godot_method_bind , set_scroll_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 (|| { ParallaxBackgroundMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ParallaxBackground\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_limit_begin = (gd_api . godot_method_bind_get_method) (class_name , "get_limit_begin\0" . as_ptr () as * const c_char) ; table . get_limit_end = (gd_api . godot_method_bind_get_method) (class_name , "get_limit_end\0" . as_ptr () as * const c_char) ; table . get_scroll_base_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_scroll_base_offset\0" . as_ptr () as * const c_char) ; table . get_scroll_base_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_scroll_base_scale\0" . as_ptr () as * const c_char) ; table . get_scroll_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_scroll_offset\0" . as_ptr () as * const c_char) ; table . is_ignore_camera_zoom = (gd_api . godot_method_bind_get_method) (class_name , "is_ignore_camera_zoom\0" . as_ptr () as * const c_char) ; table . set_ignore_camera_zoom = (gd_api . godot_method_bind_get_method) (class_name , "set_ignore_camera_zoom\0" . as_ptr () as * const c_char) ; table . set_limit_begin = (gd_api . godot_method_bind_get_method) (class_name , "set_limit_begin\0" . as_ptr () as * const c_char) ; table . set_limit_end = (gd_api . godot_method_bind_get_method) (class_name , "set_limit_end\0" . as_ptr () as * const c_char) ; table . set_scroll_base_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_scroll_base_offset\0" . as_ptr () as * const c_char) ; table . set_scroll_base_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_scroll_base_scale\0" . as_ptr () as * const c_char) ; table . set_scroll_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_scroll_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-7a634cfa4295a760/out/generated.rs:202:4369 [INFO] [stdout] | [INFO] [stdout] 202 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:208:10690 [INFO] [stdout] | [INFO] [stdout] 208 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AnimationNodeBlendTree` inherits `AnimationRootNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeblendtree.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeBlendTree 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 AnimationNodeBlendTree { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationNodeBlendTree { pub const CONNECTION_ERROR_CONNECTION_EXISTS : i64 = 5i64 ; pub const CONNECTION_ERROR_NO_INPUT : i64 = 1i64 ; pub const CONNECTION_ERROR_NO_INPUT_INDEX : i64 = 2i64 ; pub const CONNECTION_ERROR_NO_OUTPUT : i64 = 3i64 ; pub const CONNECTION_ERROR_SAME_NODE : i64 = 4i64 ; pub const CONNECTION_OK : i64 = 0i64 ; } impl AnimationNodeBlendTree { # [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 = AnimationNodeBlendTreeMethodTable :: 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 [AnimationNode] at the given `position`. The `name` is used to identify the created sub-node later.\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 = AnimationNodeBlendTreeMethodTable :: 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 = "Connects the output of an [AnimationNode] as input for another [AnimationNode], at the input port specified by `input_index`."] # [doc = ""] # [inline] pub fn connect_node (& self , input_node : impl Into < GodotString > , input_index : i64 , output_node : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: get (get_api ()) . connect_node ; let ret = crate :: icalls :: icallptr_void_str_i64_str (method_bind , self . this . sys () . as_ptr () , input_node . into () , input_index , output_node . into ()) ; } } # [doc = "Disconnects the node connected to the specified input."] # [doc = ""] # [inline] pub fn disconnect_node (& self , input_node : impl Into < GodotString > , input_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: get (get_api ()) . disconnect_node ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , input_node . into () , input_index) ; } } # [doc = "The global offset of all sub-nodes."] # [doc = ""] # [inline] pub fn graph_offset (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: 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 sub-node with the specified `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 = AnimationNodeBlendTreeMethodTable :: 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 position of the sub-node with the specified `name`."] # [doc = ""] # [inline] pub fn get_node_position (& self , name : impl Into < GodotString >) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: 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 `true` if a sub-node with specified `name` exists."] # [doc = ""] # [inline] pub fn has_node (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: get (get_api ()) . has_node ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Removes a sub-node."] # [doc = ""] # [inline] pub fn remove_node (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: get (get_api ()) . remove_node ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Changes the name of a sub-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 = AnimationNodeBlendTreeMethodTable :: 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 = "The global offset of all sub-nodes."] # [doc = ""] # [inline] pub fn set_graph_offset (& self , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: get (get_api ()) . set_graph_offset ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = "Modifies the position of a sub-node."] # [doc = ""] # [inline] pub fn set_node_position (& self , name : impl Into < GodotString > , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeBlendTreeMethodTable :: get (get_api ()) . set_node_position ; let ret = crate :: icalls :: icallptr_void_str_vec2 (method_bind , self . this . sys () . as_ptr () , name . into () , position) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeBlendTree { } unsafe impl GodotObject for AnimationNodeBlendTree { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeBlendTree" } } impl std :: ops :: Deref for AnimationNodeBlendTree { 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 AnimationNodeBlendTree { # [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 AnimationNodeBlendTree { } unsafe impl SubClass < crate :: generated :: animation_node :: AnimationNode > for AnimationNodeBlendTree { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeBlendTree { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeBlendTree { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeBlendTree { } impl Instanciable for AnimationNodeBlendTree { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeBlendTree :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeBlendTreeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_node : * mut sys :: godot_method_bind , pub connect_node : * mut sys :: godot_method_bind , pub disconnect_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_position : * mut sys :: godot_method_bind , pub has_node : * mut sys :: godot_method_bind , pub remove_node : * mut sys :: godot_method_bind , pub rename_node : * mut sys :: godot_method_bind , pub set_graph_offset : * mut sys :: godot_method_bind , pub set_node_position : * mut sys :: godot_method_bind } impl AnimationNodeBlendTreeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeBlendTreeMethodTable = AnimationNodeBlendTreeMethodTable { class_constructor : None , add_node : 0 as * mut sys :: godot_method_bind , connect_node : 0 as * mut sys :: godot_method_bind , disconnect_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_position : 0 as * mut sys :: godot_method_bind , has_node : 0 as * mut sys :: godot_method_bind , remove_node : 0 as * mut sys :: godot_method_bind , rename_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 } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeBlendTreeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeBlendTree\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 . connect_node = (gd_api . godot_method_bind_get_method) (class_name , "connect_node\0" . as_ptr () as * const c_char) ; table . disconnect_node = (gd_api . godot_method_bind_get_method) (class_name , "disconnect_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_position = (gd_api . godot_method_bind_get_method) (class_name , "get_node_position\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 . remove_node = (gd_api . godot_method_bind_get_method) (class_name , "remove_node\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 . 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) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:214:14333 [INFO] [stdout] | [INFO] [stdout] 214 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:220:3679 [INFO] [stdout] | [INFO] [stdout] 220 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualScriptExpression` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptexpression.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptExpression 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 VisualScriptExpression { this : RawObject < Self > , } impl VisualScriptExpression { # [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 = VisualScriptExpressionMethodTable :: 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 VisualScriptExpression { } unsafe impl GodotObject for VisualScriptExpression { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptExpression" } } impl std :: ops :: Deref for VisualScriptExpression { 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 VisualScriptExpression { # [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 VisualScriptExpression { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptExpression { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptExpression { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptExpression { } impl Instanciable for VisualScriptExpression { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptExpression :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptExpressionMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptExpressionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptExpressionMethodTable = VisualScriptExpressionMethodTable { 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 (|| { VisualScriptExpressionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptExpression\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-7a634cfa4295a760/out/generated.rs:226:5525 [INFO] [stdout] | [INFO] [stdout] 226 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 WorldEnvironment` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_worldenvironment.html) in the Godot 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`WorldEnvironment` 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\nWorldEnvironment 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 WorldEnvironment { this : RawObject < Self > , } impl WorldEnvironment { # [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 = WorldEnvironmentMethodTable :: 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 [Environment] resource used by this [WorldEnvironment], defining the default properties."] # [doc = ""] # [inline] pub fn environment (& self) -> Option < Ref < crate :: generated :: environment :: Environment , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldEnvironmentMethodTable :: get (get_api ()) . get_environment ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: environment :: Environment , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [Environment] resource used by this [WorldEnvironment], defining the default properties."] # [doc = ""] # [inline] pub fn set_environment (& self , env : impl AsArg < crate :: generated :: environment :: Environment >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = WorldEnvironmentMethodTable :: get (get_api ()) . set_environment ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , env . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for WorldEnvironment { } unsafe impl GodotObject for WorldEnvironment { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "WorldEnvironment" } } impl QueueFree for WorldEnvironment { # [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 WorldEnvironment { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for WorldEnvironment { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for WorldEnvironment { } unsafe impl SubClass < crate :: generated :: object :: Object > for WorldEnvironment { } impl Instanciable for WorldEnvironment { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { WorldEnvironment :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct WorldEnvironmentMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_environment : * mut sys :: godot_method_bind , pub set_environment : * mut sys :: godot_method_bind } impl WorldEnvironmentMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : WorldEnvironmentMethodTable = WorldEnvironmentMethodTable { class_constructor : None , get_environment : 0 as * mut sys :: godot_method_bind , set_environment : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { WorldEnvironmentMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "WorldEnvironment\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_environment = (gd_api . godot_method_bind_get_method) (class_name , "get_environment\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) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:232:4680 [INFO] [stdout] | [INFO] [stdout] 232 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:238:32706 [INFO] [stdout] | [INFO] [stdout] 238 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:244:8754 [INFO] [stdout] | [INFO] [stdout] 244 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 RandomNumberGenerator` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_randomnumbergenerator.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nRandomNumberGenerator 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 RandomNumberGenerator { this : RawObject < Self > , } impl RandomNumberGenerator { # [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 = RandomNumberGeneratorMethodTable :: 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 seed used by the random number generator. A given seed will give a reproducible sequence of pseudo-random numbers.\n**Note:** The RNG does not have an avalanche effect, and can output similar random streams given similar seeds. Consider using a hash function to improve your seed quality if they're sourced externally."] # [doc = ""] # [inline] pub fn seed (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . get_seed ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn state (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . get_state ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Generates a pseudo-random float between `0.0` and `1.0` (inclusive)."] # [doc = ""] # [inline] pub fn randf (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . randf ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Generates a pseudo-random float between `from` and `to` (inclusive)."] # [doc = ""] # [inline] pub fn randf_range (& self , from : f64 , to : f64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . randf_range ; let ret = crate :: icalls :: icallptr_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , from , to) ; ret as _ } } # [doc = "Generates a [url=https://en.wikipedia.org/wiki/Normal_distribution]normally-distributed[/url] pseudo-random number, using Box-Muller transform with the specified `mean` and a standard `deviation`. This is also called Gaussian distribution.\n# Default Arguments\n* `mean` - `0.0`\n* `deviation` - `1.0`"] # [doc = ""] # [inline] pub fn randfn (& self , mean : f64 , deviation : f64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . randfn ; let ret = crate :: icalls :: icallptr_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , mean , deviation) ; ret as _ } } # [doc = "Generates a pseudo-random 32-bit unsigned integer between `0` and `4294967295` (inclusive)."] # [doc = ""] # [inline] pub fn randi (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . randi ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Generates a pseudo-random 32-bit signed integer between `from` and `to` (inclusive)."] # [doc = ""] # [inline] pub fn randi_range (& self , from : i64 , to : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . randi_range ; let ret = crate :: icalls :: icallptr_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , from , to) ; ret as _ } } # [doc = "Setups a time-based seed to generator."] # [doc = ""] # [inline] pub fn randomize (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . randomize ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The seed used by the random number generator. A given seed will give a reproducible sequence of pseudo-random numbers.\n**Note:** The RNG does not have an avalanche effect, and can output similar random streams given similar seeds. Consider using a hash function to improve your seed quality if they're sourced externally."] # [doc = ""] # [inline] pub fn set_seed (& self , seed : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . set_seed ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , seed) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_state (& self , state : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RandomNumberGeneratorMethodTable :: get (get_api ()) . set_state ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , state) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RandomNumberGenerator { } unsafe impl GodotObject for RandomNumberGenerator { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "RandomNumberGenerator" } } impl std :: ops :: Deref for RandomNumberGenerator { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RandomNumberGenerator { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for RandomNumberGenerator { } unsafe impl SubClass < crate :: generated :: object :: Object > for RandomNumberGenerator { } impl Instanciable for RandomNumberGenerator { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RandomNumberGenerator :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RandomNumberGeneratorMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_seed : * mut sys :: godot_method_bind , pub get_state : * mut sys :: godot_method_bind , pub randf : * mut sys :: godot_method_bind , pub randf_range : * mut sys :: godot_method_bind , pub randfn : * mut sys :: godot_method_bind , pub randi : * mut sys :: godot_method_bind , pub randi_range : * mut sys :: godot_method_bind , pub randomize : * mut sys :: godot_method_bind , pub set_seed : * mut sys :: godot_method_bind , pub set_state : * mut sys :: godot_method_bind } impl RandomNumberGeneratorMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RandomNumberGeneratorMethodTable = RandomNumberGeneratorMethodTable { class_constructor : None , get_seed : 0 as * mut sys :: godot_method_bind , get_state : 0 as * mut sys :: godot_method_bind , randf : 0 as * mut sys :: godot_method_bind , randf_range : 0 as * mut sys :: godot_method_bind , randfn : 0 as * mut sys :: godot_method_bind , randi : 0 as * mut sys :: godot_method_bind , randi_range : 0 as * mut sys :: godot_method_bind , randomize : 0 as * mut sys :: godot_method_bind , set_seed : 0 as * mut sys :: godot_method_bind , set_state : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RandomNumberGeneratorMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RandomNumberGenerator\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_seed = (gd_api . godot_method_bind_get_method) (class_name , "get_seed\0" . as_ptr () as * const c_char) ; table . get_state = (gd_api . godot_method_bind_get_method) (class_name , "get_state\0" . as_ptr () as * const c_char) ; table . randf = (gd_api . godot_method_bind_get_method) (class_name , "randf\0" . as_ptr () as * const c_char) ; table . randf_range = (gd_api . godot_method_bind_get_method) (class_name , "randf_range\0" . as_ptr () as * const c_char) ; table . randfn = (gd_api . godot_method_bind_get_method) (class_name , "randfn\0" . as_ptr () as * const c_char) ; table . randi = (gd_api . godot_method_bind_get_method) (class_name , "randi\0" . as_ptr () as * const c_char) ; table . randi_range = (gd_api . godot_method_bind_get_method) (class_name , "randi_range\0" . as_ptr () as * const c_char) ; table . randomize = (gd_api . godot_method_bind_get_method) (class_name , "randomize\0" . as_ptr () as * const c_char) ; table . set_seed = (gd_api . godot_method_bind_get_method) (class_name , "set_seed\0" . as_ptr () as * const c_char) ; table . set_state = (gd_api . godot_method_bind_get_method) (class_name , "set_state\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:250:11026 [INFO] [stdout] | [INFO] [stdout] 250 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 StaticBody` inherits `PhysicsBody` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_staticbody.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`StaticBody` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nStaticBody inherits methods from:\n - [PhysicsBody](struct.PhysicsBody.html)\n - [CollisionObject](struct.CollisionObject.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct StaticBody { this : RawObject < Self > , } impl StaticBody { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = StaticBodyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn bounce (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_bounce ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's constant angular velocity. This does not rotate the body, but affects other bodies that touch it, as if it was in a state of rotation."] # [doc = ""] # [inline] pub fn constant_angular_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_constant_angular_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's constant linear velocity. This does not move the body, but affects other bodies that touch it, as if it was in a state of movement."] # [doc = ""] # [inline] pub fn constant_linear_velocity (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_constant_linear_velocity ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's friction, from 0 (frictionless) to 1 (full friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn friction (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_friction ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn physics_material_override (& self) -> Option < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . get_physics_material_override ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_bounce (& self , bounce : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_bounce ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bounce) ; } } # [doc = "The body's constant angular velocity. This does not rotate the body, but affects other bodies that touch it, as if it was in a state of rotation."] # [doc = ""] # [inline] pub fn set_constant_angular_velocity (& self , vel : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_constant_angular_velocity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , vel) ; } } # [doc = "The body's constant linear velocity. This does not move the body, but affects other bodies that touch it, as if it was in a state of movement."] # [doc = ""] # [inline] pub fn set_constant_linear_velocity (& self , vel : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_constant_linear_velocity ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , vel) ; } } # [doc = "The body's friction, from 0 (frictionless) to 1 (full friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_friction (& self , friction : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_friction ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , friction) ; } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn set_physics_material_override (& self , physics_material_override : impl AsArg < crate :: generated :: physics_material :: PhysicsMaterial >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = StaticBodyMethodTable :: get (get_api ()) . set_physics_material_override ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , physics_material_override . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for StaticBody { } unsafe impl GodotObject for StaticBody { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "StaticBody" } } impl QueueFree for StaticBody { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for StaticBody { type Target = crate :: generated :: physics_body :: PhysicsBody ; # [inline] fn deref (& self) -> & crate :: generated :: physics_body :: PhysicsBody { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for StaticBody { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: physics_body :: PhysicsBody { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: physics_body :: PhysicsBody > for StaticBody { } unsafe impl SubClass < crate :: generated :: collision_object :: CollisionObject > for StaticBody { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for StaticBody { } unsafe impl SubClass < crate :: generated :: node :: Node > for StaticBody { } unsafe impl SubClass < crate :: generated :: object :: Object > for StaticBody { } impl Instanciable for StaticBody { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StaticBody :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StaticBodyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bounce : * mut sys :: godot_method_bind , pub get_constant_angular_velocity : * mut sys :: godot_method_bind , pub get_constant_linear_velocity : * mut sys :: godot_method_bind , pub get_friction : * mut sys :: godot_method_bind , pub get_physics_material_override : * mut sys :: godot_method_bind , pub set_bounce : * mut sys :: godot_method_bind , pub set_constant_angular_velocity : * mut sys :: godot_method_bind , pub set_constant_linear_velocity : * mut sys :: godot_method_bind , pub set_friction : * mut sys :: godot_method_bind , pub set_physics_material_override : * mut sys :: godot_method_bind } impl StaticBodyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StaticBodyMethodTable = StaticBodyMethodTable { class_constructor : None , get_bounce : 0 as * mut sys :: godot_method_bind , get_constant_angular_velocity : 0 as * mut sys :: godot_method_bind , get_constant_linear_velocity : 0 as * mut sys :: godot_method_bind , get_friction : 0 as * mut sys :: godot_method_bind , get_physics_material_override : 0 as * mut sys :: godot_method_bind , set_bounce : 0 as * mut sys :: godot_method_bind , set_constant_angular_velocity : 0 as * mut sys :: godot_method_bind , set_constant_linear_velocity : 0 as * mut sys :: godot_method_bind , set_friction : 0 as * mut sys :: godot_method_bind , set_physics_material_override : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { StaticBodyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StaticBody\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bounce = (gd_api . godot_method_bind_get_method) (class_name , "get_bounce\0" . as_ptr () as * const c_char) ; table . get_constant_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_constant_angular_velocity\0" . as_ptr () as * const c_char) ; table . get_constant_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_constant_linear_velocity\0" . as_ptr () as * const c_char) ; table . get_friction = (gd_api . godot_method_bind_get_method) (class_name , "get_friction\0" . as_ptr () as * const c_char) ; table . get_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "get_physics_material_override\0" . as_ptr () as * const c_char) ; table . set_bounce = (gd_api . godot_method_bind_get_method) (class_name , "set_bounce\0" . as_ptr () as * const c_char) ; table . set_constant_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_constant_angular_velocity\0" . as_ptr () as * const c_char) ; table . set_constant_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_constant_linear_velocity\0" . as_ptr () as * const c_char) ; table . set_friction = (gd_api . godot_method_bind_get_method) (class_name , "set_friction\0" . as_ptr () as * const c_char) ; table . set_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "set_physics_material_override\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:256:18168 [INFO] [stdout] | [INFO] [stdout] 256 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AStar2D` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_astar2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAStar2D 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 AStar2D { this : RawObject < Self > , } impl AStar2D { # [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 = AStar2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nAdds a new point at the given position with the given identifier. The algorithm prefers points with lower `weight_scale` to form a path. The `id` must be 0 or larger, and the `weight_scale` must be 1 or larger.\n```gdscript\nvar astar = AStar2D.new()\nastar.add_point(1, Vector2(1, 0), 4) # Adds the point (1, 0) with weight_scale 4 and id 1\n```\nIf there already exists a point for the given `id`, its position and weight scale are updated to the given values.\n# Default Arguments\n* `weight_scale` - `1.0`"] # [doc = ""] # [inline] pub fn add_point (& self , id : i64 , position : Vector2 , weight_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . add_point ; let ret = crate :: icalls :: icallptr_void_i64_vec2_f64 (method_bind , self . this . sys () . as_ptr () , id , position , weight_scale) ; } } # [doc = "Returns whether there is a connection/segment between the given points."] # [doc = ""] # [inline] pub fn are_points_connected (& self , id : i64 , to_id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . are_points_connected ; let ret = crate :: icalls :: icallptr_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , to_id) ; ret as _ } } # [doc = "Clears all the points and segments."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nCreates a segment between the given points. If `bidirectional` is `false`, only movement from `id` to `to_id` is allowed, not the reverse direction.\n```gdscript\nvar astar = AStar2D.new()\nastar.add_point(1, Vector2(1, 1))\nastar.add_point(2, Vector2(0, 5))\nastar.connect_points(1, 2, false)\n```\n# Default Arguments\n* `bidirectional` - `true`"] # [doc = ""] # [inline] pub fn connect_points (& self , id : i64 , to_id : i64 , bidirectional : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . connect_points ; let ret = crate :: icalls :: icallptr_void_i64_i64_bool (method_bind , self . this . sys () . as_ptr () , id , to_id , bidirectional) ; } } # [doc = "Deletes the segment between the given points."] # [doc = ""] # [inline] pub fn disconnect_points (& self , id : i64 , to_id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . disconnect_points ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , to_id) ; } } # [doc = "Returns the next available point ID with no point associated to it."] # [doc = ""] # [inline] pub fn get_available_point_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_available_point_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the ID of the closest point to `to_position`, optionally taking disabled points into account. Returns `-1` if there are no points in the points pool.\n**Note:** If several points are the closest to `to_position`, the one with the smallest ID will be returned, ensuring a deterministic result.\n# Default Arguments\n* `include_disabled` - `false`"] # [doc = ""] # [inline] pub fn get_closest_point (& self , to_position : Vector2 , include_disabled : bool) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_closest_point ; let ret = crate :: icalls :: icallptr_i64_vec2_bool (method_bind , self . this . sys () . as_ptr () , to_position , include_disabled) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns the closest position to `to_position` that resides inside a segment between two connected points.\n```gdscript\nvar astar = AStar2D.new()\nastar.add_point(1, Vector2(0, 0))\nastar.add_point(2, Vector2(0, 5))\nastar.connect_points(1, 2)\nvar res = astar.get_closest_position_in_segment(Vector2(3, 3)) # Returns (0, 3)\n```\nThe result is in the segment that goes from `y = 0` to `y = 5`. It's the closest position in the segment to the given point."] # [doc = ""] # [inline] pub fn get_closest_position_in_segment (& self , to_position : Vector2) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_closest_position_in_segment ; let ret = crate :: icalls :: icallptr_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , to_position) ; mem :: transmute (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns an array with the IDs of the points that form the path found by AStar2D between the given points. The array is ordered from the starting point to the ending point of the path.\n```gdscript\nvar astar = AStar2D.new()\nastar.add_point(1, Vector2(0, 0))\nastar.add_point(2, Vector2(0, 1), 1) # Default weight is 1\nastar.add_point(3, Vector2(1, 1))\nastar.add_point(4, Vector2(2, 0))\n\nastar.connect_points(1, 2, false)\nastar.connect_points(2, 3, false)\nastar.connect_points(4, 3, false)\nastar.connect_points(1, 4, false)\n\nvar res = astar.get_id_path(1, 3) # Returns [1, 2, 3]\n```\nIf you change the 2nd point's weight to 3, then the result will be `[1, 4, 3]` instead, because now even though the distance is longer, it's \"easier\" to get through point 4 than through point 2."] # [doc = ""] # [inline] pub fn get_id_path (& self , from_id : i64 , to_id : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_id_path ; let ret = crate :: icalls :: icallptr_i32arr_i64_i64 (method_bind , self . this . sys () . as_ptr () , from_id , to_id) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the capacity of the structure backing the points, useful in conjunction with `reserve_space`."] # [doc = ""] # [inline] pub fn get_point_capacity (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_point_capacity ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns an array with the IDs of the points that form the connection with the given point.\n```gdscript\nvar astar = AStar2D.new()\nastar.add_point(1, Vector2(0, 0))\nastar.add_point(2, Vector2(0, 1))\nastar.add_point(3, Vector2(1, 1))\nastar.add_point(4, Vector2(2, 0))\n\nastar.connect_points(1, 2, true)\nastar.connect_points(1, 3, true)\n\nvar neighbors = astar.get_point_connections(1) # Returns [2, 3]\n```"] # [doc = ""] # [inline] pub fn get_point_connections (& self , id : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_point_connections ; let ret = crate :: icalls :: icallptr_i32arr_i64 (method_bind , self . this . sys () . as_ptr () , id) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the number of points currently in the points pool."] # [doc = ""] # [inline] pub fn get_point_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_point_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an array with the points that are in the path found by AStar2D between the given points. The array is ordered from the starting point to the ending point of the path."] # [doc = ""] # [inline] pub fn get_point_path (& self , from_id : i64 , to_id : i64) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_point_path ; let ret = crate :: icalls :: icallptr_vec2arr_i64_i64 (method_bind , self . this . sys () . as_ptr () , from_id , to_id) ; Vector2Array :: from_sys (ret) } } # [doc = "Returns the position of the point associated with the given `id`."] # [doc = ""] # [inline] pub fn get_point_position (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_point_position ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the weight scale of the point associated with the given `id`."] # [doc = ""] # [inline] pub fn get_point_weight_scale (& self , id : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_point_weight_scale ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns an array of all points."] # [doc = ""] # [inline] pub fn get_points (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . get_points ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns whether a point associated with the given `id` exists."] # [doc = ""] # [inline] pub fn has_point (& self , id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . has_point ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns whether a point is disabled or not for pathfinding. By default, all points are enabled."] # [doc = ""] # [inline] pub fn is_point_disabled (& self , id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . is_point_disabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Removes the point associated with the given `id` from the points pool."] # [doc = ""] # [inline] pub fn remove_point (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . remove_point ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Reserves space internally for `num_nodes` points, useful if you're adding a known large number of points at once, for a grid for instance. New capacity must be greater or equals to old capacity."] # [doc = ""] # [inline] pub fn reserve_space (& self , num_nodes : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . reserve_space ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , num_nodes) ; } } # [doc = "Disables or enables the specified point for pathfinding. Useful for making a temporary obstacle.\n# Default Arguments\n* `disabled` - `true`"] # [doc = ""] # [inline] pub fn set_point_disabled (& self , id : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . set_point_disabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , id , disabled) ; } } # [doc = "Sets the `position` for the point with the given `id`."] # [doc = ""] # [inline] pub fn set_point_position (& self , id : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . set_point_position ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , position) ; } } # [doc = "Sets the `weight_scale` for the point with the given `id`."] # [doc = ""] # [inline] pub fn set_point_weight_scale (& self , id : i64 , weight_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AStar2DMethodTable :: get (get_api ()) . set_point_weight_scale ; let ret = crate :: icalls :: icallptr_void_i64_f64 (method_bind , self . this . sys () . as_ptr () , id , weight_scale) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AStar2D { } unsafe impl GodotObject for AStar2D { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AStar2D" } } impl std :: ops :: Deref for AStar2D { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AStar2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AStar2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for AStar2D { } impl Instanciable for AStar2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AStar2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AStar2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_point : * mut sys :: godot_method_bind , pub are_points_connected : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub connect_points : * mut sys :: godot_method_bind , pub disconnect_points : * mut sys :: godot_method_bind , pub get_available_point_id : * mut sys :: godot_method_bind , pub get_closest_point : * mut sys :: godot_method_bind , pub get_closest_position_in_segment : * mut sys :: godot_method_bind , pub get_id_path : * mut sys :: godot_method_bind , pub get_point_capacity : * mut sys :: godot_method_bind , pub get_point_connections : * mut sys :: godot_method_bind , pub get_point_count : * mut sys :: godot_method_bind , pub get_point_path : * mut sys :: godot_method_bind , pub get_point_position : * mut sys :: godot_method_bind , pub get_point_weight_scale : * mut sys :: godot_method_bind , pub get_points : * mut sys :: godot_method_bind , pub has_point : * mut sys :: godot_method_bind , pub is_point_disabled : * mut sys :: godot_method_bind , pub remove_point : * mut sys :: godot_method_bind , pub reserve_space : * mut sys :: godot_method_bind , pub set_point_disabled : * mut sys :: godot_method_bind , pub set_point_position : * mut sys :: godot_method_bind , pub set_point_weight_scale : * mut sys :: godot_method_bind } impl AStar2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AStar2DMethodTable = AStar2DMethodTable { class_constructor : None , add_point : 0 as * mut sys :: godot_method_bind , are_points_connected : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , connect_points : 0 as * mut sys :: godot_method_bind , disconnect_points : 0 as * mut sys :: godot_method_bind , get_available_point_id : 0 as * mut sys :: godot_method_bind , get_closest_point : 0 as * mut sys :: godot_method_bind , get_closest_position_in_segment : 0 as * mut sys :: godot_method_bind , get_id_path : 0 as * mut sys :: godot_method_bind , get_point_capacity : 0 as * mut sys :: godot_method_bind , get_point_connections : 0 as * mut sys :: godot_method_bind , get_point_count : 0 as * mut sys :: godot_method_bind , get_point_path : 0 as * mut sys :: godot_method_bind , get_point_position : 0 as * mut sys :: godot_method_bind , get_point_weight_scale : 0 as * mut sys :: godot_method_bind , get_points : 0 as * mut sys :: godot_method_bind , has_point : 0 as * mut sys :: godot_method_bind , is_point_disabled : 0 as * mut sys :: godot_method_bind , remove_point : 0 as * mut sys :: godot_method_bind , reserve_space : 0 as * mut sys :: godot_method_bind , set_point_disabled : 0 as * mut sys :: godot_method_bind , set_point_position : 0 as * mut sys :: godot_method_bind , set_point_weight_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 (|| { AStar2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AStar2D\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 . are_points_connected = (gd_api . godot_method_bind_get_method) (class_name , "are_points_connected\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 . connect_points = (gd_api . godot_method_bind_get_method) (class_name , "connect_points\0" . as_ptr () as * const c_char) ; table . disconnect_points = (gd_api . godot_method_bind_get_method) (class_name , "disconnect_points\0" . as_ptr () as * const c_char) ; table . get_available_point_id = (gd_api . godot_method_bind_get_method) (class_name , "get_available_point_id\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_closest_position_in_segment = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_position_in_segment\0" . as_ptr () as * const c_char) ; table . get_id_path = (gd_api . godot_method_bind_get_method) (class_name , "get_id_path\0" . as_ptr () as * const c_char) ; table . get_point_capacity = (gd_api . godot_method_bind_get_method) (class_name , "get_point_capacity\0" . as_ptr () as * const c_char) ; table . get_point_connections = (gd_api . godot_method_bind_get_method) (class_name , "get_point_connections\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_path = (gd_api . godot_method_bind_get_method) (class_name , "get_point_path\0" . as_ptr () as * const c_char) ; table . get_point_position = (gd_api . godot_method_bind_get_method) (class_name , "get_point_position\0" . as_ptr () as * const c_char) ; table . get_point_weight_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_point_weight_scale\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 . has_point = (gd_api . godot_method_bind_get_method) (class_name , "has_point\0" . as_ptr () as * const c_char) ; table . is_point_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_point_disabled\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 . reserve_space = (gd_api . godot_method_bind_get_method) (class_name , "reserve_space\0" . as_ptr () as * const c_char) ; table . set_point_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_point_disabled\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_point_weight_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_point_weight_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-7a634cfa4295a760/out/generated.rs:262:12074 [INFO] [stdout] | [INFO] [stdout] 262 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AnimationNodeStateMachineTransition` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodestatemachinetransition.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeStateMachineTransition inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AnimationNodeStateMachineTransition { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SwitchMode (pub i64) ; impl SwitchMode { pub const IMMEDIATE : SwitchMode = SwitchMode (0i64) ; pub const SYNC : SwitchMode = SwitchMode (1i64) ; pub const AT_END : SwitchMode = SwitchMode (2i64) ; } impl From < i64 > for SwitchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SwitchMode > for i64 { # [inline] fn from (v : SwitchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationNodeStateMachineTransition { pub const SWITCH_MODE_AT_END : i64 = 2i64 ; pub const SWITCH_MODE_IMMEDIATE : i64 = 0i64 ; pub const SWITCH_MODE_SYNC : i64 = 1i64 ; } impl AnimationNodeStateMachineTransition { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AnimationNodeStateMachineTransitionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nTurn on auto advance when this condition is set. The provided name will become a boolean parameter on the [AnimationTree] that can be controlled from code (see [url=https://docs.godotengine.org/en/latest/tutorials/animation/animation_tree.html#controlling-from-code][/url]). For example, if [member AnimationTree.tree_root] is an [AnimationNodeStateMachine] and [member advance_condition] is set to `\"idle\"`:\n```gdscript\n$animation_tree[\"parameters/conditions/idle\"] = is_on_floor and (linear_velocity.x == 0)\n```"] # [doc = ""] # [inline] pub fn advance_condition (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_advance_condition ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Lower priority transitions are preferred when travelling through the tree via [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn priority (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_priority ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The transition type."] # [doc = ""] # [inline] pub fn switch_mode (& self) -> crate :: generated :: animation_node_state_machine_transition :: SwitchMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_switch_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: animation_node_state_machine_transition :: SwitchMode (ret) } } # [doc = "The time to cross-fade between this state and the next."] # [doc = ""] # [inline] pub fn xfade_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . get_xfade_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Turn on the transition automatically when this state is reached. This works best with [constant SWITCH_MODE_AT_END]."] # [doc = ""] # [inline] pub fn has_auto_advance (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . has_auto_advance ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Don't use this transition during [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn is_disabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . is_disabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nTurn on auto advance when this condition is set. The provided name will become a boolean parameter on the [AnimationTree] that can be controlled from code (see [url=https://docs.godotengine.org/en/latest/tutorials/animation/animation_tree.html#controlling-from-code][/url]). For example, if [member AnimationTree.tree_root] is an [AnimationNodeStateMachine] and [member advance_condition] is set to `\"idle\"`:\n```gdscript\n$animation_tree[\"parameters/conditions/idle\"] = is_on_floor and (linear_velocity.x == 0)\n```"] # [doc = ""] # [inline] pub fn set_advance_condition (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_advance_condition ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Turn on the transition automatically when this state is reached. This works best with [constant SWITCH_MODE_AT_END]."] # [doc = ""] # [inline] pub fn set_auto_advance (& self , auto_advance : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_auto_advance ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , auto_advance) ; } } # [doc = "Don't use this transition during [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn set_disabled (& self , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_disabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , disabled) ; } } # [doc = "Lower priority transitions are preferred when travelling through the tree via [method AnimationNodeStateMachinePlayback.travel] or [member auto_advance]."] # [doc = ""] # [inline] pub fn set_priority (& self , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_priority ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , priority) ; } } # [doc = "The transition type."] # [doc = ""] # [inline] pub fn set_switch_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_switch_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The time to cross-fade between this state and the next."] # [doc = ""] # [inline] pub fn set_xfade_time (& self , secs : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeStateMachineTransitionMethodTable :: get (get_api ()) . set_xfade_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , secs) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AnimationNodeStateMachineTransition { } unsafe impl GodotObject for AnimationNodeStateMachineTransition { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeStateMachineTransition" } } impl std :: ops :: Deref for AnimationNodeStateMachineTransition { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationNodeStateMachineTransition { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeStateMachineTransition { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeStateMachineTransition { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeStateMachineTransition { } impl Instanciable for AnimationNodeStateMachineTransition { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeStateMachineTransition :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeStateMachineTransitionMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_advance_condition : * mut sys :: godot_method_bind , pub get_priority : * mut sys :: godot_method_bind , pub get_switch_mode : * mut sys :: godot_method_bind , pub get_xfade_time : * mut sys :: godot_method_bind , pub has_auto_advance : * mut sys :: godot_method_bind , pub is_disabled : * mut sys :: godot_method_bind , pub set_advance_condition : * mut sys :: godot_method_bind , pub set_auto_advance : * mut sys :: godot_method_bind , pub set_disabled : * mut sys :: godot_method_bind , pub set_priority : * mut sys :: godot_method_bind , pub set_switch_mode : * mut sys :: godot_method_bind , pub set_xfade_time : * mut sys :: godot_method_bind } impl AnimationNodeStateMachineTransitionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeStateMachineTransitionMethodTable = AnimationNodeStateMachineTransitionMethodTable { class_constructor : None , get_advance_condition : 0 as * mut sys :: godot_method_bind , get_priority : 0 as * mut sys :: godot_method_bind , get_switch_mode : 0 as * mut sys :: godot_method_bind , get_xfade_time : 0 as * mut sys :: godot_method_bind , has_auto_advance : 0 as * mut sys :: godot_method_bind , is_disabled : 0 as * mut sys :: godot_method_bind , set_advance_condition : 0 as * mut sys :: godot_method_bind , set_auto_advance : 0 as * mut sys :: godot_method_bind , set_disabled : 0 as * mut sys :: godot_method_bind , set_priority : 0 as * mut sys :: godot_method_bind , set_switch_mode : 0 as * mut sys :: godot_method_bind , set_xfade_time : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeStateMachineTransitionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeStateMachineTransition\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_advance_condition = (gd_api . godot_method_bind_get_method) (class_name , "get_advance_condition\0" . as_ptr () as * const c_char) ; table . get_priority = (gd_api . godot_method_bind_get_method) (class_name , "get_priority\0" . as_ptr () as * const c_char) ; table . get_switch_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_switch_mode\0" . as_ptr () as * const c_char) ; table . get_xfade_time = (gd_api . godot_method_bind_get_method) (class_name , "get_xfade_time\0" . as_ptr () as * const c_char) ; table . has_auto_advance = (gd_api . godot_method_bind_get_method) (class_name , "has_auto_advance\0" . as_ptr () as * const c_char) ; table . is_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_disabled\0" . as_ptr () as * const c_char) ; table . set_advance_condition = (gd_api . godot_method_bind_get_method) (class_name , "set_advance_condition\0" . as_ptr () as * const c_char) ; table . set_auto_advance = (gd_api . godot_method_bind_get_method) (class_name , "set_auto_advance\0" . as_ptr () as * const c_char) ; table . set_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_disabled\0" . as_ptr () as * const c_char) ; table . set_priority = (gd_api . godot_method_bind_get_method) (class_name , "set_priority\0" . as_ptr () as * const c_char) ; table . set_switch_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_switch_mode\0" . as_ptr () as * const c_char) ; table . set_xfade_time = (gd_api . godot_method_bind_get_method) (class_name , "set_xfade_time\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:268:18656 [INFO] [stdout] | [INFO] [stdout] 268 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 268 | # [doc = "`core class FileDialog` inherits `ConfirmationDialog` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_filedialog.html) in the Godot 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`FileDialog` 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\nFileDialog inherits methods from:\n - [ConfirmationDialog](struct.ConfirmationDialog.html)\n - [AcceptDialog](struct.AcceptDialog.html)\n - [WindowDialog](struct.WindowDialog.html)\n - [Popup](struct.Popup.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct FileDialog { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Access (pub i64) ; impl Access { pub const RESOURCES : Access = Access (0i64) ; pub const USERDATA : Access = Access (1i64) ; pub const FILESYSTEM : Access = Access (2i64) ; } impl From < i64 > for Access { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Access > for i64 { # [inline] fn from (v : Access) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Mode (pub i64) ; impl Mode { pub const OPEN_FILE : Mode = Mode (0i64) ; pub const OPEN_FILES : Mode = Mode (1i64) ; pub const OPEN_DIR : Mode = Mode (2i64) ; pub const OPEN_ANY : Mode = Mode (3i64) ; pub const SAVE_FILE : 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 FileDialog { pub const ACCESS_FILESYSTEM : i64 = 2i64 ; pub const ACCESS_RESOURCES : i64 = 0i64 ; pub const ACCESS_USERDATA : i64 = 1i64 ; pub const MODE_OPEN_ANY : i64 = 3i64 ; pub const MODE_OPEN_DIR : i64 = 2i64 ; pub const MODE_OPEN_FILE : i64 = 0i64 ; pub const MODE_OPEN_FILES : i64 = 1i64 ; pub const MODE_SAVE_FILE : i64 = 4i64 ; } impl FileDialog { # [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 = FileDialogMethodTable :: 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 `filter` as a custom filter; `filter` should be of the form `\"filename.extension ; Description\"`. For example, `\"*.png ; PNG Images\"`."] # [doc = ""] # [inline] pub fn add_filter (& self , filter : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . add_filter ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , filter . into ()) ; } } # [doc = "Clear all the added filters in the dialog."] # [doc = ""] # [inline] pub fn clear_filters (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . clear_filters ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Clear currently selected items in the dialog."] # [doc = ""] # [inline] pub fn deselect_items (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . deselect_items ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The file system access scope. See enum `Access` constants.\n**Warning:** Currently, in sandboxed environments such as HTML5 builds or sandboxed macOS apps, FileDialog cannot access the host file system. See [url=https://github.com/godotengine/godot-proposals/issues/1123]godot-proposals#1123[/url]."] # [doc = ""] # [inline] pub fn access (& self) -> crate :: generated :: file_dialog :: Access { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . get_access ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: file_dialog :: Access (ret) } } # [doc = "The current working directory of the file dialog."] # [doc = ""] # [inline] pub fn current_dir (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . get_current_dir ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The currently selected file of the file dialog."] # [doc = ""] # [inline] pub fn current_file (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . get_current_file ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The currently selected file path of the file dialog."] # [doc = ""] # [inline] pub fn current_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . get_current_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "The available file type filters. For example, this shows only `.png` and `.gd` files: `set_filters(PoolStringArray([\"*.png ; PNG Images\",\"*.gd ; GDScript Files\"]))`."] # [doc = ""] # [inline] pub fn filters (& self) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . get_filters ; let ret = crate :: icalls :: icallptr_strarr (method_bind , self . this . sys () . as_ptr ()) ; StringArray :: from_sys (ret) } } # [doc = "Returns the LineEdit for the selected file."] # [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 = FileDialogMethodTable :: 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 = "The dialog's open or save mode, which affects the selection behavior. See enum `Mode` constants."] # [doc = ""] # [inline] pub fn mode (& self) -> crate :: generated :: file_dialog :: Mode { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . get_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: file_dialog :: Mode (ret) } } # [doc = "Returns the vertical box container of the dialog, custom controls can be added to it."] # [doc = ""] # [inline] pub fn get_vbox (& self) -> Option < Ref < crate :: generated :: vbox_container :: VBoxContainer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . get_vbox ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: vbox_container :: VBoxContainer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Invalidate and update the current dialog content list."] # [doc = ""] # [inline] pub fn invalidate (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . invalidate ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, changing the `Mode` property will set the window title accordingly (e.g. setting mode to [constant MODE_OPEN_FILE] will change the window title to \"Open a File\")."] # [doc = ""] # [inline] pub fn is_mode_overriding_title (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . is_mode_overriding_title ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the dialog will show hidden files."] # [doc = ""] # [inline] pub fn is_showing_hidden_files (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . is_showing_hidden_files ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The file system access scope. See enum `Access` constants.\n**Warning:** Currently, in sandboxed environments such as HTML5 builds or sandboxed macOS apps, FileDialog cannot access the host file system. See [url=https://github.com/godotengine/godot-proposals/issues/1123]godot-proposals#1123[/url]."] # [doc = ""] # [inline] pub fn set_access (& self , access : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_access ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , access) ; } } # [doc = "The current working directory of the file dialog."] # [doc = ""] # [inline] pub fn set_current_dir (& self , dir : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_current_dir ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , dir . into ()) ; } } # [doc = "The currently selected file of the file dialog."] # [doc = ""] # [inline] pub fn set_current_file (& self , file : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_current_file ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , file . into ()) ; } } # [doc = "The currently selected file path of the file dialog."] # [doc = ""] # [inline] pub fn set_current_path (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_current_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "The available file type filters. For example, this shows only `.png` and `.gd` files: `set_filters(PoolStringArray([\"*.png ; PNG Images\",\"*.gd ; GDScript Files\"]))`."] # [doc = ""] # [inline] pub fn set_filters (& self , filters : StringArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_filters ; let ret = crate :: icalls :: icallptr_void_strarr (method_bind , self . this . sys () . as_ptr () , filters) ; } } # [doc = "The dialog's open or save mode, which affects the selection behavior. See enum `Mode` constants."] # [doc = ""] # [inline] pub fn set_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "If `true`, changing the `Mode` property will set the window title accordingly (e.g. setting mode to [constant MODE_OPEN_FILE] will change the window title to \"Open a File\")."] # [doc = ""] # [inline] pub fn set_mode_overrides_title (& self , _override : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_mode_overrides_title ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , _override) ; } } # [doc = "If `true`, the dialog will show hidden files."] # [doc = ""] # [inline] pub fn set_show_hidden_files (& self , show : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = FileDialogMethodTable :: get (get_api ()) . set_show_hidden_files ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , show) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for FileDialog { } unsafe impl GodotObject for FileDialog { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "FileDialog" } } impl QueueFree for FileDialog { # [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 FileDialog { type Target = crate :: generated :: confirmation_dialog :: ConfirmationDialog ; # [inline] fn deref (& self) -> & crate :: generated :: confirmation_dialog :: ConfirmationDialog { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for FileDialog { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: confirmation_dialog :: ConfirmationDialog { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: confirmation_dialog :: ConfirmationDialog > for FileDialog { } unsafe impl SubClass < crate :: generated :: accept_dialog :: AcceptDialog > for FileDialog { } unsafe impl SubClass < crate :: generated :: window_dialog :: WindowDialog > for FileDialog { } unsafe impl SubClass < crate :: generated :: popup :: Popup > for FileDialog { } unsafe impl SubClass < crate :: generated :: control :: Control > for FileDialog { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for FileDialog { } unsafe impl SubClass < crate :: generated :: node :: Node > for FileDialog { } unsafe impl SubClass < crate :: generated :: object :: Object > for FileDialog { } impl Instanciable for FileDialog { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { FileDialog :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct FileDialogMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_filter : * mut sys :: godot_method_bind , pub clear_filters : * mut sys :: godot_method_bind , pub deselect_items : * mut sys :: godot_method_bind , pub get_access : * mut sys :: godot_method_bind , pub get_current_dir : * mut sys :: godot_method_bind , pub get_current_file : * mut sys :: godot_method_bind , pub get_current_path : * mut sys :: godot_method_bind , pub get_filters : * mut sys :: godot_method_bind , pub get_line_edit : * mut sys :: godot_method_bind , pub get_mode : * mut sys :: godot_method_bind , pub get_vbox : * mut sys :: godot_method_bind , pub invalidate : * mut sys :: godot_method_bind , pub is_mode_overriding_title : * mut sys :: godot_method_bind , pub is_showing_hidden_files : * mut sys :: godot_method_bind , pub set_access : * mut sys :: godot_method_bind , pub set_current_dir : * mut sys :: godot_method_bind , pub set_current_file : * mut sys :: godot_method_bind , pub set_current_path : * mut sys :: godot_method_bind , pub set_filters : * mut sys :: godot_method_bind , pub set_mode : * mut sys :: godot_method_bind , pub set_mode_overrides_title : * mut sys :: godot_method_bind , pub set_show_hidden_files : * mut sys :: godot_method_bind } impl FileDialogMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : FileDialogMethodTable = FileDialogMethodTable { class_constructor : None , add_filter : 0 as * mut sys :: godot_method_bind , clear_filters : 0 as * mut sys :: godot_method_bind , deselect_items : 0 as * mut sys :: godot_method_bind , get_access : 0 as * mut sys :: godot_method_bind , get_current_dir : 0 as * mut sys :: godot_method_bind , get_current_file : 0 as * mut sys :: godot_method_bind , get_current_path : 0 as * mut sys :: godot_method_bind , get_filters : 0 as * mut sys :: godot_method_bind , get_line_edit : 0 as * mut sys :: godot_method_bind , get_mode : 0 as * mut sys :: godot_method_bind , get_vbox : 0 as * mut sys :: godot_method_bind , invalidate : 0 as * mut sys :: godot_method_bind , is_mode_overriding_title : 0 as * mut sys :: godot_method_bind , is_showing_hidden_files : 0 as * mut sys :: godot_method_bind , set_access : 0 as * mut sys :: godot_method_bind , set_current_dir : 0 as * mut sys :: godot_method_bind , set_current_file : 0 as * mut sys :: godot_method_bind , set_current_path : 0 as * mut sys :: godot_method_bind , set_filters : 0 as * mut sys :: godot_method_bind , set_mode : 0 as * mut sys :: godot_method_bind , set_mode_overrides_title : 0 as * mut sys :: godot_method_bind , set_show_hidden_files : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { FileDialogMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "FileDialog\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_filter = (gd_api . godot_method_bind_get_method) (class_name , "add_filter\0" . as_ptr () as * const c_char) ; table . clear_filters = (gd_api . godot_method_bind_get_method) (class_name , "clear_filters\0" . as_ptr () as * const c_char) ; table . deselect_items = (gd_api . godot_method_bind_get_method) (class_name , "deselect_items\0" . as_ptr () as * const c_char) ; table . get_access = (gd_api . godot_method_bind_get_method) (class_name , "get_access\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_file = (gd_api . godot_method_bind_get_method) (class_name , "get_current_file\0" . as_ptr () as * const c_char) ; table . get_current_path = (gd_api . godot_method_bind_get_method) (class_name , "get_current_path\0" . as_ptr () as * const c_char) ; table . get_filters = (gd_api . godot_method_bind_get_method) (class_name , "get_filters\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_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_mode\0" . as_ptr () as * const c_char) ; table . get_vbox = (gd_api . godot_method_bind_get_method) (class_name , "get_vbox\0" . as_ptr () as * const c_char) ; table . invalidate = (gd_api . godot_method_bind_get_method) (class_name , "invalidate\0" . as_ptr () as * const c_char) ; table . is_mode_overriding_title = (gd_api . godot_method_bind_get_method) (class_name , "is_mode_overriding_title\0" . as_ptr () as * const c_char) ; table . is_showing_hidden_files = (gd_api . godot_method_bind_get_method) (class_name , "is_showing_hidden_files\0" . as_ptr () as * const c_char) ; table . set_access = (gd_api . godot_method_bind_get_method) (class_name , "set_access\0" . as_ptr () as * const c_char) ; table . set_current_dir = (gd_api . godot_method_bind_get_method) (class_name , "set_current_dir\0" . as_ptr () as * const c_char) ; table . set_current_file = (gd_api . godot_method_bind_get_method) (class_name , "set_current_file\0" . as_ptr () as * const c_char) ; table . set_current_path = (gd_api . godot_method_bind_get_method) (class_name , "set_current_path\0" . as_ptr () as * const c_char) ; table . set_filters = (gd_api . godot_method_bind_get_method) (class_name , "set_filters\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_mode_overrides_title = (gd_api . godot_method_bind_get_method) (class_name , "set_mode_overrides_title\0" . as_ptr () as * const c_char) ; table . set_show_hidden_files = (gd_api . godot_method_bind_get_method) (class_name , "set_show_hidden_files\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:274:8021 [INFO] [stdout] | [INFO] [stdout] 274 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 InputEventKey` inherits `InputEventWithModifiers` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventkey.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventKey inherits methods from:\n - [InputEventWithModifiers](struct.InputEventWithModifiers.html)\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventKey { this : RawObject < Self > , } impl InputEventKey { # [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 = InputEventKeyMethodTable :: 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 key scancode, which corresponds to one of the [enum KeyList] constants.\nTo get a human-readable representation of the [InputEventKey], use `OS.get_scancode_string(event.scancode)` where `event` is the [InputEventKey]."] # [doc = ""] # [inline] pub fn scancode (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventKeyMethodTable :: get (get_api ()) . get_scancode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the scancode combined with modifier keys such as `Shift` or `Alt`. See also [InputEventWithModifiers].\nTo get a human-readable representation of the [InputEventKey] with modifiers, use `OS.get_scancode_string(event.get_scancode_with_modifiers())` where `event` is the [InputEventKey]."] # [doc = ""] # [inline] pub fn get_scancode_with_modifiers (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventKeyMethodTable :: get (get_api ()) . get_scancode_with_modifiers ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The key Unicode identifier (when relevant). Unicode identifiers for the composite characters and complex scripts may not be available unless IME input mode is active. See [method OS.set_ime_active] for more information."] # [doc = ""] # [inline] pub fn unicode (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventKeyMethodTable :: get (get_api ()) . get_unicode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the key was already pressed before this event. It means the user is holding the key down."] # [doc = ""] # [inline] pub fn set_echo (& self , echo : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventKeyMethodTable :: get (get_api ()) . set_echo ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , echo) ; } } # [doc = "If `true`, the key's state is pressed. If `false`, the key's state is released."] # [doc = ""] # [inline] pub fn set_pressed (& self , pressed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventKeyMethodTable :: get (get_api ()) . set_pressed ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , pressed) ; } } # [doc = "The key scancode, which corresponds to one of the [enum KeyList] constants.\nTo get a human-readable representation of the [InputEventKey], use `OS.get_scancode_string(event.scancode)` where `event` is the [InputEventKey]."] # [doc = ""] # [inline] pub fn set_scancode (& self , scancode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventKeyMethodTable :: get (get_api ()) . set_scancode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , scancode) ; } } # [doc = "The key Unicode identifier (when relevant). Unicode identifiers for the composite characters and complex scripts may not be available unless IME input mode is active. See [method OS.set_ime_active] for more information."] # [doc = ""] # [inline] pub fn set_unicode (& self , unicode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventKeyMethodTable :: get (get_api ()) . set_unicode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , unicode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventKey { } unsafe impl GodotObject for InputEventKey { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventKey" } } impl std :: ops :: Deref for InputEventKey { type Target = crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers ; # [inline] fn deref (& self) -> & crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventKey { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers > for InputEventKey { } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventKey { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventKey { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventKey { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventKey { } impl Instanciable for InputEventKey { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventKey :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventKeyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_scancode : * mut sys :: godot_method_bind , pub get_scancode_with_modifiers : * mut sys :: godot_method_bind , pub get_unicode : * mut sys :: godot_method_bind , pub set_echo : * mut sys :: godot_method_bind , pub set_pressed : * mut sys :: godot_method_bind , pub set_scancode : * mut sys :: godot_method_bind , pub set_unicode : * mut sys :: godot_method_bind } impl InputEventKeyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventKeyMethodTable = InputEventKeyMethodTable { class_constructor : None , get_scancode : 0 as * mut sys :: godot_method_bind , get_scancode_with_modifiers : 0 as * mut sys :: godot_method_bind , get_unicode : 0 as * mut sys :: godot_method_bind , set_echo : 0 as * mut sys :: godot_method_bind , set_pressed : 0 as * mut sys :: godot_method_bind , set_scancode : 0 as * mut sys :: godot_method_bind , set_unicode : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventKeyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventKey\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_scancode = (gd_api . godot_method_bind_get_method) (class_name , "get_scancode\0" . as_ptr () as * const c_char) ; table . get_scancode_with_modifiers = (gd_api . godot_method_bind_get_method) (class_name , "get_scancode_with_modifiers\0" . as_ptr () as * const c_char) ; table . get_unicode = (gd_api . godot_method_bind_get_method) (class_name , "get_unicode\0" . as_ptr () as * const c_char) ; table . set_echo = (gd_api . godot_method_bind_get_method) (class_name , "set_echo\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_scancode = (gd_api . godot_method_bind_get_method) (class_name , "set_scancode\0" . as_ptr () as * const c_char) ; table . set_unicode = (gd_api . godot_method_bind_get_method) (class_name , "set_unicode\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:280:4411 [INFO] [stdout] | [INFO] [stdout] 280 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:286:4150 [INFO] [stdout] | [INFO] [stdout] 286 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:292:4445 [INFO] [stdout] | [INFO] [stdout] 292 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 ConvexPolygonShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_convexpolygonshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nConvexPolygonShape 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 ConvexPolygonShape { this : RawObject < Self > , } impl ConvexPolygonShape { # [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 = ConvexPolygonShapeMethodTable :: 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 list of 3D points forming the convex polygon shape."] # [doc = ""] # [inline] pub fn points (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = ConvexPolygonShapeMethodTable :: get (get_api ()) . get_points ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = "The list of 3D points forming the convex polygon shape."] # [doc = ""] # [inline] pub fn set_points (& self , points : Vector3Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ConvexPolygonShapeMethodTable :: get (get_api ()) . set_points ; let ret = crate :: icalls :: icallptr_void_vec3arr (method_bind , self . this . sys () . as_ptr () , points) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ConvexPolygonShape { } unsafe impl GodotObject for ConvexPolygonShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ConvexPolygonShape" } } impl std :: ops :: Deref for ConvexPolygonShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ConvexPolygonShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for ConvexPolygonShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ConvexPolygonShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ConvexPolygonShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for ConvexPolygonShape { } impl Instanciable for ConvexPolygonShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ConvexPolygonShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ConvexPolygonShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_points : * mut sys :: godot_method_bind , pub set_points : * mut sys :: godot_method_bind } impl ConvexPolygonShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ConvexPolygonShapeMethodTable = ConvexPolygonShapeMethodTable { class_constructor : None , get_points : 0 as * mut sys :: godot_method_bind , set_points : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ConvexPolygonShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ConvexPolygonShape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_points = (gd_api . godot_method_bind_get_method) (class_name , "get_points\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) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:298:11972 [INFO] [stdout] | [INFO] [stdout] 298 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AnimationNode` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnode.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNode 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 AnimationNode { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct FilterAction (pub i64) ; impl FilterAction { pub const IGNORE : FilterAction = FilterAction (0i64) ; pub const PASS : FilterAction = FilterAction (1i64) ; pub const STOP : FilterAction = FilterAction (2i64) ; pub const BLEND : FilterAction = FilterAction (3i64) ; } impl From < i64 > for FilterAction { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < FilterAction > for i64 { # [inline] fn from (v : FilterAction) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationNode { pub const FILTER_BLEND : i64 = 3i64 ; pub const FILTER_IGNORE : i64 = 0i64 ; pub const FILTER_PASS : i64 = 1i64 ; pub const FILTER_STOP : i64 = 2i64 ; } impl AnimationNode { # [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 = AnimationNodeMethodTable :: 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 to the node. This is only useful for nodes created for use in an [AnimationNodeBlendTree]."] # [doc = ""] # [inline] pub fn add_input (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . add_input ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Blend an animation by `blend` amount (name must be valid in the linked [AnimationPlayer]). A `time` and `delta` may be passed, as well as whether `seek` happened."] # [doc = ""] # [inline] pub fn blend_animation (& self , animation : impl Into < GodotString > , time : f64 , delta : f64 , seeked : bool , blend : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . blend_animation ; let ret = crate :: icalls :: icallptr_void_str_f64_f64_bool_f64 (method_bind , self . this . sys () . as_ptr () , animation . into () , time , delta , seeked , blend) ; } } # [doc = "Blend an input. This is only useful for nodes created for an [AnimationNodeBlendTree]. The `time` parameter is a relative delta, unless `seek` is `true`, in which case it is absolute. A filter mode may be optionally passed (see [enum FilterAction] for options).\n# Default Arguments\n* `filter` - `0`\n* `optimize` - `true`"] # [doc = ""] # [inline] pub fn blend_input (& self , input_index : i64 , time : f64 , seek : bool , blend : f64 , filter : i64 , optimize : bool) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . blend_input ; let ret = crate :: icalls :: icallptr_f64_i64_f64_bool_f64_i64_bool (method_bind , self . this . sys () . as_ptr () , input_index , time , seek , blend , filter , optimize) ; ret as _ } } # [doc = "Blend another animation node (in case this node contains children animation nodes). This function is only useful if you inherit from [AnimationRootNode] instead, else editors will not display your node for addition.\n# Default Arguments\n* `filter` - `0`\n* `optimize` - `true`"] # [doc = ""] # [inline] pub fn blend_node (& self , name : impl Into < GodotString > , node : impl AsArg < crate :: generated :: animation_node :: AnimationNode > , time : f64 , seek : bool , blend : f64 , filter : i64 , optimize : bool) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . blend_node ; let ret = crate :: icalls :: icallptr_f64_str_obj_f64_bool_f64_i64_bool (method_bind , self . this . sys () . as_ptr () , name . into () , node . as_arg_ptr () , time , seek , blend , filter , optimize) ; ret as _ } } # [doc = "Amount of inputs in this node, only useful for nodes that go into [AnimationNodeBlendTree]."] # [doc = ""] # [inline] pub fn get_input_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . get_input_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets the name of an input by index."] # [doc = ""] # [inline] pub fn get_input_name (& self , input : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . get_input_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , input) ; GodotString :: from_sys (ret) } } # [doc = "Gets the value of a parameter. Parameters are custom local memory used for your nodes, given a resource can be reused in multiple trees."] # [doc = ""] # [inline] pub fn get_parameter (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . get_parameter ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Variant :: from_sys (ret) } } # [doc = "If `true`, filtering is enabled."] # [doc = ""] # [inline] pub fn is_filter_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . is_filter_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` whether a given path is filtered."] # [doc = ""] # [inline] pub fn is_path_filtered (& self , path : impl Into < NodePath >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . is_path_filtered ; let ret = crate :: icalls :: icallptr_bool_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ret as _ } } # [doc = "Removes an input, call this only when inactive."] # [doc = ""] # [inline] pub fn remove_input (& self , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . remove_input ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , index) ; } } # [doc = "If `true`, filtering is enabled."] # [doc = ""] # [inline] pub fn set_filter_enabled (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . set_filter_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Adds or removes a path for the filter."] # [doc = ""] # [inline] pub fn set_filter_path (& self , path : impl Into < NodePath > , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . set_filter_path ; let ret = crate :: icalls :: icallptr_void_nodepath_bool (method_bind , self . this . sys () . as_ptr () , path . into () , enable) ; } } # [doc = "Sets a custom parameter. These are used as local storage, because resources can be reused across the tree or scenes."] # [doc = ""] # [inline] pub fn set_parameter (& self , name : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeMethodTable :: get (get_api ()) . set_parameter ; 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 AnimationNode { } unsafe impl GodotObject for AnimationNode { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNode" } } impl std :: ops :: Deref for AnimationNode { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AnimationNode { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNode { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNode { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNode { } impl Instanciable for AnimationNode { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNode :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_input : * mut sys :: godot_method_bind , pub blend_animation : * mut sys :: godot_method_bind , pub blend_input : * mut sys :: godot_method_bind , pub blend_node : * mut sys :: godot_method_bind , pub get_input_count : * mut sys :: godot_method_bind , pub get_input_name : * mut sys :: godot_method_bind , pub get_parameter : * mut sys :: godot_method_bind , pub is_filter_enabled : * mut sys :: godot_method_bind , pub is_path_filtered : * mut sys :: godot_method_bind , pub remove_input : * mut sys :: godot_method_bind , pub set_filter_enabled : * mut sys :: godot_method_bind , pub set_filter_path : * mut sys :: godot_method_bind , pub set_parameter : * mut sys :: godot_method_bind } impl AnimationNodeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeMethodTable = AnimationNodeMethodTable { class_constructor : None , add_input : 0 as * mut sys :: godot_method_bind , blend_animation : 0 as * mut sys :: godot_method_bind , blend_input : 0 as * mut sys :: godot_method_bind , blend_node : 0 as * mut sys :: godot_method_bind , get_input_count : 0 as * mut sys :: godot_method_bind , get_input_name : 0 as * mut sys :: godot_method_bind , get_parameter : 0 as * mut sys :: godot_method_bind , is_filter_enabled : 0 as * mut sys :: godot_method_bind , is_path_filtered : 0 as * mut sys :: godot_method_bind , remove_input : 0 as * mut sys :: godot_method_bind , set_filter_enabled : 0 as * mut sys :: godot_method_bind , set_filter_path : 0 as * mut sys :: godot_method_bind , set_parameter : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AnimationNodeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNode\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_input = (gd_api . godot_method_bind_get_method) (class_name , "add_input\0" . as_ptr () as * const c_char) ; table . blend_animation = (gd_api . godot_method_bind_get_method) (class_name , "blend_animation\0" . as_ptr () as * const c_char) ; table . blend_input = (gd_api . godot_method_bind_get_method) (class_name , "blend_input\0" . as_ptr () as * const c_char) ; table . blend_node = (gd_api . godot_method_bind_get_method) (class_name , "blend_node\0" . as_ptr () as * const c_char) ; table . get_input_count = (gd_api . godot_method_bind_get_method) (class_name , "get_input_count\0" . as_ptr () as * const c_char) ; table . get_input_name = (gd_api . godot_method_bind_get_method) (class_name , "get_input_name\0" . as_ptr () as * const c_char) ; table . get_parameter = (gd_api . godot_method_bind_get_method) (class_name , "get_parameter\0" . as_ptr () as * const c_char) ; table . is_filter_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_filter_enabled\0" . as_ptr () as * const c_char) ; table . is_path_filtered = (gd_api . godot_method_bind_get_method) (class_name , "is_path_filtered\0" . as_ptr () as * const c_char) ; table . remove_input = (gd_api . godot_method_bind_get_method) (class_name , "remove_input\0" . as_ptr () as * const c_char) ; table . set_filter_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_filter_enabled\0" . as_ptr () as * const c_char) ; table . set_filter_path = (gd_api . godot_method_bind_get_method) (class_name , "set_filter_path\0" . as_ptr () as * const c_char) ; table . set_parameter = (gd_api . godot_method_bind_get_method) (class_name , "set_parameter\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:304:5471 [INFO] [stdout] | [INFO] [stdout] 304 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualScriptTypeCast` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscripttypecast.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptTypeCast 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 VisualScriptTypeCast { this : RawObject < Self > , } impl VisualScriptTypeCast { # [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 = VisualScriptTypeCastMethodTable :: 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_script (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptTypeCastMethodTable :: 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 = VisualScriptTypeCastMethodTable :: 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 set_base_script (& self , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptTypeCastMethodTable :: get (get_api ()) . set_base_script ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_base_type (& self , _type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptTypeCastMethodTable :: get (get_api ()) . set_base_type ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , _type . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptTypeCast { } unsafe impl GodotObject for VisualScriptTypeCast { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptTypeCast" } } impl std :: ops :: Deref for VisualScriptTypeCast { 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 VisualScriptTypeCast { # [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 VisualScriptTypeCast { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptTypeCast { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptTypeCast { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptTypeCast { } impl Instanciable for VisualScriptTypeCast { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptTypeCast :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptTypeCastMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_base_script : * mut sys :: godot_method_bind , pub get_base_type : * mut sys :: godot_method_bind , pub set_base_script : * mut sys :: godot_method_bind , pub set_base_type : * mut sys :: godot_method_bind } impl VisualScriptTypeCastMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptTypeCastMethodTable = VisualScriptTypeCastMethodTable { class_constructor : None , get_base_script : 0 as * mut sys :: godot_method_bind , get_base_type : 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 } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptTypeCastMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptTypeCast\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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 . 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) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:310:14782 [INFO] [stdout] | [INFO] [stdout] 310 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:316:25184 [INFO] [stdout] | [INFO] [stdout] 316 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VehicleWheel` inherits `Spatial` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_vehiclewheel.html) in the Godot 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`VehicleWheel` 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\nVehicleWheel 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 VehicleWheel { this : RawObject < Self > , } impl VehicleWheel { # [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 = VehicleWheelMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Slows down the wheel by applying a braking force. The wheel is only slowed down if it is in contact with a surface. The force you need to apply to adequately slow down your vehicle depends on the [member RigidBody.mass] of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 30 range for hard braking."] # [doc = ""] # [inline] pub fn brake (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_brake ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The damping applied to the spring when the spring is being compressed. This value should be between 0.0 (no damping) and 1.0. A value of 0.0 means the car will keep bouncing as the spring keeps its energy. A good value for this is around 0.3 for a normal car, 0.5 for a race car."] # [doc = ""] # [inline] pub fn damping_compression (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_damping_compression ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The damping applied to the spring when relaxing. This value should be between 0.0 (no damping) and 1.0. This value should always be slightly higher than the [member damping_compression] property. For a [member damping_compression] value of 0.3, try a relaxation value of 0.5."] # [doc = ""] # [inline] pub fn damping_relaxation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_damping_relaxation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Accelerates the wheel by applying an engine force. The wheel is only speed up if it is in contact with a surface. The [member RigidBody.mass] of the vehicle has an effect on the acceleration of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 50 range for acceleration.\n**Note:** The simulation does not take the effect of gears into account, you will need to add logic for this if you wish to simulate gears.\nA negative value will result in the wheel reversing."] # [doc = ""] # [inline] pub fn engine_force (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_engine_force ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This determines how much grip this wheel has. It is combined with the friction setting of the surface the wheel is in contact with. 0.0 means no grip, 1.0 is normal grip. For a drift car setup, try setting the grip of the rear wheels slightly lower than the front wheels, or use a lower value to simulate tire wear.\nIt's best to set this to 1.0 when starting out."] # [doc = ""] # [inline] pub fn friction_slip (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_friction_slip ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The radius of the wheel in meters."] # [doc = ""] # [inline] pub fn radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This value affects the roll of your vehicle. If set to 1.0 for all wheels, your vehicle will be prone to rolling over, while a value of 0.0 will resist body roll."] # [doc = ""] # [inline] pub fn roll_influence (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_roll_influence ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the rotational speed of the wheel in revolutions per minute."] # [doc = ""] # [inline] pub fn get_rpm (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_rpm ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a value between 0.0 and 1.0 that indicates whether this wheel is skidding. 0.0 is skidding (the wheel has lost grip, e.g. icy terrain), 1.0 means not skidding (the wheel has full grip, e.g. dry asphalt road)."] # [doc = ""] # [inline] pub fn get_skidinfo (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_skidinfo ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The steering angle for the wheel. Setting this to a non-zero value will result in the vehicle turning when it's moving."] # [doc = ""] # [inline] pub fn steering (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_steering ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum force the spring can resist. This value should be higher than a quarter of the [member RigidBody.mass] of the [VehicleBody] or the spring will not carry the weight of the vehicle. Good results are often obtained by a value that is about 3× to 4× this number."] # [doc = ""] # [inline] pub fn suspension_max_force (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_suspension_max_force ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This is the distance in meters the wheel is lowered from its origin point. Don't set this to 0.0 and move the wheel into position, instead move the origin point of your wheel (the gizmo in Godot) to the position the wheel will take when bottoming out, then use the rest length to move the wheel down to the position it should be in when the car is in rest."] # [doc = ""] # [inline] pub fn suspension_rest_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_suspension_rest_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This value defines the stiffness of the suspension. Use a value lower than 50 for an off-road car, a value between 50 and 100 for a race car and try something around 200 for something like a Formula 1 car."] # [doc = ""] # [inline] pub fn suspension_stiffness (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_suspension_stiffness ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "This is the distance the suspension can travel. As Godot units are equivalent to meters, keep this setting relatively low. Try a value between 0.1 and 0.3 depending on the type of car."] # [doc = ""] # [inline] pub fn suspension_travel (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . get_suspension_travel ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this wheel is in contact with a surface."] # [doc = ""] # [inline] pub fn is_in_contact (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . is_in_contact ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this wheel will be turned when the car steers. This value is used in conjunction with [member VehicleBody.steering] and ignored if you are using the per-wheel [member steering] value instead."] # [doc = ""] # [inline] pub fn is_used_as_steering (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . is_used_as_steering ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this wheel transfers engine force to the ground to propel the vehicle forward. This value is used in conjunction with [member VehicleBody.engine_force] and ignored if you are using the per-wheel [member engine_force] value instead."] # [doc = ""] # [inline] pub fn is_used_as_traction (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . is_used_as_traction ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Slows down the wheel by applying a braking force. The wheel is only slowed down if it is in contact with a surface. The force you need to apply to adequately slow down your vehicle depends on the [member RigidBody.mass] of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 30 range for hard braking."] # [doc = ""] # [inline] pub fn set_brake (& self , brake : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_brake ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , brake) ; } } # [doc = "The damping applied to the spring when the spring is being compressed. This value should be between 0.0 (no damping) and 1.0. A value of 0.0 means the car will keep bouncing as the spring keeps its energy. A good value for this is around 0.3 for a normal car, 0.5 for a race car."] # [doc = ""] # [inline] pub fn set_damping_compression (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_damping_compression ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "The damping applied to the spring when relaxing. This value should be between 0.0 (no damping) and 1.0. This value should always be slightly higher than the [member damping_compression] property. For a [member damping_compression] value of 0.3, try a relaxation value of 0.5."] # [doc = ""] # [inline] pub fn set_damping_relaxation (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_damping_relaxation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "Accelerates the wheel by applying an engine force. The wheel is only speed up if it is in contact with a surface. The [member RigidBody.mass] of the vehicle has an effect on the acceleration of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 50 range for acceleration.\n**Note:** The simulation does not take the effect of gears into account, you will need to add logic for this if you wish to simulate gears.\nA negative value will result in the wheel reversing."] # [doc = ""] # [inline] pub fn set_engine_force (& self , engine_force : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_engine_force ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , engine_force) ; } } # [doc = "This determines how much grip this wheel has. It is combined with the friction setting of the surface the wheel is in contact with. 0.0 means no grip, 1.0 is normal grip. For a drift car setup, try setting the grip of the rear wheels slightly lower than the front wheels, or use a lower value to simulate tire wear.\nIt's best to set this to 1.0 when starting out."] # [doc = ""] # [inline] pub fn set_friction_slip (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_friction_slip ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "The radius of the wheel in meters."] # [doc = ""] # [inline] pub fn set_radius (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "This value affects the roll of your vehicle. If set to 1.0 for all wheels, your vehicle will be prone to rolling over, while a value of 0.0 will resist body roll."] # [doc = ""] # [inline] pub fn set_roll_influence (& self , roll_influence : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_roll_influence ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , roll_influence) ; } } # [doc = "The steering angle for the wheel. Setting this to a non-zero value will result in the vehicle turning when it's moving."] # [doc = ""] # [inline] pub fn set_steering (& self , steering : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_steering ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , steering) ; } } # [doc = "The maximum force the spring can resist. This value should be higher than a quarter of the [member RigidBody.mass] of the [VehicleBody] or the spring will not carry the weight of the vehicle. Good results are often obtained by a value that is about 3× to 4× this number."] # [doc = ""] # [inline] pub fn set_suspension_max_force (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_suspension_max_force ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "This is the distance in meters the wheel is lowered from its origin point. Don't set this to 0.0 and move the wheel into position, instead move the origin point of your wheel (the gizmo in Godot) to the position the wheel will take when bottoming out, then use the rest length to move the wheel down to the position it should be in when the car is in rest."] # [doc = ""] # [inline] pub fn set_suspension_rest_length (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_suspension_rest_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "This value defines the stiffness of the suspension. Use a value lower than 50 for an off-road car, a value between 50 and 100 for a race car and try something around 200 for something like a Formula 1 car."] # [doc = ""] # [inline] pub fn set_suspension_stiffness (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_suspension_stiffness ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "This is the distance the suspension can travel. As Godot units are equivalent to meters, keep this setting relatively low. Try a value between 0.1 and 0.3 depending on the type of car."] # [doc = ""] # [inline] pub fn set_suspension_travel (& self , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_suspension_travel ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , length) ; } } # [doc = "If `true`, this wheel will be turned when the car steers. This value is used in conjunction with [member VehicleBody.steering] and ignored if you are using the per-wheel [member steering] value instead."] # [doc = ""] # [inline] pub fn set_use_as_steering (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_use_as_steering ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, this wheel transfers engine force to the ground to propel the vehicle forward. This value is used in conjunction with [member VehicleBody.engine_force] and ignored if you are using the per-wheel [member engine_force] value instead."] # [doc = ""] # [inline] pub fn set_use_as_traction (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VehicleWheelMethodTable :: get (get_api ()) . set_use_as_traction ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VehicleWheel { } unsafe impl GodotObject for VehicleWheel { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "VehicleWheel" } } impl QueueFree for VehicleWheel { # [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 VehicleWheel { type Target = crate :: generated :: spatial :: Spatial ; # [inline] fn deref (& self) -> & crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VehicleWheel { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: spatial :: Spatial { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for VehicleWheel { } unsafe impl SubClass < crate :: generated :: node :: Node > for VehicleWheel { } unsafe impl SubClass < crate :: generated :: object :: Object > for VehicleWheel { } impl Instanciable for VehicleWheel { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VehicleWheel :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VehicleWheelMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_brake : * mut sys :: godot_method_bind , pub get_damping_compression : * mut sys :: godot_method_bind , pub get_damping_relaxation : * mut sys :: godot_method_bind , pub get_engine_force : * mut sys :: godot_method_bind , pub get_friction_slip : * mut sys :: godot_method_bind , pub get_radius : * mut sys :: godot_method_bind , pub get_roll_influence : * mut sys :: godot_method_bind , pub get_rpm : * mut sys :: godot_method_bind , pub get_skidinfo : * mut sys :: godot_method_bind , pub get_steering : * mut sys :: godot_method_bind , pub get_suspension_max_force : * mut sys :: godot_method_bind , pub get_suspension_rest_length : * mut sys :: godot_method_bind , pub get_suspension_stiffness : * mut sys :: godot_method_bind , pub get_suspension_travel : * mut sys :: godot_method_bind , pub is_in_contact : * mut sys :: godot_method_bind , pub is_used_as_steering : * mut sys :: godot_method_bind , pub is_used_as_traction : * mut sys :: godot_method_bind , pub set_brake : * mut sys :: godot_method_bind , pub set_damping_compression : * mut sys :: godot_method_bind , pub set_damping_relaxation : * mut sys :: godot_method_bind , pub set_engine_force : * mut sys :: godot_method_bind , pub set_friction_slip : * mut sys :: godot_method_bind , pub set_radius : * mut sys :: godot_method_bind , pub set_roll_influence : * mut sys :: godot_method_bind , pub set_steering : * mut sys :: godot_method_bind , pub set_suspension_max_force : * mut sys :: godot_method_bind , pub set_suspension_rest_length : * mut sys :: godot_method_bind , pub set_suspension_stiffness : * mut sys :: godot_method_bind , pub set_suspension_travel : * mut sys :: godot_method_bind , pub set_use_as_steering : * mut sys :: godot_method_bind , pub set_use_as_traction : * mut sys :: godot_method_bind } impl VehicleWheelMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VehicleWheelMethodTable = VehicleWheelMethodTable { class_constructor : None , get_brake : 0 as * mut sys :: godot_method_bind , get_damping_compression : 0 as * mut sys :: godot_method_bind , get_damping_relaxation : 0 as * mut sys :: godot_method_bind , get_engine_force : 0 as * mut sys :: godot_method_bind , get_friction_slip : 0 as * mut sys :: godot_method_bind , get_radius : 0 as * mut sys :: godot_method_bind , get_roll_influence : 0 as * mut sys :: godot_method_bind , get_rpm : 0 as * mut sys :: godot_method_bind , get_skidinfo : 0 as * mut sys :: godot_method_bind , get_steering : 0 as * mut sys :: godot_method_bind , get_suspension_max_force : 0 as * mut sys :: godot_method_bind , get_suspension_rest_length : 0 as * mut sys :: godot_method_bind , get_suspension_stiffness : 0 as * mut sys :: godot_method_bind , get_suspension_travel : 0 as * mut sys :: godot_method_bind , is_in_contact : 0 as * mut sys :: godot_method_bind , is_used_as_steering : 0 as * mut sys :: godot_method_bind , is_used_as_traction : 0 as * mut sys :: godot_method_bind , set_brake : 0 as * mut sys :: godot_method_bind , set_damping_compression : 0 as * mut sys :: godot_method_bind , set_damping_relaxation : 0 as * mut sys :: godot_method_bind , set_engine_force : 0 as * mut sys :: godot_method_bind , set_friction_slip : 0 as * mut sys :: godot_method_bind , set_radius : 0 as * mut sys :: godot_method_bind , set_roll_influence : 0 as * mut sys :: godot_method_bind , set_steering : 0 as * mut sys :: godot_method_bind , set_suspension_max_force : 0 as * mut sys :: godot_method_bind , set_suspension_rest_length : 0 as * mut sys :: godot_method_bind , set_suspension_stiffness : 0 as * mut sys :: godot_method_bind , set_suspension_travel : 0 as * mut sys :: godot_method_bind , set_use_as_steering : 0 as * mut sys :: godot_method_bind , set_use_as_traction : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VehicleWheelMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VehicleWheel\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_brake = (gd_api . godot_method_bind_get_method) (class_name , "get_brake\0" . as_ptr () as * const c_char) ; table . get_damping_compression = (gd_api . godot_method_bind_get_method) (class_name , "get_damping_compression\0" . as_ptr () as * const c_char) ; table . get_damping_relaxation = (gd_api . godot_method_bind_get_method) (class_name , "get_damping_relaxation\0" . as_ptr () as * const c_char) ; table . get_engine_force = (gd_api . godot_method_bind_get_method) (class_name , "get_engine_force\0" . as_ptr () as * const c_char) ; table . get_friction_slip = (gd_api . godot_method_bind_get_method) (class_name , "get_friction_slip\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_roll_influence = (gd_api . godot_method_bind_get_method) (class_name , "get_roll_influence\0" . as_ptr () as * const c_char) ; table . get_rpm = (gd_api . godot_method_bind_get_method) (class_name , "get_rpm\0" . as_ptr () as * const c_char) ; table . get_skidinfo = (gd_api . godot_method_bind_get_method) (class_name , "get_skidinfo\0" . as_ptr () as * const c_char) ; table . get_steering = (gd_api . godot_method_bind_get_method) (class_name , "get_steering\0" . as_ptr () as * const c_char) ; table . get_suspension_max_force = (gd_api . godot_method_bind_get_method) (class_name , "get_suspension_max_force\0" . as_ptr () as * const c_char) ; table . get_suspension_rest_length = (gd_api . godot_method_bind_get_method) (class_name , "get_suspension_rest_length\0" . as_ptr () as * const c_char) ; table . get_suspension_stiffness = (gd_api . godot_method_bind_get_method) (class_name , "get_suspension_stiffness\0" . as_ptr () as * const c_char) ; table . get_suspension_travel = (gd_api . godot_method_bind_get_method) (class_name , "get_suspension_travel\0" . as_ptr () as * const c_char) ; table . is_in_contact = (gd_api . godot_method_bind_get_method) (class_name , "is_in_contact\0" . as_ptr () as * const c_char) ; table . is_used_as_steering = (gd_api . godot_method_bind_get_method) (class_name , "is_used_as_steering\0" . as_ptr () as * const c_char) ; table . is_used_as_traction = (gd_api . godot_method_bind_get_method) (class_name , "is_used_as_traction\0" . as_ptr () as * const c_char) ; table . set_brake = (gd_api . godot_method_bind_get_method) (class_name , "set_brake\0" . as_ptr () as * const c_char) ; table . set_damping_compression = (gd_api . godot_method_bind_get_method) (class_name , "set_damping_compression\0" . as_ptr () as * const c_char) ; table . set_damping_relaxation = (gd_api . godot_method_bind_get_method) (class_name , "set_damping_relaxation\0" . as_ptr () as * const c_char) ; table . set_engine_force = (gd_api . godot_method_bind_get_method) (class_name , "set_engine_force\0" . as_ptr () as * const c_char) ; table . set_friction_slip = (gd_api . godot_method_bind_get_method) (class_name , "set_friction_slip\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_roll_influence = (gd_api . godot_method_bind_get_method) (class_name , "set_roll_influence\0" . as_ptr () as * const c_char) ; table . set_steering = (gd_api . godot_method_bind_get_method) (class_name , "set_steering\0" . as_ptr () as * const c_char) ; table . set_suspension_max_force = (gd_api . godot_method_bind_get_method) (class_name , "set_suspension_max_force\0" . as_ptr () as * const c_char) ; table . set_suspension_rest_length = (gd_api . godot_method_bind_get_method) (class_name , "set_suspension_rest_length\0" . as_ptr () as * const c_char) ; table . set_suspension_stiffness = (gd_api . godot_method_bind_get_method) (class_name , "set_suspension_stiffness\0" . as_ptr () as * const c_char) ; table . set_suspension_travel = (gd_api . godot_method_bind_get_method) (class_name , "set_suspension_travel\0" . as_ptr () as * const c_char) ; table . set_use_as_steering = (gd_api . godot_method_bind_get_method) (class_name , "set_use_as_steering\0" . as_ptr () as * const c_char) ; table . set_use_as_traction = (gd_api . godot_method_bind_get_method) (class_name , "set_use_as_traction\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:322:7307 [INFO] [stdout] | [INFO] [stdout] 322 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNode` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernode.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNode 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 VisualShaderNode { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PortType (pub i64) ; impl PortType { pub const SCALAR : PortType = PortType (0i64) ; pub const VECTOR : PortType = PortType (1i64) ; pub const BOOLEAN : PortType = PortType (2i64) ; pub const TRANSFORM : PortType = PortType (3i64) ; pub const SAMPLER : PortType = PortType (4i64) ; pub const MAX : PortType = PortType (5i64) ; } impl From < i64 > for PortType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PortType > for i64 { # [inline] fn from (v : PortType) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShaderNode { pub const PORT_TYPE_BOOLEAN : i64 = 2i64 ; pub const PORT_TYPE_MAX : i64 = 5i64 ; pub const PORT_TYPE_SAMPLER : i64 = 4i64 ; pub const PORT_TYPE_SCALAR : i64 = 0i64 ; pub const PORT_TYPE_TRANSFORM : i64 = 3i64 ; pub const PORT_TYPE_VECTOR : i64 = 1i64 ; } impl VisualShaderNode { # [doc = "Returns an [Array] containing default values for all of the input ports of the node in the form `[index0, value0, index1, value1, ...]`."] # [doc = ""] # [inline] pub fn default_input_values (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeMethodTable :: get (get_api ()) . get_default_input_values ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the default value of the input `port`."] # [doc = ""] # [inline] pub fn get_input_port_default_value (& self , port : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeMethodTable :: get (get_api ()) . get_input_port_default_value ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , port) ; Variant :: from_sys (ret) } } # [doc = "Sets the output port index which will be showed for preview. If set to `-1` no port will be open for preview."] # [doc = ""] # [inline] pub fn output_port_for_preview (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeMethodTable :: get (get_api ()) . get_output_port_for_preview ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets the default input ports values using an [Array] of the form `[index0, value0, index1, value1, ...]`. For example: `[0, Vector3(0, 0, 0), 1, Vector3(0, 0, 0)]`."] # [doc = ""] # [inline] pub fn set_default_input_values (& self , values : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeMethodTable :: get (get_api ()) . set_default_input_values ; let ret = crate :: icalls :: icallptr_void_arr (method_bind , self . this . sys () . as_ptr () , values) ; } } # [doc = "Sets the default value for the selected input `port`."] # [doc = ""] # [inline] pub fn set_input_port_default_value (& self , port : i64 , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeMethodTable :: get (get_api ()) . set_input_port_default_value ; let ret = crate :: icalls :: icallptr_void_i64_var (method_bind , self . this . sys () . as_ptr () , port , value . owned_to_variant ()) ; } } # [doc = "Sets the output port index which will be showed for preview. If set to `-1` no port will be open for preview."] # [doc = ""] # [inline] pub fn set_output_port_for_preview (& self , port : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeMethodTable :: get (get_api ()) . set_output_port_for_preview ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , port) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNode { } unsafe impl GodotObject for VisualShaderNode { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNode" } } impl std :: ops :: Deref for VisualShaderNode { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNode { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNode { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNode { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNode { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_default_input_values : * mut sys :: godot_method_bind , pub get_input_port_default_value : * mut sys :: godot_method_bind , pub get_output_port_for_preview : * mut sys :: godot_method_bind , pub set_default_input_values : * mut sys :: godot_method_bind , pub set_input_port_default_value : * mut sys :: godot_method_bind , pub set_output_port_for_preview : * mut sys :: godot_method_bind } impl VisualShaderNodeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeMethodTable = VisualShaderNodeMethodTable { class_constructor : None , get_default_input_values : 0 as * mut sys :: godot_method_bind , get_input_port_default_value : 0 as * mut sys :: godot_method_bind , get_output_port_for_preview : 0 as * mut sys :: godot_method_bind , set_default_input_values : 0 as * mut sys :: godot_method_bind , set_input_port_default_value : 0 as * mut sys :: godot_method_bind , set_output_port_for_preview : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNode\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_default_input_values = (gd_api . godot_method_bind_get_method) (class_name , "get_default_input_values\0" . as_ptr () as * const c_char) ; table . get_input_port_default_value = (gd_api . godot_method_bind_get_method) (class_name , "get_input_port_default_value\0" . as_ptr () as * const c_char) ; table . get_output_port_for_preview = (gd_api . godot_method_bind_get_method) (class_name , "get_output_port_for_preview\0" . as_ptr () as * const c_char) ; table . set_default_input_values = (gd_api . godot_method_bind_get_method) (class_name , "set_default_input_values\0" . as_ptr () as * const c_char) ; table . set_input_port_default_value = (gd_api . godot_method_bind_get_method) (class_name , "set_input_port_default_value\0" . as_ptr () as * const c_char) ; table . set_output_port_for_preview = (gd_api . godot_method_bind_get_method) (class_name , "set_output_port_for_preview\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:328:4643 [INFO] [stdout] | [INFO] [stdout] 328 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:334:6088 [INFO] [stdout] | [INFO] [stdout] 334 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 MultiMeshInstance` inherits `GeometryInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_multimeshinstance.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`MultiMeshInstance` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nMultiMeshInstance inherits methods from:\n - [GeometryInstance](struct.GeometryInstance.html)\n - [VisualInstance](struct.VisualInstance.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct MultiMeshInstance { this : RawObject < Self > , } impl MultiMeshInstance { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = MultiMeshInstanceMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The [MultiMesh] resource that will be used and shared among all instances of the [MultiMeshInstance]."] # [doc = ""] # [inline] pub fn multimesh (& self) -> Option < Ref < crate :: generated :: multi_mesh :: MultiMesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiMeshInstanceMethodTable :: get (get_api ()) . get_multimesh ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: multi_mesh :: MultiMesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [MultiMesh] resource that will be used and shared among all instances of the [MultiMeshInstance]."] # [doc = ""] # [inline] pub fn set_multimesh (& self , multimesh : impl AsArg < crate :: generated :: multi_mesh :: MultiMesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MultiMeshInstanceMethodTable :: get (get_api ()) . set_multimesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , multimesh . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for MultiMeshInstance { } unsafe impl GodotObject for MultiMeshInstance { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "MultiMeshInstance" } } impl QueueFree for MultiMeshInstance { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for MultiMeshInstance { type Target = crate :: generated :: geometry_instance :: GeometryInstance ; # [inline] fn deref (& self) -> & crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for MultiMeshInstance { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: geometry_instance :: GeometryInstance { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: geometry_instance :: GeometryInstance > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: visual_instance :: VisualInstance > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: node :: Node > for MultiMeshInstance { } unsafe impl SubClass < crate :: generated :: object :: Object > for MultiMeshInstance { } impl Instanciable for MultiMeshInstance { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { MultiMeshInstance :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MultiMeshInstanceMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_multimesh : * mut sys :: godot_method_bind , pub set_multimesh : * mut sys :: godot_method_bind } impl MultiMeshInstanceMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MultiMeshInstanceMethodTable = MultiMeshInstanceMethodTable { class_constructor : None , get_multimesh : 0 as * mut sys :: godot_method_bind , set_multimesh : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { MultiMeshInstanceMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "MultiMeshInstance\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_multimesh = (gd_api . godot_method_bind_get_method) (class_name , "get_multimesh\0" . as_ptr () as * const c_char) ; table . set_multimesh = (gd_api . godot_method_bind_get_method) (class_name , "set_multimesh\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:340:14839 [INFO] [stdout] | [INFO] [stdout] 340 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:346:44846 [INFO] [stdout] | [INFO] [stdout] 346 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 TileSet` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_tileset.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nTileSet inherits methods from:\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct TileSet { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct AutotileBindings (pub i64) ; impl AutotileBindings { pub const TOPLEFT : AutotileBindings = AutotileBindings (1i64) ; pub const TOP : AutotileBindings = AutotileBindings (2i64) ; pub const TOPRIGHT : AutotileBindings = AutotileBindings (4i64) ; pub const LEFT : AutotileBindings = AutotileBindings (8i64) ; pub const CENTER : AutotileBindings = AutotileBindings (16i64) ; pub const RIGHT : AutotileBindings = AutotileBindings (32i64) ; pub const BOTTOMLEFT : AutotileBindings = AutotileBindings (64i64) ; pub const BOTTOM : AutotileBindings = AutotileBindings (128i64) ; pub const BOTTOMRIGHT : AutotileBindings = AutotileBindings (256i64) ; } impl From < i64 > for AutotileBindings { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < AutotileBindings > for i64 { # [inline] fn from (v : AutotileBindings) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BitmaskMode (pub i64) ; impl BitmaskMode { pub const _2X2 : BitmaskMode = BitmaskMode (0i64) ; pub const _3X3_MINIMAL : BitmaskMode = BitmaskMode (1i64) ; pub const _3X3 : BitmaskMode = BitmaskMode (2i64) ; } impl From < i64 > for BitmaskMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BitmaskMode > for i64 { # [inline] fn from (v : BitmaskMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TileMode (pub i64) ; impl TileMode { pub const SINGLE_TILE : TileMode = TileMode (0i64) ; pub const AUTO_TILE : TileMode = TileMode (1i64) ; pub const ATLAS_TILE : TileMode = TileMode (2i64) ; } impl From < i64 > for TileMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TileMode > for i64 { # [inline] fn from (v : TileMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl TileSet { pub const ATLAS_TILE : i64 = 2i64 ; pub const AUTO_TILE : i64 = 1i64 ; pub const BIND_BOTTOM : i64 = 128i64 ; pub const BIND_BOTTOMLEFT : i64 = 64i64 ; pub const BIND_BOTTOMRIGHT : i64 = 256i64 ; pub const BIND_CENTER : i64 = 16i64 ; pub const BIND_LEFT : i64 = 8i64 ; pub const BIND_RIGHT : i64 = 32i64 ; pub const BIND_TOP : i64 = 2i64 ; pub const BIND_TOPLEFT : i64 = 1i64 ; pub const BIND_TOPRIGHT : i64 = 4i64 ; pub const BITMASK_2X2 : i64 = 0i64 ; pub const BITMASK_3X3 : i64 = 2i64 ; pub const BITMASK_3X3_MINIMAL : i64 = 1i64 ; pub const SINGLE_TILE : i64 = 0i64 ; } impl TileSet { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = TileSetMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Clears all bitmask information of the autotile."] # [doc = ""] # [inline] pub fn autotile_clear_bitmask_map (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_clear_bitmask_map ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Returns the bitmask of the subtile from an autotile given its coordinates.\nThe value is the sum of the values in [enum AutotileBindings] present in the subtile (e.g. a value of 5 means the bitmask has bindings in both the top left and top right)."] # [doc = ""] # [inline] pub fn autotile_get_bitmask (& self , id : i64 , coord : Vector2) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_bitmask ; let ret = crate :: icalls :: icallptr_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ret as _ } } # [doc = "Returns the [enum BitmaskMode] of the autotile."] # [doc = ""] # [inline] pub fn autotile_get_bitmask_mode (& self , id : i64) -> crate :: generated :: tile_set :: BitmaskMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_bitmask_mode ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; crate :: generated :: tile_set :: BitmaskMode (ret) } } # [doc = "Returns the subtile that's being used as an icon in an atlas/autotile given its coordinates.\nThe subtile defined as the icon will be used as a fallback when the atlas/autotile's bitmask information is incomplete. It will also be used to represent it in the TileSet editor."] # [doc = ""] # [inline] pub fn autotile_get_icon_coordinate (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_icon_coordinate ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the light occluder of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_get_light_occluder (& self , id : i64 , coord : Vector2) -> Option < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_light_occluder ; let ret = crate :: icalls :: icallptr_obj_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the navigation polygon of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_get_navigation_polygon (& self , id : i64 , coord : Vector2) -> Option < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_navigation_polygon ; let ret = crate :: icalls :: icallptr_obj_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the size of the subtiles in an atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_get_size (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_size ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the spacing between subtiles of the atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_get_spacing (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_spacing ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns the priority of the subtile from an autotile given its coordinates.\nWhen more than one subtile has the same bitmask value, one of them will be picked randomly for drawing. Its priority will define how often it will be picked."] # [doc = ""] # [inline] pub fn autotile_get_subtile_priority (& self , id : i64 , coord : Vector2) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_subtile_priority ; let ret = crate :: icalls :: icallptr_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ret as _ } } # [doc = "Returns the drawing index of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_get_z_index (& self , id : i64 , coord : Vector2) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_get_z_index ; let ret = crate :: icalls :: icallptr_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; ret as _ } } # [doc = "Sets the bitmask of the subtile from an autotile given its coordinates.\nThe value is the sum of the values in [enum AutotileBindings] present in the subtile (e.g. a value of 5 means the bitmask has bindings in both the top left and top right)."] # [doc = ""] # [inline] pub fn autotile_set_bitmask (& self , id : i64 , bitmask : Vector2 , flag : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_bitmask ; let ret = crate :: icalls :: icallptr_void_i64_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id , bitmask , flag) ; } } # [doc = "Sets the [enum BitmaskMode] of the autotile."] # [doc = ""] # [inline] pub fn autotile_set_bitmask_mode (& self , id : i64 , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_bitmask_mode ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , mode) ; } } # [doc = "Sets the subtile that will be used as an icon in an atlas/autotile given its coordinates.\nThe subtile defined as the icon will be used as a fallback when the atlas/autotile's bitmask information is incomplete. It will also be used to represent it in the TileSet editor."] # [doc = ""] # [inline] pub fn autotile_set_icon_coordinate (& self , id : i64 , coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_icon_coordinate ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , coord) ; } } # [doc = "Sets the light occluder of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_set_light_occluder (& self , id : i64 , light_occluder : impl AsArg < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D > , coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_light_occluder ; let ret = crate :: icalls :: icallptr_void_i64_obj_vec2 (method_bind , self . this . sys () . as_ptr () , id , light_occluder . as_arg_ptr () , coord) ; } } # [doc = "Sets the navigation polygon of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_set_navigation_polygon (& self , id : i64 , navigation_polygon : impl AsArg < crate :: generated :: navigation_polygon :: NavigationPolygon > , coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_navigation_polygon ; let ret = crate :: icalls :: icallptr_void_i64_obj_vec2 (method_bind , self . this . sys () . as_ptr () , id , navigation_polygon . as_arg_ptr () , coord) ; } } # [doc = "Sets the size of the subtiles in an atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_set_size (& self , id : i64 , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_size ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , size) ; } } # [doc = "Sets the spacing between subtiles of the atlas/autotile."] # [doc = ""] # [inline] pub fn autotile_set_spacing (& self , id : i64 , spacing : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_spacing ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , spacing) ; } } # [doc = "Sets the priority of the subtile from an autotile given its coordinates.\nWhen more than one subtile has the same bitmask value, one of them will be picked randomly for drawing. Its priority will define how often it will be picked."] # [doc = ""] # [inline] pub fn autotile_set_subtile_priority (& self , id : i64 , coord : Vector2 , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_subtile_priority ; let ret = crate :: icalls :: icallptr_void_i64_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id , coord , priority) ; } } # [doc = "Sets the drawing index of the subtile from an atlas/autotile given its coordinates."] # [doc = ""] # [inline] pub fn autotile_set_z_index (& self , id : i64 , coord : Vector2 , z_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . autotile_set_z_index ; let ret = crate :: icalls :: icallptr_void_i64_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id , coord , z_index) ; } } # [doc = "Clears all tiles."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Creates a new tile with the given ID."] # [doc = ""] # [inline] pub fn create_tile (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . create_tile ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Returns the first tile matching the given name."] # [doc = ""] # [inline] pub fn find_tile_by_name (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . find_tile_by_name ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns the ID following the last currently used ID, useful when creating a new tile."] # [doc = ""] # [inline] pub fn get_last_unused_tile_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . get_last_unused_tile_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an array of all currently used tile IDs."] # [doc = ""] # [inline] pub fn get_tiles_ids (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . get_tiles_ids ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Removes the given tile ID."] # [doc = ""] # [inline] pub fn remove_tile (& self , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . remove_tile ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , id) ; } } # [doc = "Adds a shape to the tile.\n# Default Arguments\n* `one_way` - `false`\n* `autotile_coord` - `Vector2( 0, 0 )`"] # [doc = ""] # [inline] pub fn tile_add_shape (& self , id : i64 , shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D > , shape_transform : Transform2D , one_way : bool , autotile_coord : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_add_shape ; let ret = crate :: icalls :: icallptr_void_i64_obj_trans2D_bool_vec2 (method_bind , self . this . sys () . as_ptr () , id , shape . as_arg_ptr () , shape_transform , one_way , autotile_coord) ; } } # [doc = "Returns the tile's light occluder."] # [doc = ""] # [inline] pub fn tile_get_light_occluder (& self , id : i64) -> Option < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_light_occluder ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the tile's material."] # [doc = ""] # [inline] pub fn tile_get_material (& self , id : i64) -> Option < Ref < crate :: generated :: shader_material :: ShaderMaterial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_material ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shader_material :: ShaderMaterial , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the tile's modulation color."] # [doc = ""] # [inline] pub fn tile_get_modulate (& self , id : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_modulate ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile's name."] # [doc = ""] # [inline] pub fn tile_get_name (& self , id : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , id) ; GodotString :: from_sys (ret) } } # [doc = "Returns the navigation polygon of the tile."] # [doc = ""] # [inline] pub fn tile_get_navigation_polygon (& self , id : i64) -> Option < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_navigation_polygon ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: navigation_polygon :: NavigationPolygon , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the offset of the tile's navigation polygon."] # [doc = ""] # [inline] pub fn tile_get_navigation_polygon_offset (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_navigation_polygon_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile's normal map texture."] # [doc = ""] # [inline] pub fn tile_get_normal_map (& self , id : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_normal_map ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the offset of the tile's light occluder."] # [doc = ""] # [inline] pub fn tile_get_occluder_offset (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_occluder_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile sub-region in the texture."] # [doc = ""] # [inline] pub fn tile_get_region (& self , id : i64) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_region ; let ret = crate :: icalls :: icallptr_rect2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns a tile's given shape."] # [doc = ""] # [inline] pub fn tile_get_shape (& self , id : i64 , shape_id : i64) -> Option < Ref < crate :: generated :: shape_2d :: Shape2D , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape ; let ret = crate :: icalls :: icallptr_obj_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shape_2d :: Shape2D , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of shapes assigned to a tile."] # [doc = ""] # [inline] pub fn tile_get_shape_count (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_count ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Returns the offset of a tile's shape."] # [doc = ""] # [inline] pub fn tile_get_shape_offset (& self , id : i64 , shape_id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_offset ; let ret = crate :: icalls :: icallptr_vec2_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; mem :: transmute (ret) } } # [doc = "Returns the one-way collision value of a tile's shape."] # [doc = ""] # [inline] pub fn tile_get_shape_one_way (& self , id : i64 , shape_id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_one_way ; let ret = crate :: icalls :: icallptr_bool_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn tile_get_shape_one_way_margin (& self , id : i64 , shape_id : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_one_way_margin ; let ret = crate :: icalls :: icallptr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; ret as _ } } # [doc = "Returns the [Transform2D] of a tile's shape."] # [doc = ""] # [inline] pub fn tile_get_shape_transform (& self , id : i64 , shape_id : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shape_transform ; let ret = crate :: icalls :: icallptr_trans2D_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , shape_id) ; mem :: transmute (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns an array of dictionaries describing the tile's shapes.\n**Dictionary structure in the array returned by this method:**\n```gdscript\n{\n \"autotile_coord\": Vector2,\n \"one_way\": bool,\n \"one_way_margin\": int,\n \"shape\": CollisionShape2D,\n \"shape_transform\": Transform2D,\n}\n```"] # [doc = ""] # [inline] pub fn tile_get_shapes (& self , id : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_shapes ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , id) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the tile's texture."] # [doc = ""] # [inline] pub fn tile_get_texture (& self , id : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_texture ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the texture offset of the tile."] # [doc = ""] # [inline] pub fn tile_get_texture_offset (& self , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_texture_offset ; let ret = crate :: icalls :: icallptr_vec2_i64 (method_bind , self . this . sys () . as_ptr () , id) ; mem :: transmute (ret) } } # [doc = "Returns the tile's [enum TileMode]."] # [doc = ""] # [inline] pub fn tile_get_tile_mode (& self , id : i64) -> crate :: generated :: tile_set :: TileMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_tile_mode ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; crate :: generated :: tile_set :: TileMode (ret) } } # [doc = "Returns the tile's Z index (drawing layer)."] # [doc = ""] # [inline] pub fn tile_get_z_index (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_get_z_index ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Sets a light occluder for the tile."] # [doc = ""] # [inline] pub fn tile_set_light_occluder (& self , id : i64 , light_occluder : impl AsArg < crate :: generated :: occluder_polygon_2d :: OccluderPolygon2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_light_occluder ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , light_occluder . as_arg_ptr ()) ; } } # [doc = "Sets the tile's material."] # [doc = ""] # [inline] pub fn tile_set_material (& self , id : i64 , material : impl AsArg < crate :: generated :: shader_material :: ShaderMaterial >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_material ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , material . as_arg_ptr ()) ; } } # [doc = "Sets the tile's modulation color."] # [doc = ""] # [inline] pub fn tile_set_modulate (& self , id : i64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_modulate ; let ret = crate :: icalls :: icallptr_void_i64_color (method_bind , self . this . sys () . as_ptr () , id , color) ; } } # [doc = "Sets the tile's name."] # [doc = ""] # [inline] pub fn tile_set_name (& self , id : i64 , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_name ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , id , name . into ()) ; } } # [doc = "Sets the tile's navigation polygon."] # [doc = ""] # [inline] pub fn tile_set_navigation_polygon (& self , id : i64 , navigation_polygon : impl AsArg < crate :: generated :: navigation_polygon :: NavigationPolygon >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_navigation_polygon ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , navigation_polygon . as_arg_ptr ()) ; } } # [doc = "Sets an offset for the tile's navigation polygon."] # [doc = ""] # [inline] pub fn tile_set_navigation_polygon_offset (& self , id : i64 , navigation_polygon_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_navigation_polygon_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , navigation_polygon_offset) ; } } # [doc = "Sets the tile's normal map texture.\n**Note:** Godot expects the normal map to use X+, Y-, and Z+ coordinates. See [url=http://wiki.polycount.com/wiki/Normal_Map_Technical_Details#Common_Swizzle_Coordinates]this page[/url] for a comparison of normal map coordinates expected by popular engines."] # [doc = ""] # [inline] pub fn tile_set_normal_map (& self , id : i64 , normal_map : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_normal_map ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , normal_map . as_arg_ptr ()) ; } } # [doc = "Sets an offset for the tile's light occluder."] # [doc = ""] # [inline] pub fn tile_set_occluder_offset (& self , id : i64 , occluder_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_occluder_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , occluder_offset) ; } } # [doc = "Sets the tile's sub-region in the texture. This is common in texture atlases."] # [doc = ""] # [inline] pub fn tile_set_region (& self , id : i64 , region : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_region ; let ret = crate :: icalls :: icallptr_void_i64_rect2 (method_bind , self . this . sys () . as_ptr () , id , region) ; } } # [doc = "Sets a shape for the tile, enabling collision."] # [doc = ""] # [inline] pub fn tile_set_shape (& self , id : i64 , shape_id : i64 , shape : impl AsArg < crate :: generated :: shape_2d :: Shape2D >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape ; let ret = crate :: icalls :: icallptr_void_i64_i64_obj (method_bind , self . this . sys () . as_ptr () , id , shape_id , shape . as_arg_ptr ()) ; } } # [doc = "Sets the offset of a tile's shape."] # [doc = ""] # [inline] pub fn tile_set_shape_offset (& self , id : i64 , shape_id : i64 , shape_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_offset ; let ret = crate :: icalls :: icallptr_void_i64_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , shape_id , shape_offset) ; } } # [doc = "Enables one-way collision on a tile's shape."] # [doc = ""] # [inline] pub fn tile_set_shape_one_way (& self , id : i64 , shape_id : i64 , one_way : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_one_way ; let ret = crate :: icalls :: icallptr_void_i64_i64_bool (method_bind , self . this . sys () . as_ptr () , id , shape_id , one_way) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn tile_set_shape_one_way_margin (& self , id : i64 , shape_id : i64 , one_way : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_one_way_margin ; let ret = crate :: icalls :: icallptr_void_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , id , shape_id , one_way) ; } } # [doc = "Sets a [Transform2D] on a tile's shape."] # [doc = ""] # [inline] pub fn tile_set_shape_transform (& self , id : i64 , shape_id : i64 , shape_transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shape_transform ; let ret = crate :: icalls :: icallptr_void_i64_i64_trans2D (method_bind , self . this . sys () . as_ptr () , id , shape_id , shape_transform) ; } } # [doc = "Sets an array of shapes for the tile, enabling collision."] # [doc = ""] # [inline] pub fn tile_set_shapes (& self , id : i64 , shapes : VariantArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_shapes ; let ret = crate :: icalls :: icallptr_void_i64_arr (method_bind , self . this . sys () . as_ptr () , id , shapes) ; } } # [doc = "Sets the tile's texture."] # [doc = ""] # [inline] pub fn tile_set_texture (& self , id : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_texture ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , id , texture . as_arg_ptr ()) ; } } # [doc = "Sets the tile's texture offset."] # [doc = ""] # [inline] pub fn tile_set_texture_offset (& self , id : i64 , texture_offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_texture_offset ; let ret = crate :: icalls :: icallptr_void_i64_vec2 (method_bind , self . this . sys () . as_ptr () , id , texture_offset) ; } } # [doc = "Sets the tile's [enum TileMode]."] # [doc = ""] # [inline] pub fn tile_set_tile_mode (& self , id : i64 , tilemode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_tile_mode ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , tilemode) ; } } # [doc = "Sets the tile's drawing index."] # [doc = ""] # [inline] pub fn tile_set_z_index (& self , id : i64 , z_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TileSetMethodTable :: get (get_api ()) . tile_set_z_index ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , id , z_index) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for TileSet { } unsafe impl GodotObject for TileSet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "TileSet" } } impl std :: ops :: Deref for TileSet { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for TileSet { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for TileSet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for TileSet { } unsafe impl SubClass < crate :: generated :: object :: Object > for TileSet { } impl Instanciable for TileSet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { TileSet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TileSetMethodTable { pub class_constructor : sys :: godot_class_constructor , pub autotile_clear_bitmask_map : * mut sys :: godot_method_bind , pub autotile_get_bitmask : * mut sys :: godot_method_bind , pub autotile_get_bitmask_mode : * mut sys :: godot_method_bind , pub autotile_get_icon_coordinate : * mut sys :: godot_method_bind , pub autotile_get_light_occluder : * mut sys :: godot_method_bind , pub autotile_get_navigation_polygon : * mut sys :: godot_method_bind , pub autotile_get_size : * mut sys :: godot_method_bind , pub autotile_get_spacing : * mut sys :: godot_method_bind , pub autotile_get_subtile_priority : * mut sys :: godot_method_bind , pub autotile_get_z_index : * mut sys :: godot_method_bind , pub autotile_set_bitmask : * mut sys :: godot_method_bind , pub autotile_set_bitmask_mode : * mut sys :: godot_method_bind , pub autotile_set_icon_coordinate : * mut sys :: godot_method_bind , pub autotile_set_light_occluder : * mut sys :: godot_method_bind , pub autotile_set_navigation_polygon : * mut sys :: godot_method_bind , pub autotile_set_size : * mut sys :: godot_method_bind , pub autotile_set_spacing : * mut sys :: godot_method_bind , pub autotile_set_subtile_priority : * mut sys :: godot_method_bind , pub autotile_set_z_index : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub create_tile : * mut sys :: godot_method_bind , pub find_tile_by_name : * mut sys :: godot_method_bind , pub get_last_unused_tile_id : * mut sys :: godot_method_bind , pub get_tiles_ids : * mut sys :: godot_method_bind , pub remove_tile : * mut sys :: godot_method_bind , pub tile_add_shape : * mut sys :: godot_method_bind , pub tile_get_light_occluder : * mut sys :: godot_method_bind , pub tile_get_material : * mut sys :: godot_method_bind , pub tile_get_modulate : * mut sys :: godot_method_bind , pub tile_get_name : * mut sys :: godot_method_bind , pub tile_get_navigation_polygon : * mut sys :: godot_method_bind , pub tile_get_navigation_polygon_offset : * mut sys :: godot_method_bind , pub tile_get_normal_map : * mut sys :: godot_method_bind , pub tile_get_occluder_offset : * mut sys :: godot_method_bind , pub tile_get_region : * mut sys :: godot_method_bind , pub tile_get_shape : * mut sys :: godot_method_bind , pub tile_get_shape_count : * mut sys :: godot_method_bind , pub tile_get_shape_offset : * mut sys :: godot_method_bind , pub tile_get_shape_one_way : * mut sys :: godot_method_bind , pub tile_get_shape_one_way_margin : * mut sys :: godot_method_bind , pub tile_get_shape_transform : * mut sys :: godot_method_bind , pub tile_get_shapes : * mut sys :: godot_method_bind , pub tile_get_texture : * mut sys :: godot_method_bind , pub tile_get_texture_offset : * mut sys :: godot_method_bind , pub tile_get_tile_mode : * mut sys :: godot_method_bind , pub tile_get_z_index : * mut sys :: godot_method_bind , pub tile_set_light_occluder : * mut sys :: godot_method_bind , pub tile_set_material : * mut sys :: godot_method_bind , pub tile_set_modulate : * mut sys :: godot_method_bind , pub tile_set_name : * mut sys :: godot_method_bind , pub tile_set_navigation_polygon : * mut sys :: godot_method_bind , pub tile_set_navigation_polygon_offset : * mut sys :: godot_method_bind , pub tile_set_normal_map : * mut sys :: godot_method_bind , pub tile_set_occluder_offset : * mut sys :: godot_method_bind , pub tile_set_region : * mut sys :: godot_method_bind , pub tile_set_shape : * mut sys :: godot_method_bind , pub tile_set_shape_offset : * mut sys :: godot_method_bind , pub tile_set_shape_one_way : * mut sys :: godot_method_bind , pub tile_set_shape_one_way_margin : * mut sys :: godot_method_bind , pub tile_set_shape_transform : * mut sys :: godot_method_bind , pub tile_set_shapes : * mut sys :: godot_method_bind , pub tile_set_texture : * mut sys :: godot_method_bind , pub tile_set_texture_offset : * mut sys :: godot_method_bind , pub tile_set_tile_mode : * mut sys :: godot_method_bind , pub tile_set_z_index : * mut sys :: godot_method_bind } impl TileSetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TileSetMethodTable = TileSetMethodTable { class_constructor : None , autotile_clear_bitmask_map : 0 as * mut sys :: godot_method_bind , autotile_get_bitmask : 0 as * mut sys :: godot_method_bind , autotile_get_bitmask_mode : 0 as * mut sys :: godot_method_bind , autotile_get_icon_coordinate : 0 as * mut sys :: godot_method_bind , autotile_get_light_occluder : 0 as * mut sys :: godot_method_bind , autotile_get_navigation_polygon : 0 as * mut sys :: godot_method_bind , autotile_get_size : 0 as * mut sys :: godot_method_bind , autotile_get_spacing : 0 as * mut sys :: godot_method_bind , autotile_get_subtile_priority : 0 as * mut sys :: godot_method_bind , autotile_get_z_index : 0 as * mut sys :: godot_method_bind , autotile_set_bitmask : 0 as * mut sys :: godot_method_bind , autotile_set_bitmask_mode : 0 as * mut sys :: godot_method_bind , autotile_set_icon_coordinate : 0 as * mut sys :: godot_method_bind , autotile_set_light_occluder : 0 as * mut sys :: godot_method_bind , autotile_set_navigation_polygon : 0 as * mut sys :: godot_method_bind , autotile_set_size : 0 as * mut sys :: godot_method_bind , autotile_set_spacing : 0 as * mut sys :: godot_method_bind , autotile_set_subtile_priority : 0 as * mut sys :: godot_method_bind , autotile_set_z_index : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , create_tile : 0 as * mut sys :: godot_method_bind , find_tile_by_name : 0 as * mut sys :: godot_method_bind , get_last_unused_tile_id : 0 as * mut sys :: godot_method_bind , get_tiles_ids : 0 as * mut sys :: godot_method_bind , remove_tile : 0 as * mut sys :: godot_method_bind , tile_add_shape : 0 as * mut sys :: godot_method_bind , tile_get_light_occluder : 0 as * mut sys :: godot_method_bind , tile_get_material : 0 as * mut sys :: godot_method_bind , tile_get_modulate : 0 as * mut sys :: godot_method_bind , tile_get_name : 0 as * mut sys :: godot_method_bind , tile_get_navigation_polygon : 0 as * mut sys :: godot_method_bind , tile_get_navigation_polygon_offset : 0 as * mut sys :: godot_method_bind , tile_get_normal_map : 0 as * mut sys :: godot_method_bind , tile_get_occluder_offset : 0 as * mut sys :: godot_method_bind , tile_get_region : 0 as * mut sys :: godot_method_bind , tile_get_shape : 0 as * mut sys :: godot_method_bind , tile_get_shape_count : 0 as * mut sys :: godot_method_bind , tile_get_shape_offset : 0 as * mut sys :: godot_method_bind , tile_get_shape_one_way : 0 as * mut sys :: godot_method_bind , tile_get_shape_one_way_margin : 0 as * mut sys :: godot_method_bind , tile_get_shape_transform : 0 as * mut sys :: godot_method_bind , tile_get_shapes : 0 as * mut sys :: godot_method_bind , tile_get_texture : 0 as * mut sys :: godot_method_bind , tile_get_texture_offset : 0 as * mut sys :: godot_method_bind , tile_get_tile_mode : 0 as * mut sys :: godot_method_bind , tile_get_z_index : 0 as * mut sys :: godot_method_bind , tile_set_light_occluder : 0 as * mut sys :: godot_method_bind , tile_set_material : 0 as * mut sys :: godot_method_bind , tile_set_modulate : 0 as * mut sys :: godot_method_bind , tile_set_name : 0 as * mut sys :: godot_method_bind , tile_set_navigation_polygon : 0 as * mut sys :: godot_method_bind , tile_set_navigation_polygon_offset : 0 as * mut sys :: godot_method_bind , tile_set_normal_map : 0 as * mut sys :: godot_method_bind , tile_set_occluder_offset : 0 as * mut sys :: godot_method_bind , tile_set_region : 0 as * mut sys :: godot_method_bind , tile_set_shape : 0 as * mut sys :: godot_method_bind , tile_set_shape_offset : 0 as * mut sys :: godot_method_bind , tile_set_shape_one_way : 0 as * mut sys :: godot_method_bind , tile_set_shape_one_way_margin : 0 as * mut sys :: godot_method_bind , tile_set_shape_transform : 0 as * mut sys :: godot_method_bind , tile_set_shapes : 0 as * mut sys :: godot_method_bind , tile_set_texture : 0 as * mut sys :: godot_method_bind , tile_set_texture_offset : 0 as * mut sys :: godot_method_bind , tile_set_tile_mode : 0 as * mut sys :: godot_method_bind , tile_set_z_index : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TileSetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "TileSet\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . autotile_clear_bitmask_map = (gd_api . godot_method_bind_get_method) (class_name , "autotile_clear_bitmask_map\0" . as_ptr () as * const c_char) ; table . autotile_get_bitmask = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_bitmask\0" . as_ptr () as * const c_char) ; table . autotile_get_bitmask_mode = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_bitmask_mode\0" . as_ptr () as * const c_char) ; table . autotile_get_icon_coordinate = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_icon_coordinate\0" . as_ptr () as * const c_char) ; table . autotile_get_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_light_occluder\0" . as_ptr () as * const c_char) ; table . autotile_get_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_navigation_polygon\0" . as_ptr () as * const c_char) ; table . autotile_get_size = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_size\0" . as_ptr () as * const c_char) ; table . autotile_get_spacing = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_spacing\0" . as_ptr () as * const c_char) ; table . autotile_get_subtile_priority = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_subtile_priority\0" . as_ptr () as * const c_char) ; table . autotile_get_z_index = (gd_api . godot_method_bind_get_method) (class_name , "autotile_get_z_index\0" . as_ptr () as * const c_char) ; table . autotile_set_bitmask = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_bitmask\0" . as_ptr () as * const c_char) ; table . autotile_set_bitmask_mode = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_bitmask_mode\0" . as_ptr () as * const c_char) ; table . autotile_set_icon_coordinate = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_icon_coordinate\0" . as_ptr () as * const c_char) ; table . autotile_set_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_light_occluder\0" . as_ptr () as * const c_char) ; table . autotile_set_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_navigation_polygon\0" . as_ptr () as * const c_char) ; table . autotile_set_size = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_size\0" . as_ptr () as * const c_char) ; table . autotile_set_spacing = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_spacing\0" . as_ptr () as * const c_char) ; table . autotile_set_subtile_priority = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_subtile_priority\0" . as_ptr () as * const c_char) ; table . autotile_set_z_index = (gd_api . godot_method_bind_get_method) (class_name , "autotile_set_z_index\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . create_tile = (gd_api . godot_method_bind_get_method) (class_name , "create_tile\0" . as_ptr () as * const c_char) ; table . find_tile_by_name = (gd_api . godot_method_bind_get_method) (class_name , "find_tile_by_name\0" . as_ptr () as * const c_char) ; table . get_last_unused_tile_id = (gd_api . godot_method_bind_get_method) (class_name , "get_last_unused_tile_id\0" . as_ptr () as * const c_char) ; table . get_tiles_ids = (gd_api . godot_method_bind_get_method) (class_name , "get_tiles_ids\0" . as_ptr () as * const c_char) ; table . remove_tile = (gd_api . godot_method_bind_get_method) (class_name , "remove_tile\0" . as_ptr () as * const c_char) ; table . tile_add_shape = (gd_api . godot_method_bind_get_method) (class_name , "tile_add_shape\0" . as_ptr () as * const c_char) ; table . tile_get_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_light_occluder\0" . as_ptr () as * const c_char) ; table . tile_get_material = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_material\0" . as_ptr () as * const c_char) ; table . tile_get_modulate = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_modulate\0" . as_ptr () as * const c_char) ; table . tile_get_name = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_name\0" . as_ptr () as * const c_char) ; table . tile_get_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_navigation_polygon\0" . as_ptr () as * const c_char) ; table . tile_get_navigation_polygon_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_navigation_polygon_offset\0" . as_ptr () as * const c_char) ; table . tile_get_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_normal_map\0" . as_ptr () as * const c_char) ; table . tile_get_occluder_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_occluder_offset\0" . as_ptr () as * const c_char) ; table . tile_get_region = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_region\0" . as_ptr () as * const c_char) ; table . tile_get_shape = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape\0" . as_ptr () as * const c_char) ; table . tile_get_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_count\0" . as_ptr () as * const c_char) ; table . tile_get_shape_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_offset\0" . as_ptr () as * const c_char) ; table . tile_get_shape_one_way = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_one_way\0" . as_ptr () as * const c_char) ; table . tile_get_shape_one_way_margin = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_one_way_margin\0" . as_ptr () as * const c_char) ; table . tile_get_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shape_transform\0" . as_ptr () as * const c_char) ; table . tile_get_shapes = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_shapes\0" . as_ptr () as * const c_char) ; table . tile_get_texture = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_texture\0" . as_ptr () as * const c_char) ; table . tile_get_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_texture_offset\0" . as_ptr () as * const c_char) ; table . tile_get_tile_mode = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_tile_mode\0" . as_ptr () as * const c_char) ; table . tile_get_z_index = (gd_api . godot_method_bind_get_method) (class_name , "tile_get_z_index\0" . as_ptr () as * const c_char) ; table . tile_set_light_occluder = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_light_occluder\0" . as_ptr () as * const c_char) ; table . tile_set_material = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_material\0" . as_ptr () as * const c_char) ; table . tile_set_modulate = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_modulate\0" . as_ptr () as * const c_char) ; table . tile_set_name = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_name\0" . as_ptr () as * const c_char) ; table . tile_set_navigation_polygon = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_navigation_polygon\0" . as_ptr () as * const c_char) ; table . tile_set_navigation_polygon_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_navigation_polygon_offset\0" . as_ptr () as * const c_char) ; table . tile_set_normal_map = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_normal_map\0" . as_ptr () as * const c_char) ; table . tile_set_occluder_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_occluder_offset\0" . as_ptr () as * const c_char) ; table . tile_set_region = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_region\0" . as_ptr () as * const c_char) ; table . tile_set_shape = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape\0" . as_ptr () as * const c_char) ; table . tile_set_shape_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_offset\0" . as_ptr () as * const c_char) ; table . tile_set_shape_one_way = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_one_way\0" . as_ptr () as * const c_char) ; table . tile_set_shape_one_way_margin = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_one_way_margin\0" . as_ptr () as * const c_char) ; table . tile_set_shape_transform = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shape_transform\0" . as_ptr () as * const c_char) ; table . tile_set_shapes = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_shapes\0" . as_ptr () as * const c_char) ; table . tile_set_texture = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_texture\0" . as_ptr () as * const c_char) ; table . tile_set_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_texture_offset\0" . as_ptr () as * const c_char) ; table . tile_set_tile_mode = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_tile_mode\0" . as_ptr () as * const c_char) ; table . tile_set_z_index = (gd_api . godot_method_bind_get_method) (class_name , "tile_set_z_index\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:352:3574 [INFO] [stdout] | [INFO] [stdout] 352 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:358:33105 [INFO] [stdout] | [INFO] [stdout] 358 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 = "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-7a634cfa4295a760/out/generated.rs:364:5440 [INFO] [stdout] | [INFO] [stdout] 364 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 ProgressBar` inherits `Range` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_progressbar.html) in the Godot 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`ProgressBar` 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\nProgressBar 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 ProgressBar { this : RawObject < Self > , } impl ProgressBar { # [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 = ProgressBarMethodTable :: 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 fill percentage is displayed on the bar."] # [doc = ""] # [inline] pub fn is_percent_visible (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ProgressBarMethodTable :: get (get_api ()) . is_percent_visible ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the fill percentage is displayed on the bar."] # [doc = ""] # [inline] pub fn set_percent_visible (& self , visible : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ProgressBarMethodTable :: get (get_api ()) . set_percent_visible ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , visible) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ProgressBar { } unsafe impl GodotObject for ProgressBar { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ProgressBar" } } impl QueueFree for ProgressBar { # [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 ProgressBar { type Target = crate :: generated :: range :: Range ; # [inline] fn deref (& self) -> & crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ProgressBar { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: range :: Range { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: range :: Range > for ProgressBar { } unsafe impl SubClass < crate :: generated :: control :: Control > for ProgressBar { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ProgressBar { } unsafe impl SubClass < crate :: generated :: node :: Node > for ProgressBar { } unsafe impl SubClass < crate :: generated :: object :: Object > for ProgressBar { } impl Instanciable for ProgressBar { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ProgressBar :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ProgressBarMethodTable { pub class_constructor : sys :: godot_class_constructor , pub is_percent_visible : * mut sys :: godot_method_bind , pub set_percent_visible : * mut sys :: godot_method_bind } impl ProgressBarMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ProgressBarMethodTable = ProgressBarMethodTable { class_constructor : None , is_percent_visible : 0 as * mut sys :: godot_method_bind , set_percent_visible : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ProgressBarMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ProgressBar\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . is_percent_visible = (gd_api . godot_method_bind_get_method) (class_name , "is_percent_visible\0" . as_ptr () as * const c_char) ; table . set_percent_visible = (gd_api . godot_method_bind_get_method) (class_name , "set_percent_visible\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:370:45605 [INFO] [stdout] | [INFO] [stdout] 370 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:376:21601 [INFO] [stdout] | [INFO] [stdout] 376 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:382:4465 [INFO] [stdout] | [INFO] [stdout] 382 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:388:15251 [INFO] [stdout] | [INFO] [stdout] 388 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 SceneState` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_scenestate.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nSceneState 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 SceneState { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct GenEditState (pub i64) ; impl GenEditState { pub const DISABLED : GenEditState = GenEditState (0i64) ; pub const INSTANCE : GenEditState = GenEditState (1i64) ; pub const MAIN : GenEditState = GenEditState (2i64) ; } impl From < i64 > for GenEditState { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < GenEditState > for i64 { # [inline] fn from (v : GenEditState) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl SceneState { pub const GEN_EDIT_STATE_DISABLED : i64 = 0i64 ; pub const GEN_EDIT_STATE_INSTANCE : i64 = 1i64 ; pub const GEN_EDIT_STATE_MAIN : i64 = 2i64 ; } impl SceneState { # [doc = "Returns the list of bound parameters for the signal at `idx`."] # [doc = ""] # [inline] pub fn get_connection_binds (& self , idx : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_connection_binds ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , idx) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the number of signal connections in the scene.\nThe `idx` argument used to query connection metadata in other `get_connection_*` methods in the interval `[0, get_connection_count() - 1]`."] # [doc = ""] # [inline] pub fn get_connection_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_connection_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the connection flags for the signal at `idx`. See [enum Object.ConnectFlags] constants."] # [doc = ""] # [inline] pub fn get_connection_flags (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_connection_flags ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the method connected to the signal at `idx`."] # [doc = ""] # [inline] pub fn get_connection_method (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_connection_method ; 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 signal at `idx`."] # [doc = ""] # [inline] pub fn get_connection_signal (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_connection_signal ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the path to the node that owns the signal at `idx`, relative to the root node."] # [doc = ""] # [inline] pub fn get_connection_source (& self , idx : i64) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_connection_source ; let ret = crate :: icalls :: icallptr_nodepath_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; NodePath :: from_sys (ret) } } # [doc = "Returns the path to the node that owns the method connected to the signal at `idx`, relative to the root node."] # [doc = ""] # [inline] pub fn get_connection_target (& self , idx : i64) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_connection_target ; let ret = crate :: icalls :: icallptr_nodepath_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; NodePath :: from_sys (ret) } } # [doc = "Returns the number of nodes in the scene.\nThe `idx` argument used to query node data in other `get_node_*` methods in the interval `[0, get_node_count() - 1]`."] # [doc = ""] # [inline] pub fn get_node_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the list of group names associated with the node at `idx`."] # [doc = ""] # [inline] pub fn get_node_groups (& self , idx : i64) -> StringArray { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_groups ; let ret = crate :: icalls :: icallptr_strarr_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; StringArray :: from_sys (ret) } } # [doc = "Returns the node's index, which is its position relative to its siblings. This is only relevant and saved in scenes for cases where new nodes are added to an instanced or inherited scene among siblings from the base scene. Despite the name, this index is not related to the `idx` argument used here and in other methods."] # [doc = ""] # [inline] pub fn get_node_index (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_index ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns a [PackedScene] for the node at `idx` (i.e. the whole branch starting at this node, with its child nodes and resources), or `null` if the node is not an instance."] # [doc = ""] # [inline] pub fn get_node_instance (& self , idx : i64) -> Option < Ref < crate :: generated :: packed_scene :: PackedScene , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_instance ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: packed_scene :: PackedScene , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the path to the represented scene file if the node at `idx` is an [InstancePlaceholder]."] # [doc = ""] # [inline] pub fn get_node_instance_placeholder (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_instance_placeholder ; 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 node at `idx`."] # [doc = ""] # [inline] pub fn get_node_name (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_name ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the path to the owner of the node at `idx`, relative to the root node."] # [doc = ""] # [inline] pub fn get_node_owner_path (& self , idx : i64) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_owner_path ; let ret = crate :: icalls :: icallptr_nodepath_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; NodePath :: from_sys (ret) } } # [doc = "Returns the path to the node at `idx`.\nIf `for_parent` is `true`, returns the path of the `idx` node's parent instead.\n# Default Arguments\n* `for_parent` - `false`"] # [doc = ""] # [inline] pub fn get_node_path (& self , idx : i64 , for_parent : bool) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_path ; let ret = crate :: icalls :: icallptr_nodepath_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , for_parent) ; NodePath :: from_sys (ret) } } # [doc = "Returns the number of exported or overridden properties for the node at `idx`.\nThe `prop_idx` argument used to query node property data in other `get_node_property_*` methods in the interval `[0, get_node_property_count() - 1]`."] # [doc = ""] # [inline] pub fn get_node_property_count (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_property_count ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the name of the property at `prop_idx` for the node at `idx`."] # [doc = ""] # [inline] pub fn get_node_property_name (& self , idx : i64 , prop_idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_property_name ; let ret = crate :: icalls :: icallptr_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , prop_idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the value of the property at `prop_idx` for the node at `idx`."] # [doc = ""] # [inline] pub fn get_node_property_value (& self , idx : i64 , prop_idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_property_value ; let ret = crate :: icalls :: icallptr_var_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , prop_idx) ; Variant :: from_sys (ret) } } # [doc = "Returns the type of the node at `idx`."] # [doc = ""] # [inline] pub fn get_node_type (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . get_node_type ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns `true` if the node at `idx` is an [InstancePlaceholder]."] # [doc = ""] # [inline] pub fn is_node_instance_placeholder (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneStateMethodTable :: get (get_api ()) . is_node_instance_placeholder ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for SceneState { } unsafe impl GodotObject for SceneState { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "SceneState" } } impl std :: ops :: Deref for SceneState { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SceneState { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for SceneState { } unsafe impl SubClass < crate :: generated :: object :: Object > for SceneState { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SceneStateMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_connection_binds : * mut sys :: godot_method_bind , pub get_connection_count : * mut sys :: godot_method_bind , pub get_connection_flags : * mut sys :: godot_method_bind , pub get_connection_method : * mut sys :: godot_method_bind , pub get_connection_signal : * mut sys :: godot_method_bind , pub get_connection_source : * mut sys :: godot_method_bind , pub get_connection_target : * mut sys :: godot_method_bind , pub get_node_count : * mut sys :: godot_method_bind , pub get_node_groups : * mut sys :: godot_method_bind , pub get_node_index : * mut sys :: godot_method_bind , pub get_node_instance : * mut sys :: godot_method_bind , pub get_node_instance_placeholder : * mut sys :: godot_method_bind , pub get_node_name : * mut sys :: godot_method_bind , pub get_node_owner_path : * mut sys :: godot_method_bind , pub get_node_path : * mut sys :: godot_method_bind , pub get_node_property_count : * mut sys :: godot_method_bind , pub get_node_property_name : * mut sys :: godot_method_bind , pub get_node_property_value : * mut sys :: godot_method_bind , pub get_node_type : * mut sys :: godot_method_bind , pub is_node_instance_placeholder : * mut sys :: godot_method_bind } impl SceneStateMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SceneStateMethodTable = SceneStateMethodTable { class_constructor : None , get_connection_binds : 0 as * mut sys :: godot_method_bind , get_connection_count : 0 as * mut sys :: godot_method_bind , get_connection_flags : 0 as * mut sys :: godot_method_bind , get_connection_method : 0 as * mut sys :: godot_method_bind , get_connection_signal : 0 as * mut sys :: godot_method_bind , get_connection_source : 0 as * mut sys :: godot_method_bind , get_connection_target : 0 as * mut sys :: godot_method_bind , get_node_count : 0 as * mut sys :: godot_method_bind , get_node_groups : 0 as * mut sys :: godot_method_bind , get_node_index : 0 as * mut sys :: godot_method_bind , get_node_instance : 0 as * mut sys :: godot_method_bind , get_node_instance_placeholder : 0 as * mut sys :: godot_method_bind , get_node_name : 0 as * mut sys :: godot_method_bind , get_node_owner_path : 0 as * mut sys :: godot_method_bind , get_node_path : 0 as * mut sys :: godot_method_bind , get_node_property_count : 0 as * mut sys :: godot_method_bind , get_node_property_name : 0 as * mut sys :: godot_method_bind , get_node_property_value : 0 as * mut sys :: godot_method_bind , get_node_type : 0 as * mut sys :: godot_method_bind , is_node_instance_placeholder : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SceneStateMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SceneState\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_connection_binds = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_binds\0" . as_ptr () as * const c_char) ; table . get_connection_count = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_count\0" . as_ptr () as * const c_char) ; table . get_connection_flags = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_flags\0" . as_ptr () as * const c_char) ; table . get_connection_method = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_method\0" . as_ptr () as * const c_char) ; table . get_connection_signal = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_signal\0" . as_ptr () as * const c_char) ; table . get_connection_source = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_source\0" . as_ptr () as * const c_char) ; table . get_connection_target = (gd_api . godot_method_bind_get_method) (class_name , "get_connection_target\0" . as_ptr () as * const c_char) ; table . get_node_count = (gd_api . godot_method_bind_get_method) (class_name , "get_node_count\0" . as_ptr () as * const c_char) ; table . get_node_groups = (gd_api . godot_method_bind_get_method) (class_name , "get_node_groups\0" . as_ptr () as * const c_char) ; table . get_node_index = (gd_api . godot_method_bind_get_method) (class_name , "get_node_index\0" . as_ptr () as * const c_char) ; table . get_node_instance = (gd_api . godot_method_bind_get_method) (class_name , "get_node_instance\0" . as_ptr () as * const c_char) ; table . get_node_instance_placeholder = (gd_api . godot_method_bind_get_method) (class_name , "get_node_instance_placeholder\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_owner_path = (gd_api . godot_method_bind_get_method) (class_name , "get_node_owner_path\0" . as_ptr () as * const c_char) ; table . get_node_path = (gd_api . godot_method_bind_get_method) (class_name , "get_node_path\0" . as_ptr () as * const c_char) ; table . get_node_property_count = (gd_api . godot_method_bind_get_method) (class_name , "get_node_property_count\0" . as_ptr () as * const c_char) ; table . get_node_property_name = (gd_api . godot_method_bind_get_method) (class_name , "get_node_property_name\0" . as_ptr () as * const c_char) ; table . get_node_property_value = (gd_api . godot_method_bind_get_method) (class_name , "get_node_property_value\0" . as_ptr () as * const c_char) ; table . get_node_type = (gd_api . godot_method_bind_get_method) (class_name , "get_node_type\0" . as_ptr () as * const c_char) ; table . is_node_instance_placeholder = (gd_api . godot_method_bind_get_method) (class_name , "is_node_instance_placeholder\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:394:4806 [INFO] [stdout] | [INFO] [stdout] 394 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeVec3Constant` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevec3constant.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVec3Constant 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 VisualShaderNodeVec3Constant { this : RawObject < Self > , } impl VisualShaderNodeVec3Constant { # [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 = VisualShaderNodeVec3ConstantMethodTable :: 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 [Vector3] constant which represents the state of this node."] # [doc = ""] # [inline] pub fn constant (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeVec3ConstantMethodTable :: get (get_api ()) . get_constant ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "A [Vector3] constant which represents the state of this node."] # [doc = ""] # [inline] pub fn set_constant (& self , value : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeVec3ConstantMethodTable :: get (get_api ()) . set_constant ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVec3Constant { } unsafe impl GodotObject for VisualShaderNodeVec3Constant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVec3Constant" } } impl std :: ops :: Deref for VisualShaderNodeVec3Constant { 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 VisualShaderNodeVec3Constant { # [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 VisualShaderNodeVec3Constant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVec3Constant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVec3Constant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVec3Constant { } impl Instanciable for VisualShaderNodeVec3Constant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVec3Constant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVec3ConstantMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_constant : * mut sys :: godot_method_bind , pub set_constant : * mut sys :: godot_method_bind } impl VisualShaderNodeVec3ConstantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVec3ConstantMethodTable = VisualShaderNodeVec3ConstantMethodTable { 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 (|| { VisualShaderNodeVec3ConstantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVec3Constant\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-7a634cfa4295a760/out/generated.rs:400:4315 [INFO] [stdout] | [INFO] [stdout] 400 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Position2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_position2d.html) in the Godot 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`Position2D` 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\nPosition2D 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 Position2D { this : RawObject < Self > , } impl Position2D { # [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 = Position2DMethodTable :: 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 Position2D { } unsafe impl GodotObject for Position2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Position2D" } } impl QueueFree for Position2D { # [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 Position2D { 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 Position2D { # [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 Position2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Position2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Position2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Position2D { } impl Instanciable for Position2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Position2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Position2DMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl Position2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Position2DMethodTable = Position2DMethodTable { 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 (|| { Position2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Position2D\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-7a634cfa4295a760/out/generated.rs:406:26008 [INFO] [stdout] | [INFO] [stdout] 406 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualScript` inherits `Script` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscript.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScript inherits methods from:\n - [Script](struct.Script.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualScript { this : RawObject < Self > , } impl VisualScript { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualScriptMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn add_custom_signal (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_custom_signal ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_function (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_function ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_node (& self , func : impl Into < GodotString > , id : i64 , node : impl AsArg < crate :: generated :: visual_script_node :: VisualScriptNode > , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_node ; let ret = crate :: icalls :: icallptr_void_str_i64_obj_vec2 (method_bind , self . this . sys () . as_ptr () , func . into () , id , node . as_arg_ptr () , position) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn add_variable (& self , name : impl Into < GodotString > , default_value : impl OwnedToVariant , export : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . add_variable ; let ret = crate :: icalls :: icallptr_void_str_var_bool (method_bind , self . this . sys () . as_ptr () , name . into () , default_value . owned_to_variant () , export) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_add_argument (& self , name : impl Into < GodotString > , _type : i64 , argname : impl Into < GodotString > , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_add_argument ; let ret = crate :: icalls :: icallptr_void_str_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , _type , argname . into () , index) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_get_argument_count (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_get_argument_count ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_get_argument_name (& self , name : impl Into < GodotString > , argidx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_get_argument_name ; let ret = crate :: icalls :: icallptr_str_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_get_argument_type (& self , name : impl Into < GodotString > , argidx : i64) -> VariantType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_get_argument_type ; let ret = crate :: icalls :: icallptr_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx) ; VariantType :: from_sys (ret as _) } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_remove_argument (& self , name : impl Into < GodotString > , argidx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_remove_argument ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_set_argument_name (& self , name : impl Into < GodotString > , argidx : i64 , argname : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_set_argument_name ; let ret = crate :: icalls :: icallptr_void_str_i64_str (method_bind , self . this . sys () . as_ptr () , name . into () , argidx , argname . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_set_argument_type (& self , name : impl Into < GodotString > , argidx : i64 , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_set_argument_type ; let ret = crate :: icalls :: icallptr_void_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx , _type) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn custom_signal_swap_argument (& self , name : impl Into < GodotString > , argidx : i64 , withidx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . custom_signal_swap_argument ; let ret = crate :: icalls :: icallptr_void_str_i64_i64 (method_bind , self . this . sys () . as_ptr () , name . into () , argidx , withidx) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn data_connect (& self , func : impl Into < GodotString > , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . data_connect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_port , to_node , to_port) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn data_disconnect (& self , func : impl Into < GodotString > , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . data_disconnect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_port , to_node , to_port) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_function_node_id (& self , name : impl Into < GodotString >) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_function_node_id ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_function_scroll (& self , name : impl Into < GodotString >) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_function_scroll ; let ret = crate :: icalls :: icallptr_vec2_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_node (& self , func : impl Into < GodotString > , id : i64) -> Option < Ref < crate :: generated :: visual_script_node :: VisualScriptNode , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_node ; let ret = crate :: icalls :: icallptr_obj_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: visual_script_node :: VisualScriptNode , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_node_position (& self , func : impl Into < GodotString > , id : i64) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_node_position ; let ret = crate :: icalls :: icallptr_vec2_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_variable_default_value (& self , name : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_variable_default_value ; let ret = crate :: icalls :: icallptr_var_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_variable_export (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_variable_export ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_variable_info (& self , name : impl Into < GodotString >) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . get_variable_info ; let ret = crate :: icalls :: icallptr_dict_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; Dictionary :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn has_custom_signal (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_custom_signal ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_data_connection (& self , func : impl Into < GodotString > , from_node : i64 , from_port : i64 , to_node : i64 , to_port : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_data_connection ; let ret = crate :: icalls :: icallptr_bool_str_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_port , to_node , to_port) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_function (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_function ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_node (& self , func : impl Into < GodotString > , id : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_node ; let ret = crate :: icalls :: icallptr_bool_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_sequence_connection (& self , func : impl Into < GodotString > , from_node : i64 , from_output : i64 , to_node : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_sequence_connection ; let ret = crate :: icalls :: icallptr_bool_str_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_output , to_node) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_variable (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . has_variable ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_custom_signal (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_custom_signal ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_function (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_function ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_node (& self , func : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_node ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , id) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn remove_variable (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . remove_variable ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn rename_custom_signal (& self , name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . rename_custom_signal ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , new_name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn rename_function (& self , name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . rename_function ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , new_name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn rename_variable (& self , name : impl Into < GodotString > , new_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . rename_variable ; let ret = crate :: icalls :: icallptr_void_str_str (method_bind , self . this . sys () . as_ptr () , name . into () , new_name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn sequence_connect (& self , func : impl Into < GodotString > , from_node : i64 , from_output : i64 , to_node : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . sequence_connect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_output , to_node) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn sequence_disconnect (& self , func : impl Into < GodotString > , from_node : i64 , from_output : i64 , to_node : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . sequence_disconnect ; let ret = crate :: icalls :: icallptr_void_str_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , func . into () , from_node , from_output , to_node) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_function_scroll (& self , name : impl Into < GodotString > , ofs : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_function_scroll ; let ret = crate :: icalls :: icallptr_void_str_vec2 (method_bind , self . this . sys () . as_ptr () , name . into () , ofs) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_instance_base_type (& self , _type : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_instance_base_type ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , _type . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_node_position (& self , func : impl Into < GodotString > , id : i64 , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_node_position ; let ret = crate :: icalls :: icallptr_void_str_i64_vec2 (method_bind , self . this . sys () . as_ptr () , func . into () , id , position) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable_default_value (& self , name : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_variable_default_value ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , name . into () , value . owned_to_variant ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable_export (& self , name : impl Into < GodotString > , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_variable_export ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , name . into () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_variable_info (& self , name : impl Into < GodotString > , value : Dictionary) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptMethodTable :: get (get_api ()) . set_variable_info ; let ret = crate :: icalls :: icallptr_void_str_dict (method_bind , self . this . sys () . as_ptr () , name . into () , value) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScript { } unsafe impl GodotObject for VisualScript { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScript" } } impl std :: ops :: Deref for VisualScript { type Target = crate :: generated :: script :: Script ; # [inline] fn deref (& self) -> & crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualScript { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: script :: Script > for VisualScript { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScript { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScript { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScript { } impl Instanciable for VisualScript { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScript :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_custom_signal : * mut sys :: godot_method_bind , pub add_function : * mut sys :: godot_method_bind , pub add_node : * mut sys :: godot_method_bind , pub add_variable : * mut sys :: godot_method_bind , pub custom_signal_add_argument : * mut sys :: godot_method_bind , pub custom_signal_get_argument_count : * mut sys :: godot_method_bind , pub custom_signal_get_argument_name : * mut sys :: godot_method_bind , pub custom_signal_get_argument_type : * mut sys :: godot_method_bind , pub custom_signal_remove_argument : * mut sys :: godot_method_bind , pub custom_signal_set_argument_name : * mut sys :: godot_method_bind , pub custom_signal_set_argument_type : * mut sys :: godot_method_bind , pub custom_signal_swap_argument : * mut sys :: godot_method_bind , pub data_connect : * mut sys :: godot_method_bind , pub data_disconnect : * mut sys :: godot_method_bind , pub get_function_node_id : * mut sys :: godot_method_bind , pub get_function_scroll : * mut sys :: godot_method_bind , pub get_node : * mut sys :: godot_method_bind , pub get_node_position : * mut sys :: godot_method_bind , pub get_variable_default_value : * mut sys :: godot_method_bind , pub get_variable_export : * mut sys :: godot_method_bind , pub get_variable_info : * mut sys :: godot_method_bind , pub has_custom_signal : * mut sys :: godot_method_bind , pub has_data_connection : * mut sys :: godot_method_bind , pub has_function : * mut sys :: godot_method_bind , pub has_node : * mut sys :: godot_method_bind , pub has_sequence_connection : * mut sys :: godot_method_bind , pub has_variable : * mut sys :: godot_method_bind , pub remove_custom_signal : * mut sys :: godot_method_bind , pub remove_function : * mut sys :: godot_method_bind , pub remove_node : * mut sys :: godot_method_bind , pub remove_variable : * mut sys :: godot_method_bind , pub rename_custom_signal : * mut sys :: godot_method_bind , pub rename_function : * mut sys :: godot_method_bind , pub rename_variable : * mut sys :: godot_method_bind , pub sequence_connect : * mut sys :: godot_method_bind , pub sequence_disconnect : * mut sys :: godot_method_bind , pub set_function_scroll : * mut sys :: godot_method_bind , pub set_instance_base_type : * mut sys :: godot_method_bind , pub set_node_position : * mut sys :: godot_method_bind , pub set_variable_default_value : * mut sys :: godot_method_bind , pub set_variable_export : * mut sys :: godot_method_bind , pub set_variable_info : * mut sys :: godot_method_bind } impl VisualScriptMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptMethodTable = VisualScriptMethodTable { class_constructor : None , add_custom_signal : 0 as * mut sys :: godot_method_bind , add_function : 0 as * mut sys :: godot_method_bind , add_node : 0 as * mut sys :: godot_method_bind , add_variable : 0 as * mut sys :: godot_method_bind , custom_signal_add_argument : 0 as * mut sys :: godot_method_bind , custom_signal_get_argument_count : 0 as * mut sys :: godot_method_bind , custom_signal_get_argument_name : 0 as * mut sys :: godot_method_bind , custom_signal_get_argument_type : 0 as * mut sys :: godot_method_bind , custom_signal_remove_argument : 0 as * mut sys :: godot_method_bind , custom_signal_set_argument_name : 0 as * mut sys :: godot_method_bind , custom_signal_set_argument_type : 0 as * mut sys :: godot_method_bind , custom_signal_swap_argument : 0 as * mut sys :: godot_method_bind , data_connect : 0 as * mut sys :: godot_method_bind , data_disconnect : 0 as * mut sys :: godot_method_bind , get_function_node_id : 0 as * mut sys :: godot_method_bind , get_function_scroll : 0 as * mut sys :: godot_method_bind , get_node : 0 as * mut sys :: godot_method_bind , get_node_position : 0 as * mut sys :: godot_method_bind , get_variable_default_value : 0 as * mut sys :: godot_method_bind , get_variable_export : 0 as * mut sys :: godot_method_bind , get_variable_info : 0 as * mut sys :: godot_method_bind , has_custom_signal : 0 as * mut sys :: godot_method_bind , has_data_connection : 0 as * mut sys :: godot_method_bind , has_function : 0 as * mut sys :: godot_method_bind , has_node : 0 as * mut sys :: godot_method_bind , has_sequence_connection : 0 as * mut sys :: godot_method_bind , has_variable : 0 as * mut sys :: godot_method_bind , remove_custom_signal : 0 as * mut sys :: godot_method_bind , remove_function : 0 as * mut sys :: godot_method_bind , remove_node : 0 as * mut sys :: godot_method_bind , remove_variable : 0 as * mut sys :: godot_method_bind , rename_custom_signal : 0 as * mut sys :: godot_method_bind , rename_function : 0 as * mut sys :: godot_method_bind , rename_variable : 0 as * mut sys :: godot_method_bind , sequence_connect : 0 as * mut sys :: godot_method_bind , sequence_disconnect : 0 as * mut sys :: godot_method_bind , set_function_scroll : 0 as * mut sys :: godot_method_bind , set_instance_base_type : 0 as * mut sys :: godot_method_bind , set_node_position : 0 as * mut sys :: godot_method_bind , set_variable_default_value : 0 as * mut sys :: godot_method_bind , set_variable_export : 0 as * mut sys :: godot_method_bind , set_variable_info : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScript\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "add_custom_signal\0" . as_ptr () as * const c_char) ; table . add_function = (gd_api . godot_method_bind_get_method) (class_name , "add_function\0" . as_ptr () as * const c_char) ; table . add_node = (gd_api . godot_method_bind_get_method) (class_name , "add_node\0" . as_ptr () as * const c_char) ; table . add_variable = (gd_api . godot_method_bind_get_method) (class_name , "add_variable\0" . as_ptr () as * const c_char) ; table . custom_signal_add_argument = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_add_argument\0" . as_ptr () as * const c_char) ; table . custom_signal_get_argument_count = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_get_argument_count\0" . as_ptr () as * const c_char) ; table . custom_signal_get_argument_name = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_get_argument_name\0" . as_ptr () as * const c_char) ; table . custom_signal_get_argument_type = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_get_argument_type\0" . as_ptr () as * const c_char) ; table . custom_signal_remove_argument = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_remove_argument\0" . as_ptr () as * const c_char) ; table . custom_signal_set_argument_name = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_set_argument_name\0" . as_ptr () as * const c_char) ; table . custom_signal_set_argument_type = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_set_argument_type\0" . as_ptr () as * const c_char) ; table . custom_signal_swap_argument = (gd_api . godot_method_bind_get_method) (class_name , "custom_signal_swap_argument\0" . as_ptr () as * const c_char) ; table . data_connect = (gd_api . godot_method_bind_get_method) (class_name , "data_connect\0" . as_ptr () as * const c_char) ; table . data_disconnect = (gd_api . godot_method_bind_get_method) (class_name , "data_disconnect\0" . as_ptr () as * const c_char) ; table . get_function_node_id = (gd_api . godot_method_bind_get_method) (class_name , "get_function_node_id\0" . as_ptr () as * const c_char) ; table . get_function_scroll = (gd_api . godot_method_bind_get_method) (class_name , "get_function_scroll\0" . as_ptr () as * const c_char) ; table . get_node = (gd_api . godot_method_bind_get_method) (class_name , "get_node\0" . as_ptr () as * const c_char) ; table . get_node_position = (gd_api . godot_method_bind_get_method) (class_name , "get_node_position\0" . as_ptr () as * const c_char) ; table . get_variable_default_value = (gd_api . godot_method_bind_get_method) (class_name , "get_variable_default_value\0" . as_ptr () as * const c_char) ; table . get_variable_export = (gd_api . godot_method_bind_get_method) (class_name , "get_variable_export\0" . as_ptr () as * const c_char) ; table . get_variable_info = (gd_api . godot_method_bind_get_method) (class_name , "get_variable_info\0" . as_ptr () as * const c_char) ; table . has_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "has_custom_signal\0" . as_ptr () as * const c_char) ; table . has_data_connection = (gd_api . godot_method_bind_get_method) (class_name , "has_data_connection\0" . as_ptr () as * const c_char) ; table . has_function = (gd_api . godot_method_bind_get_method) (class_name , "has_function\0" . as_ptr () as * const c_char) ; table . has_node = (gd_api . godot_method_bind_get_method) (class_name , "has_node\0" . as_ptr () as * const c_char) ; table . has_sequence_connection = (gd_api . godot_method_bind_get_method) (class_name , "has_sequence_connection\0" . as_ptr () as * const c_char) ; table . has_variable = (gd_api . godot_method_bind_get_method) (class_name , "has_variable\0" . as_ptr () as * const c_char) ; table . remove_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "remove_custom_signal\0" . as_ptr () as * const c_char) ; table . remove_function = (gd_api . godot_method_bind_get_method) (class_name , "remove_function\0" . as_ptr () as * const c_char) ; table . remove_node = (gd_api . godot_method_bind_get_method) (class_name , "remove_node\0" . as_ptr () as * const c_char) ; table . remove_variable = (gd_api . godot_method_bind_get_method) (class_name , "remove_variable\0" . as_ptr () as * const c_char) ; table . rename_custom_signal = (gd_api . godot_method_bind_get_method) (class_name , "rename_custom_signal\0" . as_ptr () as * const c_char) ; table . rename_function = (gd_api . godot_method_bind_get_method) (class_name , "rename_function\0" . as_ptr () as * const c_char) ; table . rename_variable = (gd_api . godot_method_bind_get_method) (class_name , "rename_variable\0" . as_ptr () as * const c_char) ; table . sequence_connect = (gd_api . godot_method_bind_get_method) (class_name , "sequence_connect\0" . as_ptr () as * const c_char) ; table . sequence_disconnect = (gd_api . godot_method_bind_get_method) (class_name , "sequence_disconnect\0" . as_ptr () as * const c_char) ; table . set_function_scroll = (gd_api . godot_method_bind_get_method) (class_name , "set_function_scroll\0" . as_ptr () as * const c_char) ; table . set_instance_base_type = (gd_api . godot_method_bind_get_method) (class_name , "set_instance_base_type\0" . as_ptr () as * const c_char) ; table . set_node_position = (gd_api . godot_method_bind_get_method) (class_name , "set_node_position\0" . as_ptr () as * const c_char) ; table . set_variable_default_value = (gd_api . godot_method_bind_get_method) (class_name , "set_variable_default_value\0" . as_ptr () as * const c_char) ; table . set_variable_export = (gd_api . godot_method_bind_get_method) (class_name , "set_variable_export\0" . as_ptr () as * const c_char) ; table . set_variable_info = (gd_api . godot_method_bind_get_method) (class_name , "set_variable_info\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:412:3637 [INFO] [stdout] | [INFO] [stdout] 412 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualScriptIndexSet` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptindexset.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptIndexSet 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 VisualScriptIndexSet { this : RawObject < Self > , } impl VisualScriptIndexSet { # [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 = VisualScriptIndexSetMethodTable :: 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 VisualScriptIndexSet { } unsafe impl GodotObject for VisualScriptIndexSet { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptIndexSet" } } impl std :: ops :: Deref for VisualScriptIndexSet { 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 VisualScriptIndexSet { # [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 VisualScriptIndexSet { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptIndexSet { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptIndexSet { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptIndexSet { } impl Instanciable for VisualScriptIndexSet { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptIndexSet :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptIndexSetMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptIndexSetMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptIndexSetMethodTable = VisualScriptIndexSetMethodTable { 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 (|| { VisualScriptIndexSetMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptIndexSet\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-7a634cfa4295a760/out/generated.rs:418:14005 [INFO] [stdout] | [INFO] [stdout] 418 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:424:9210 [INFO] [stdout] | [INFO] [stdout] 424 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:430:3398 [INFO] [stdout] | [INFO] [stdout] 430 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 StyleBoxEmpty` inherits `StyleBox` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_styleboxempty.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nStyleBoxEmpty inherits methods from:\n - [StyleBox](struct.StyleBox.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct StyleBoxEmpty { this : RawObject < Self > , } impl StyleBoxEmpty { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = StyleBoxEmptyMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for StyleBoxEmpty { } unsafe impl GodotObject for StyleBoxEmpty { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "StyleBoxEmpty" } } impl std :: ops :: Deref for StyleBoxEmpty { type Target = crate :: generated :: style_box :: StyleBox ; # [inline] fn deref (& self) -> & crate :: generated :: style_box :: StyleBox { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for StyleBoxEmpty { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: style_box :: StyleBox { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: style_box :: StyleBox > for StyleBoxEmpty { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for StyleBoxEmpty { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for StyleBoxEmpty { } unsafe impl SubClass < crate :: generated :: object :: Object > for StyleBoxEmpty { } impl Instanciable for StyleBoxEmpty { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { StyleBoxEmpty :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct StyleBoxEmptyMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl StyleBoxEmptyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : StyleBoxEmptyMethodTable = StyleBoxEmptyMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { StyleBoxEmptyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "StyleBoxEmpty\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:436:4440 [INFO] [stdout] | [INFO] [stdout] 436 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:442:3868 [INFO] [stdout] | [INFO] [stdout] 442 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:448:4452 [INFO] [stdout] | [INFO] [stdout] 448 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AudioEffectPanner` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectpanner.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectPanner inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectPanner { this : RawObject < Self > , } impl AudioEffectPanner { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectPannerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Pan position. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn pan (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectPannerMethodTable :: get (get_api ()) . get_pan ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Pan position. Value can range from -1 (fully left) to 1 (fully right)."] # [doc = ""] # [inline] pub fn set_pan (& self , cpanume : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectPannerMethodTable :: get (get_api ()) . set_pan ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , cpanume) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectPanner { } unsafe impl GodotObject for AudioEffectPanner { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectPanner" } } impl std :: ops :: Deref for AudioEffectPanner { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectPanner { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectPanner { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectPanner { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectPanner { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectPanner { } impl Instanciable for AudioEffectPanner { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectPanner :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectPannerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_pan : * mut sys :: godot_method_bind , pub set_pan : * mut sys :: godot_method_bind } impl AudioEffectPannerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectPannerMethodTable = AudioEffectPannerMethodTable { class_constructor : None , get_pan : 0 as * mut sys :: godot_method_bind , set_pan : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectPannerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectPanner\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_pan = (gd_api . godot_method_bind_get_method) (class_name , "get_pan\0" . as_ptr () as * const c_char) ; table . set_pan = (gd_api . godot_method_bind_get_method) (class_name , "set_pan\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:454:6325 [INFO] [stdout] | [INFO] [stdout] 454 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 454 | # [doc = "`core class ConeTwistJoint` inherits `Joint` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_conetwistjoint.html) in the Godot 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`ConeTwistJoint` 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\nConeTwistJoint 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 ConeTwistJoint { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Param (pub i64) ; impl Param { pub const SWING_SPAN : Param = Param (0i64) ; pub const TWIST_SPAN : Param = Param (1i64) ; pub const BIAS : Param = Param (2i64) ; pub const SOFTNESS : Param = Param (3i64) ; pub const RELAXATION : Param = Param (4i64) ; pub const MAX : Param = Param (5i64) ; } 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 ConeTwistJoint { pub const PARAM_BIAS : i64 = 2i64 ; pub const PARAM_MAX : i64 = 5i64 ; pub const PARAM_RELAXATION : i64 = 4i64 ; pub const PARAM_SOFTNESS : i64 = 3i64 ; pub const PARAM_SWING_SPAN : i64 = 0i64 ; pub const PARAM_TWIST_SPAN : i64 = 1i64 ; } impl ConeTwistJoint { # [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 = ConeTwistJointMethodTable :: 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 ease with which the joint starts to twist. If it's too low, it takes more force to start twisting the joint."] # [doc = ""] # [inline] pub fn param (& self , param : i64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ConeTwistJointMethodTable :: get (get_api ()) . get_param ; let ret = crate :: icalls :: icallptr_f64_i64 (method_bind , self . this . sys () . as_ptr () , param) ; ret as _ } } # [doc = "The ease with which the joint starts to twist. If it's too low, it takes more force to start twisting the joint."] # [doc = ""] # [inline] pub fn set_param (& self , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ConeTwistJointMethodTable :: 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 ConeTwistJoint { } unsafe impl GodotObject for ConeTwistJoint { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ConeTwistJoint" } } impl QueueFree for ConeTwistJoint { # [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 ConeTwistJoint { type Target = crate :: generated :: joint :: Joint ; # [inline] fn deref (& self) -> & crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ConeTwistJoint { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: joint :: Joint { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: joint :: Joint > for ConeTwistJoint { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for ConeTwistJoint { } unsafe impl SubClass < crate :: generated :: node :: Node > for ConeTwistJoint { } unsafe impl SubClass < crate :: generated :: object :: Object > for ConeTwistJoint { } impl Instanciable for ConeTwistJoint { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ConeTwistJoint :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ConeTwistJointMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_param : * mut sys :: godot_method_bind , pub set_param : * mut sys :: godot_method_bind } impl ConeTwistJointMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ConeTwistJointMethodTable = ConeTwistJointMethodTable { 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 (|| { ConeTwistJointMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ConeTwistJoint\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-7a634cfa4295a760/out/generated.rs:460:9215 [INFO] [stdout] | [INFO] [stdout] 460 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 JSONParseResult` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_jsonparseresult.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nJSONParseResult inherits methods from:\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct JSONParseResult { this : RawObject < Self > , } impl JSONParseResult { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = JSONParseResultMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The error type if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn error (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_error ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "The line number where the error occurred if the JSON source was not successfully parsed."] # [doc = ""] # [inline] pub fn error_line (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_error_line ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The error message if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn error_string (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_error_string ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nA [Variant] containing the parsed JSON. Use [method @GDScript.typeof] or the `is` keyword to check if it is what you expect. For example, if the JSON source starts with curly braces (`{}`), a [Dictionary] will be returned. If the JSON source starts with brackets (`[]`), an [Array] will be returned.\n**Note:** The JSON specification does not define integer or float types, but only a [i]number[/i] type. Therefore, parsing a JSON text will convert all numerical values to [float] types.\n**Note:** JSON objects do not preserve key order like Godot dictionaries, thus, you should not rely on keys being in a certain order if a dictionary is constructed from JSON. In contrast, JSON arrays retain the order of their elements:\n```gdscript\nvar p = JSON.parse('[\"hello\", \"world\", \"!\"]')\nif typeof(p.result) == TYPE_ARRAY:\n print(p.result[0]) # Prints \"hello\"\nelse:\n push_error(\"Unexpected results.\")\n```"] # [doc = ""] # [inline] pub fn result (& self) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . get_result ; let ret = crate :: icalls :: icallptr_var (method_bind , self . this . sys () . as_ptr ()) ; Variant :: from_sys (ret) } } # [doc = "The error type if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn set_error (& self , error : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_error ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , error) ; } } # [doc = "The line number where the error occurred if the JSON source was not successfully parsed."] # [doc = ""] # [inline] pub fn set_error_line (& self , error_line : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_error_line ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , error_line) ; } } # [doc = "The error message if the JSON source was not successfully parsed. See the [enum Error] constants."] # [doc = ""] # [inline] pub fn set_error_string (& self , error_string : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_error_string ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , error_string . into ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nA [Variant] containing the parsed JSON. Use [method @GDScript.typeof] or the `is` keyword to check if it is what you expect. For example, if the JSON source starts with curly braces (`{}`), a [Dictionary] will be returned. If the JSON source starts with brackets (`[]`), an [Array] will be returned.\n**Note:** The JSON specification does not define integer or float types, but only a [i]number[/i] type. Therefore, parsing a JSON text will convert all numerical values to [float] types.\n**Note:** JSON objects do not preserve key order like Godot dictionaries, thus, you should not rely on keys being in a certain order if a dictionary is constructed from JSON. In contrast, JSON arrays retain the order of their elements:\n```gdscript\nvar p = JSON.parse('[\"hello\", \"world\", \"!\"]')\nif typeof(p.result) == TYPE_ARRAY:\n print(p.result[0]) # Prints \"hello\"\nelse:\n push_error(\"Unexpected results.\")\n```"] # [doc = ""] # [inline] pub fn set_result (& self , result : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONParseResultMethodTable :: get (get_api ()) . set_result ; let ret = crate :: icalls :: icallptr_void_var (method_bind , self . this . sys () . as_ptr () , result . owned_to_variant ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for JSONParseResult { } unsafe impl GodotObject for JSONParseResult { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "JSONParseResult" } } impl std :: ops :: Deref for JSONParseResult { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for JSONParseResult { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for JSONParseResult { } unsafe impl SubClass < crate :: generated :: object :: Object > for JSONParseResult { } impl Instanciable for JSONParseResult { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { JSONParseResult :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JSONParseResultMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_error : * mut sys :: godot_method_bind , pub get_error_line : * mut sys :: godot_method_bind , pub get_error_string : * mut sys :: godot_method_bind , pub get_result : * mut sys :: godot_method_bind , pub set_error : * mut sys :: godot_method_bind , pub set_error_line : * mut sys :: godot_method_bind , pub set_error_string : * mut sys :: godot_method_bind , pub set_result : * mut sys :: godot_method_bind } impl JSONParseResultMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JSONParseResultMethodTable = JSONParseResultMethodTable { class_constructor : None , get_error : 0 as * mut sys :: godot_method_bind , get_error_line : 0 as * mut sys :: godot_method_bind , get_error_string : 0 as * mut sys :: godot_method_bind , get_result : 0 as * mut sys :: godot_method_bind , set_error : 0 as * mut sys :: godot_method_bind , set_error_line : 0 as * mut sys :: godot_method_bind , set_error_string : 0 as * mut sys :: godot_method_bind , set_result : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JSONParseResultMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "JSONParseResult\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_error = (gd_api . godot_method_bind_get_method) (class_name , "get_error\0" . as_ptr () as * const c_char) ; table . get_error_line = (gd_api . godot_method_bind_get_method) (class_name , "get_error_line\0" . as_ptr () as * const c_char) ; table . get_error_string = (gd_api . godot_method_bind_get_method) (class_name , "get_error_string\0" . as_ptr () as * const c_char) ; table . get_result = (gd_api . godot_method_bind_get_method) (class_name , "get_result\0" . as_ptr () as * const c_char) ; table . set_error = (gd_api . godot_method_bind_get_method) (class_name , "set_error\0" . as_ptr () as * const c_char) ; table . set_error_line = (gd_api . godot_method_bind_get_method) (class_name , "set_error_line\0" . as_ptr () as * const c_char) ; table . set_error_string = (gd_api . godot_method_bind_get_method) (class_name , "set_error_string\0" . as_ptr () as * const c_char) ; table . set_result = (gd_api . godot_method_bind_get_method) (class_name , "set_result\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:466:8119 [INFO] [stdout] | [INFO] [stdout] 466 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 CylinderMesh` inherits `PrimitiveMesh` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_cylindermesh.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nCylinderMesh 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 CylinderMesh { this : RawObject < Self > , } impl CylinderMesh { # [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 = CylinderMeshMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Bottom radius of the cylinder."] # [doc = ""] # [inline] pub fn bottom_radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . get_bottom_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Full height of the cylinder."] # [doc = ""] # [inline] pub fn height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of radial segments on the cylinder."] # [doc = ""] # [inline] pub fn radial_segments (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . get_radial_segments ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of edge rings along the height of the cylinder."] # [doc = ""] # [inline] pub fn rings (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . get_rings ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Top radius of the cylinder."] # [doc = ""] # [inline] pub fn top_radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . get_top_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Bottom radius of the cylinder."] # [doc = ""] # [inline] pub fn set_bottom_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . set_bottom_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } # [doc = "Full height of the cylinder."] # [doc = ""] # [inline] pub fn set_height (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . set_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "Number of radial segments on the cylinder."] # [doc = ""] # [inline] pub fn set_radial_segments (& self , segments : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . set_radial_segments ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , segments) ; } } # [doc = "Number of edge rings along the height of the cylinder."] # [doc = ""] # [inline] pub fn set_rings (& self , rings : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . set_rings ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , rings) ; } } # [doc = "Top radius of the cylinder."] # [doc = ""] # [inline] pub fn set_top_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderMeshMethodTable :: get (get_api ()) . set_top_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , radius) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CylinderMesh { } unsafe impl GodotObject for CylinderMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CylinderMesh" } } impl std :: ops :: Deref for CylinderMesh { 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 CylinderMesh { # [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 CylinderMesh { } unsafe impl SubClass < crate :: generated :: mesh :: Mesh > for CylinderMesh { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CylinderMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CylinderMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for CylinderMesh { } impl Instanciable for CylinderMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CylinderMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CylinderMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bottom_radius : * mut sys :: godot_method_bind , pub get_height : * mut sys :: godot_method_bind , pub get_radial_segments : * mut sys :: godot_method_bind , pub get_rings : * mut sys :: godot_method_bind , pub get_top_radius : * mut sys :: godot_method_bind , pub set_bottom_radius : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_radial_segments : * mut sys :: godot_method_bind , pub set_rings : * mut sys :: godot_method_bind , pub set_top_radius : * mut sys :: godot_method_bind } impl CylinderMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CylinderMeshMethodTable = CylinderMeshMethodTable { class_constructor : None , get_bottom_radius : 0 as * mut sys :: godot_method_bind , get_height : 0 as * mut sys :: godot_method_bind , get_radial_segments : 0 as * mut sys :: godot_method_bind , get_rings : 0 as * mut sys :: godot_method_bind , get_top_radius : 0 as * mut sys :: godot_method_bind , set_bottom_radius : 0 as * mut sys :: godot_method_bind , set_height : 0 as * mut sys :: godot_method_bind , set_radial_segments : 0 as * mut sys :: godot_method_bind , set_rings : 0 as * mut sys :: godot_method_bind , set_top_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 (|| { CylinderMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CylinderMesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bottom_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_bottom_radius\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_radial_segments = (gd_api . godot_method_bind_get_method) (class_name , "get_radial_segments\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 . get_top_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_top_radius\0" . as_ptr () as * const c_char) ; table . set_bottom_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_bottom_radius\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_radial_segments = (gd_api . godot_method_bind_get_method) (class_name , "set_radial_segments\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) ; table . set_top_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_top_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-7a634cfa4295a760/out/generated.rs:472:7201 [INFO] [stdout] | [INFO] [stdout] 472 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 ViewportContainer` inherits `Container` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_viewportcontainer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`ViewportContainer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nViewportContainer inherits methods from:\n - [Container](struct.Container.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ViewportContainer { this : RawObject < Self > , } impl ViewportContainer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ViewportContainerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Divides the viewport's effective resolution by this value while preserving its scale. This can be used to speed up rendering.\nFor example, a 1280×720 viewport with [member stretch_shrink] set to `2` will be rendered at 640×360 while occupying the same size in the container.\n**Note:** [member stretch] must be `true` for this property to work."] # [doc = ""] # [inline] pub fn stretch_shrink (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . get_stretch_shrink ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the viewport will be scaled to the control's size."] # [doc = ""] # [inline] pub fn is_stretch_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . is_stretch_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the viewport will be scaled to the control's size."] # [doc = ""] # [inline] pub fn set_stretch (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . set_stretch ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Divides the viewport's effective resolution by this value while preserving its scale. This can be used to speed up rendering.\nFor example, a 1280×720 viewport with [member stretch_shrink] set to `2` will be rendered at 640×360 while occupying the same size in the container.\n**Note:** [member stretch] must be `true` for this property to work."] # [doc = ""] # [inline] pub fn set_stretch_shrink (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportContainerMethodTable :: get (get_api ()) . set_stretch_shrink ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ViewportContainer { } unsafe impl GodotObject for ViewportContainer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ViewportContainer" } } impl QueueFree for ViewportContainer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for ViewportContainer { type Target = crate :: generated :: container :: Container ; # [inline] fn deref (& self) -> & crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ViewportContainer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: container :: Container { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: container :: Container > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: control :: Control > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: node :: Node > for ViewportContainer { } unsafe impl SubClass < crate :: generated :: object :: Object > for ViewportContainer { } impl Instanciable for ViewportContainer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ViewportContainer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ViewportContainerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_stretch_shrink : * mut sys :: godot_method_bind , pub is_stretch_enabled : * mut sys :: godot_method_bind , pub set_stretch : * mut sys :: godot_method_bind , pub set_stretch_shrink : * mut sys :: godot_method_bind } impl ViewportContainerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ViewportContainerMethodTable = ViewportContainerMethodTable { class_constructor : None , get_stretch_shrink : 0 as * mut sys :: godot_method_bind , is_stretch_enabled : 0 as * mut sys :: godot_method_bind , set_stretch : 0 as * mut sys :: godot_method_bind , set_stretch_shrink : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ViewportContainerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ViewportContainer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_stretch_shrink = (gd_api . godot_method_bind_get_method) (class_name , "get_stretch_shrink\0" . as_ptr () as * const c_char) ; table . is_stretch_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_stretch_enabled\0" . as_ptr () as * const c_char) ; table . set_stretch = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch\0" . as_ptr () as * const c_char) ; table . set_stretch_shrink = (gd_api . godot_method_bind_get_method) (class_name , "set_stretch_shrink\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:478:32552 [INFO] [stdout] | [INFO] [stdout] 478 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:484:17190 [INFO] [stdout] | [INFO] [stdout] 484 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:490:4827 [INFO] [stdout] | [INFO] [stdout] 490 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 InputEventPanGesture` inherits `InputEventGesture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventpangesture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventPanGesture inherits methods from:\n - [InputEventGesture](struct.InputEventGesture.html)\n - [InputEventWithModifiers](struct.InputEventWithModifiers.html)\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventPanGesture { this : RawObject < Self > , } impl InputEventPanGesture { # [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 = InputEventPanGestureMethodTable :: 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 delta (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventPanGestureMethodTable :: get (get_api ()) . get_delta ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_delta (& self , delta : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventPanGestureMethodTable :: get (get_api ()) . set_delta ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , delta) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventPanGesture { } unsafe impl GodotObject for InputEventPanGesture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventPanGesture" } } impl std :: ops :: Deref for InputEventPanGesture { type Target = crate :: generated :: input_event_gesture :: InputEventGesture ; # [inline] fn deref (& self) -> & crate :: generated :: input_event_gesture :: InputEventGesture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventPanGesture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event_gesture :: InputEventGesture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event_gesture :: InputEventGesture > for InputEventPanGesture { } unsafe impl SubClass < crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers > for InputEventPanGesture { } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventPanGesture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventPanGesture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventPanGesture { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventPanGesture { } impl Instanciable for InputEventPanGesture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { InputEventPanGesture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventPanGestureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_delta : * mut sys :: godot_method_bind , pub set_delta : * mut sys :: godot_method_bind } impl InputEventPanGestureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventPanGestureMethodTable = InputEventPanGestureMethodTable { class_constructor : None , get_delta : 0 as * mut sys :: godot_method_bind , set_delta : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventPanGestureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventPanGesture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_delta = (gd_api . godot_method_bind_get_method) (class_name , "get_delta\0" . as_ptr () as * const c_char) ; table . set_delta = (gd_api . godot_method_bind_get_method) (class_name , "set_delta\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:496:7181 [INFO] [stdout] | [INFO] [stdout] 496 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Joint2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_joint2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nJoint2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Joint2D { this : RawObject < Self > , } impl Joint2D { # [doc = "When [member node_a] and [member node_b] move in different directions the `bias` controls how fast the joint pulls them back to their original position. The lower the `bias` the more the two bodies can pull on the joint."] # [doc = ""] # [inline] pub fn bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, [member node_a] and [member node_b] can not collide."] # [doc = ""] # [inline] pub fn exclude_nodes_from_collision (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The first body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn node_a (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_node_a ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The second body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn node_b (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . get_node_b ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "When [member node_a] and [member node_b] move in different directions the `bias` controls how fast the joint pulls them back to their original position. The lower the `bias` the more the two bodies can pull on the joint."] # [doc = ""] # [inline] pub fn set_bias (& self , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bias) ; } } # [doc = "If `true`, [member node_a] and [member node_b] can not collide."] # [doc = ""] # [inline] pub fn set_exclude_nodes_from_collision (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_exclude_nodes_from_collision ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The first body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn set_node_a (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_node_a ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } # [doc = "The second body attached to the joint. Must derive from [PhysicsBody2D]."] # [doc = ""] # [inline] pub fn set_node_b (& self , node : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = Joint2DMethodTable :: get (get_api ()) . set_node_b ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , node . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Joint2D { } unsafe impl GodotObject for Joint2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Joint2D" } } impl QueueFree for Joint2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Joint2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Joint2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for Joint2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for Joint2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for Joint2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for Joint2D { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct Joint2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_bias : * mut sys :: godot_method_bind , pub get_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub get_node_a : * mut sys :: godot_method_bind , pub get_node_b : * mut sys :: godot_method_bind , pub set_bias : * mut sys :: godot_method_bind , pub set_exclude_nodes_from_collision : * mut sys :: godot_method_bind , pub set_node_a : * mut sys :: godot_method_bind , pub set_node_b : * mut sys :: godot_method_bind } impl Joint2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : Joint2DMethodTable = Joint2DMethodTable { class_constructor : None , get_bias : 0 as * mut sys :: godot_method_bind , get_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , get_node_a : 0 as * mut sys :: godot_method_bind , get_node_b : 0 as * mut sys :: godot_method_bind , set_bias : 0 as * mut sys :: godot_method_bind , set_exclude_nodes_from_collision : 0 as * mut sys :: godot_method_bind , set_node_a : 0 as * mut sys :: godot_method_bind , set_node_b : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { Joint2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Joint2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_bias\0" . as_ptr () as * const c_char) ; table . get_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "get_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . get_node_a = (gd_api . godot_method_bind_get_method) (class_name , "get_node_a\0" . as_ptr () as * const c_char) ; table . get_node_b = (gd_api . godot_method_bind_get_method) (class_name , "get_node_b\0" . as_ptr () as * const c_char) ; table . set_bias = (gd_api . godot_method_bind_get_method) (class_name , "set_bias\0" . as_ptr () as * const c_char) ; table . set_exclude_nodes_from_collision = (gd_api . godot_method_bind_get_method) (class_name , "set_exclude_nodes_from_collision\0" . as_ptr () as * const c_char) ; table . set_node_a = (gd_api . godot_method_bind_get_method) (class_name , "set_node_a\0" . as_ptr () as * const c_char) ; table . set_node_b = (gd_api . godot_method_bind_get_method) (class_name , "set_node_b\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:502:4217 [INFO] [stdout] | [INFO] [stdout] 502 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:508:7422 [INFO] [stdout] | [INFO] [stdout] 508 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:514:4038 [INFO] [stdout] | [INFO] [stdout] 514 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Shape` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_shape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nShape 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 Shape { this : RawObject < Self > , } impl Shape { # [doc = ""] # [doc = ""] # [inline] pub fn get_debug_mesh (& self) -> Option < Ref < crate :: generated :: array_mesh :: ArrayMesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ShapeMethodTable :: get (get_api ()) . get_debug_mesh ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: array_mesh :: ArrayMesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The collision margin for the shape."] # [doc = ""] # [inline] pub fn margin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ShapeMethodTable :: get (get_api ()) . get_margin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [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 = ShapeMethodTable :: get (get_api ()) . set_margin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , margin) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Shape { } unsafe impl GodotObject for Shape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Shape" } } impl std :: ops :: Deref for Shape { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Shape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Shape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Shape { } unsafe impl SubClass < crate :: generated :: object :: Object > for Shape { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_debug_mesh : * mut sys :: godot_method_bind , pub get_margin : * mut sys :: godot_method_bind , pub set_margin : * mut sys :: godot_method_bind } impl ShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ShapeMethodTable = ShapeMethodTable { class_constructor : None , get_debug_mesh : 0 as * mut sys :: godot_method_bind , get_margin : 0 as * mut sys :: godot_method_bind , set_margin : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Shape\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_debug_mesh = (gd_api . godot_method_bind_get_method) (class_name , "get_debug_mesh\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 . set_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_margin\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:520:16804 [INFO] [stdout] | [INFO] [stdout] 520 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 520 | # [doc = "`core class OptionButton` inherits `Button` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_optionbutton.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`OptionButton` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nOptionButton inherits methods from:\n - [Button](struct.Button.html)\n - [BaseButton](struct.BaseButton.html)\n - [Control](struct.Control.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct OptionButton { this : RawObject < Self > , } impl OptionButton { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = OptionButtonMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds an item, with a `texture` icon, text `label` and (optionally) `id`. If no `id` is passed, the item index will be used as the item's ID. New items are appended at the end.\n# Default Arguments\n* `id` - `-1`"] # [doc = ""] # [inline] pub fn add_icon_item (& self , texture : impl AsArg < crate :: generated :: texture :: Texture > , label : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . add_icon_item ; let ret = crate :: icalls :: icallptr_void_obj_str_i64 (method_bind , self . this . sys () . as_ptr () , texture . as_arg_ptr () , label . into () , id) ; } } # [doc = "Adds an item, with text `label` and (optionally) `id`. If no `id` is passed, the item index will be used as the item's ID. New items are appended at the end.\n# Default Arguments\n* `id` - `-1`"] # [doc = ""] # [inline] pub fn add_item (& self , label : impl Into < GodotString > , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . add_item ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , label . into () , id) ; } } # [doc = "Adds a separator to the list of items. Separators help to group items. Separator also takes up an index and is appended at the end."] # [doc = ""] # [inline] pub fn add_separator (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . add_separator ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Clears all the items in the [OptionButton]."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Returns the amount of items in the OptionButton, including separators."] # [doc = ""] # [inline] pub fn get_item_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the icon of the item at index `idx`."] # [doc = ""] # [inline] pub fn get_item_icon (& self , idx : i64) -> Option < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_icon ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: texture :: Texture , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the ID of the item at index `idx`."] # [doc = ""] # [inline] pub fn get_item_id (& self , idx : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_id ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns the index of the item with the given `id`."] # [doc = ""] # [inline] pub fn get_item_index (& self , id : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_index ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , id) ; ret as _ } } # [doc = "Retrieves the metadata of an item. Metadata may be any type and can be used to store extra information about an item, such as an external string ID."] # [doc = ""] # [inline] pub fn get_item_metadata (& self , idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_metadata ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Variant :: from_sys (ret) } } # [doc = "Returns the text of the item at index `idx`."] # [doc = ""] # [inline] pub fn get_item_text (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_item_text ; let ret = crate :: icalls :: icallptr_str_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; GodotString :: from_sys (ret) } } # [doc = "Returns the [PopupMenu] contained in this button."] # [doc = ""] # [inline] pub fn get_popup (& self) -> Option < Ref < crate :: generated :: popup_menu :: PopupMenu , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_popup ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: popup_menu :: PopupMenu , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The index of the currently selected item, or `-1` if no item is selected."] # [doc = ""] # [inline] pub fn selected (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_selected ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the ID of the selected item, or `0` if no item is selected."] # [doc = ""] # [inline] pub fn get_selected_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_selected_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Gets the metadata of the selected item. Metadata for items can be set using [method set_item_metadata]."] # [doc = ""] # [inline] pub fn get_selected_metadata (& self) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . get_selected_metadata ; let ret = crate :: icalls :: icallptr_var (method_bind , self . this . sys () . as_ptr ()) ; Variant :: from_sys (ret) } } # [doc = "Returns `true` if the item at index `idx` is disabled."] # [doc = ""] # [inline] pub fn is_item_disabled (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . is_item_disabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Removes the item at index `idx`."] # [doc = ""] # [inline] pub fn remove_item (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . remove_item ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Selects an item by index and makes it the current item. This will work even if the item is disabled."] # [doc = ""] # [inline] pub fn select (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . select ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Sets whether the item at index `idx` is disabled.\nDisabled items are drawn differently in the dropdown and are not selectable by the user. If the current selected item is set as disabled, it will remain selected."] # [doc = ""] # [inline] pub fn set_item_disabled (& self , idx : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_disabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , disabled) ; } } # [doc = "Sets the icon of the item at index `idx`."] # [doc = ""] # [inline] pub fn set_item_icon (& self , idx : i64 , texture : impl AsArg < crate :: generated :: texture :: Texture >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_icon ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , idx , texture . as_arg_ptr ()) ; } } # [doc = "Sets the ID of the item at index `idx`."] # [doc = ""] # [inline] pub fn set_item_id (& self , idx : i64 , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_id ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , idx , id) ; } } # [doc = "Sets the metadata of an item. Metadata may be of any type and can be used to store extra information about an item, such as an external string ID."] # [doc = ""] # [inline] pub fn set_item_metadata (& self , idx : i64 , metadata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_metadata ; let ret = crate :: icalls :: icallptr_void_i64_var (method_bind , self . this . sys () . as_ptr () , idx , metadata . owned_to_variant ()) ; } } # [doc = "Sets the text of the item at index `idx`."] # [doc = ""] # [inline] pub fn set_item_text (& self , idx : i64 , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = OptionButtonMethodTable :: get (get_api ()) . set_item_text ; let ret = crate :: icalls :: icallptr_void_i64_str (method_bind , self . this . sys () . as_ptr () , idx , text . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for OptionButton { } unsafe impl GodotObject for OptionButton { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "OptionButton" } } impl QueueFree for OptionButton { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for OptionButton { type Target = crate :: generated :: button :: Button ; # [inline] fn deref (& self) -> & crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for OptionButton { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: button :: Button { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: button :: Button > for OptionButton { } unsafe impl SubClass < crate :: generated :: base_button :: BaseButton > for OptionButton { } unsafe impl SubClass < crate :: generated :: control :: Control > for OptionButton { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for OptionButton { } unsafe impl SubClass < crate :: generated :: node :: Node > for OptionButton { } unsafe impl SubClass < crate :: generated :: object :: Object > for OptionButton { } impl Instanciable for OptionButton { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { OptionButton :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct OptionButtonMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_icon_item : * mut sys :: godot_method_bind , pub add_item : * mut sys :: godot_method_bind , pub add_separator : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub get_item_count : * mut sys :: godot_method_bind , pub get_item_icon : * mut sys :: godot_method_bind , pub get_item_id : * mut sys :: godot_method_bind , pub get_item_index : * mut sys :: godot_method_bind , pub get_item_metadata : * mut sys :: godot_method_bind , pub get_item_text : * mut sys :: godot_method_bind , pub get_popup : * mut sys :: godot_method_bind , pub get_selected : * mut sys :: godot_method_bind , pub get_selected_id : * mut sys :: godot_method_bind , pub get_selected_metadata : * mut sys :: godot_method_bind , pub is_item_disabled : * mut sys :: godot_method_bind , pub remove_item : * mut sys :: godot_method_bind , pub select : * mut sys :: godot_method_bind , pub set_item_disabled : * mut sys :: godot_method_bind , pub set_item_icon : * mut sys :: godot_method_bind , pub set_item_id : * mut sys :: godot_method_bind , pub set_item_metadata : * mut sys :: godot_method_bind , pub set_item_text : * mut sys :: godot_method_bind } impl OptionButtonMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : OptionButtonMethodTable = OptionButtonMethodTable { class_constructor : None , add_icon_item : 0 as * mut sys :: godot_method_bind , add_item : 0 as * mut sys :: godot_method_bind , add_separator : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , get_item_count : 0 as * mut sys :: godot_method_bind , get_item_icon : 0 as * mut sys :: godot_method_bind , get_item_id : 0 as * mut sys :: godot_method_bind , get_item_index : 0 as * mut sys :: godot_method_bind , get_item_metadata : 0 as * mut sys :: godot_method_bind , get_item_text : 0 as * mut sys :: godot_method_bind , get_popup : 0 as * mut sys :: godot_method_bind , get_selected : 0 as * mut sys :: godot_method_bind , get_selected_id : 0 as * mut sys :: godot_method_bind , get_selected_metadata : 0 as * mut sys :: godot_method_bind , is_item_disabled : 0 as * mut sys :: godot_method_bind , remove_item : 0 as * mut sys :: godot_method_bind , select : 0 as * mut sys :: godot_method_bind , set_item_disabled : 0 as * mut sys :: godot_method_bind , set_item_icon : 0 as * mut sys :: godot_method_bind , set_item_id : 0 as * mut sys :: godot_method_bind , set_item_metadata : 0 as * mut sys :: godot_method_bind , set_item_text : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { OptionButtonMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "OptionButton\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_icon_item = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_item\0" . as_ptr () as * const c_char) ; table . add_item = (gd_api . godot_method_bind_get_method) (class_name , "add_item\0" . as_ptr () as * const c_char) ; table . add_separator = (gd_api . godot_method_bind_get_method) (class_name , "add_separator\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . get_item_count = (gd_api . godot_method_bind_get_method) (class_name , "get_item_count\0" . as_ptr () as * const c_char) ; table . get_item_icon = (gd_api . godot_method_bind_get_method) (class_name , "get_item_icon\0" . as_ptr () as * const c_char) ; table . get_item_id = (gd_api . godot_method_bind_get_method) (class_name , "get_item_id\0" . as_ptr () as * const c_char) ; table . get_item_index = (gd_api . godot_method_bind_get_method) (class_name , "get_item_index\0" . as_ptr () as * const c_char) ; table . get_item_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_item_metadata\0" . as_ptr () as * const c_char) ; table . get_item_text = (gd_api . godot_method_bind_get_method) (class_name , "get_item_text\0" . as_ptr () as * const c_char) ; table . get_popup = (gd_api . godot_method_bind_get_method) (class_name , "get_popup\0" . as_ptr () as * const c_char) ; table . get_selected = (gd_api . godot_method_bind_get_method) (class_name , "get_selected\0" . as_ptr () as * const c_char) ; table . get_selected_id = (gd_api . godot_method_bind_get_method) (class_name , "get_selected_id\0" . as_ptr () as * const c_char) ; table . get_selected_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_selected_metadata\0" . as_ptr () as * const c_char) ; table . is_item_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_item_disabled\0" . as_ptr () as * const c_char) ; table . remove_item = (gd_api . godot_method_bind_get_method) (class_name , "remove_item\0" . as_ptr () as * const c_char) ; table . select = (gd_api . godot_method_bind_get_method) (class_name , "select\0" . as_ptr () as * const c_char) ; table . set_item_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_item_disabled\0" . as_ptr () as * const c_char) ; table . set_item_icon = (gd_api . godot_method_bind_get_method) (class_name , "set_item_icon\0" . as_ptr () as * const c_char) ; table . set_item_id = (gd_api . godot_method_bind_get_method) (class_name , "set_item_id\0" . as_ptr () as * const c_char) ; table . set_item_metadata = (gd_api . godot_method_bind_get_method) (class_name , "set_item_metadata\0" . as_ptr () as * const c_char) ; table . set_item_text = (gd_api . godot_method_bind_get_method) (class_name , "set_item_text\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:526:3595 [INFO] [stdout] | [INFO] [stdout] 526 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualScriptSwitch` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptswitch.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptSwitch 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 VisualScriptSwitch { this : RawObject < Self > , } impl VisualScriptSwitch { # [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 = VisualScriptSwitchMethodTable :: 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 VisualScriptSwitch { } unsafe impl GodotObject for VisualScriptSwitch { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptSwitch" } } impl std :: ops :: Deref for VisualScriptSwitch { 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 VisualScriptSwitch { # [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 VisualScriptSwitch { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptSwitch { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptSwitch { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptSwitch { } impl Instanciable for VisualScriptSwitch { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptSwitch :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptSwitchMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualScriptSwitchMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptSwitchMethodTable = VisualScriptSwitchMethodTable { 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 (|| { VisualScriptSwitchMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptSwitch\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-7a634cfa4295a760/out/generated.rs:532:29477 [INFO] [stdout] | [INFO] [stdout] 532 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:538:36596 [INFO] [stdout] | [INFO] [stdout] 538 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 SceneTree` inherits `MainLoop` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_scenetree.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`SceneTree` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nSceneTree inherits methods from:\n - [MainLoop](struct.MainLoop.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct SceneTree { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct GroupCallFlags (pub i64) ; impl GroupCallFlags { pub const DEFAULT : GroupCallFlags = GroupCallFlags (0i64) ; pub const REVERSE : GroupCallFlags = GroupCallFlags (1i64) ; pub const REALTIME : GroupCallFlags = GroupCallFlags (2i64) ; pub const UNIQUE : GroupCallFlags = GroupCallFlags (4i64) ; } impl From < i64 > for GroupCallFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < GroupCallFlags > for i64 { # [inline] fn from (v : GroupCallFlags) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct StretchAspect (pub i64) ; impl StretchAspect { pub const IGNORE : StretchAspect = StretchAspect (0i64) ; pub const KEEP : StretchAspect = StretchAspect (1i64) ; pub const KEEP_WIDTH : StretchAspect = StretchAspect (2i64) ; pub const KEEP_HEIGHT : StretchAspect = StretchAspect (3i64) ; pub const EXPAND : StretchAspect = StretchAspect (4i64) ; } impl From < i64 > for StretchAspect { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < StretchAspect > for i64 { # [inline] fn from (v : StretchAspect) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct StretchMode (pub i64) ; impl StretchMode { pub const DISABLED : StretchMode = StretchMode (0i64) ; pub const _2D : StretchMode = StretchMode (1i64) ; pub const VIEWPORT : StretchMode = StretchMode (2i64) ; } impl From < i64 > for StretchMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < StretchMode > for i64 { # [inline] fn from (v : StretchMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl SceneTree { pub const GROUP_CALL_DEFAULT : i64 = 0i64 ; pub const GROUP_CALL_REALTIME : i64 = 2i64 ; pub const GROUP_CALL_REVERSE : i64 = 1i64 ; pub const GROUP_CALL_UNIQUE : i64 = 4i64 ; pub const STRETCH_ASPECT_EXPAND : i64 = 4i64 ; pub const STRETCH_ASPECT_IGNORE : i64 = 0i64 ; pub const STRETCH_ASPECT_KEEP : i64 = 1i64 ; pub const STRETCH_ASPECT_KEEP_HEIGHT : i64 = 3i64 ; pub const STRETCH_ASPECT_KEEP_WIDTH : i64 = 2i64 ; pub const STRETCH_MODE_2D : i64 = 1i64 ; pub const STRETCH_MODE_DISABLED : i64 = 0i64 ; pub const STRETCH_MODE_VIEWPORT : i64 = 2i64 ; } impl SceneTree { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = SceneTreeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Calls `method` on each member of the given group."] # [doc = ""] # [inline] pub fn call_group (& self , group : impl Into < GodotString > , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . call_group ; let ret = crate :: icalls :: icallvarargs__str_str (method_bind , self . this . sys () . as_ptr () , group . into () , method . into () , varargs) ; ret } } # [doc = "Calls `method` on each member of the given group, respecting the given [enum GroupCallFlags]."] # [doc = ""] # [inline] pub fn call_group_flags (& self , flags : i64 , group : impl Into < GodotString > , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . call_group_flags ; let ret = crate :: icalls :: icallvarargs__i64_str_str (method_bind , self . this . sys () . as_ptr () , flags , group . into () , method . into () , varargs) ; ret } } # [doc = "Changes the running scene to the one at the given `path`, after loading it into a [PackedScene] and creating a new instance.\nReturns [constant OK] on success, [constant ERR_CANT_OPEN] if the `path` cannot be loaded into a [PackedScene], or [constant ERR_CANT_CREATE] if that scene cannot be instantiated."] # [doc = ""] # [inline] pub fn change_scene (& self , path : impl Into < GodotString >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . change_scene ; let ret = crate :: icalls :: icallptr_i64_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "Changes the running scene to a new instance of the given [PackedScene].\nReturns [constant OK] on success or [constant ERR_CANT_CREATE] if the scene cannot be instantiated."] # [doc = ""] # [inline] pub fn change_scene_to (& self , packed_scene : impl AsArg < crate :: generated :: packed_scene :: PackedScene >) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . change_scene_to ; let ret = crate :: icalls :: icallptr_i64_obj (method_bind , self . this . sys () . as_ptr () , packed_scene . as_arg_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nReturns a [SceneTreeTimer] which will [signal SceneTreeTimer.timeout] after the given time in seconds elapsed in this [SceneTree]. If `pause_mode_process` is set to `false`, pausing the [SceneTree] will also pause the timer.\nCommonly used to create a one-shot delay timer as in the following example:\n```gdscript\nfunc some_function():\n print(\"start\")\n yield(get_tree().create_timer(1.0), \"timeout\")\n print(\"end\")\n```\n# Default Arguments\n* `pause_mode_process` - `true`"] # [doc = ""] # [inline] pub fn create_timer (& self , time_sec : f64 , pause_mode_process : bool) -> Option < Ref < crate :: generated :: scene_tree_timer :: SceneTreeTimer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . create_timer ; let ret = crate :: icalls :: icallptr_obj_f64_bool (method_bind , self . this . sys () . as_ptr () , time_sec , pause_mode_process) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: scene_tree_timer :: SceneTreeTimer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The current scene."] # [doc = ""] # [inline] pub fn current_scene (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_current_scene ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The root of the edited scene."] # [doc = ""] # [inline] pub fn edited_scene_root (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_edited_scene_root ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the current frame number, i.e. the total frame count since the application started."] # [doc = ""] # [inline] pub fn get_frame (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_frame ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The default [MultiplayerAPI] instance for this [SceneTree]."] # [doc = ""] # [inline] pub fn multiplayer (& self) -> Option < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_multiplayer ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the peer IDs of all connected peers of this [SceneTree]'s [member network_peer]."] # [doc = ""] # [inline] pub fn get_network_connected_peers (& self) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_network_connected_peers ; let ret = crate :: icalls :: icallptr_i32arr (method_bind , self . this . sys () . as_ptr ()) ; Int32Array :: from_sys (ret) } } # [doc = "The peer object to handle the RPC system (effectively enabling networking when set). Depending on the peer itself, the [SceneTree] will become a network server (check with [method is_network_server]) and will set the root node's network mode to master, or it will become a regular peer with the root node set to puppet. All child nodes are set to inherit the network mode by default. Handling of networking-related events (connection, disconnection, new clients) is done by connecting to [SceneTree]'s signals."] # [doc = ""] # [inline] pub fn network_peer (& self) -> Option < Ref < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_network_peer ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the unique peer ID of this [SceneTree]'s [member network_peer]."] # [doc = ""] # [inline] pub fn get_network_unique_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_network_unique_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the number of nodes in this [SceneTree]."] # [doc = ""] # [inline] pub fn get_node_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_node_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a list of all nodes assigned to the given group."] # [doc = ""] # [inline] pub fn get_nodes_in_group (& self , group : impl Into < GodotString >) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_nodes_in_group ; let ret = crate :: icalls :: icallvar__str (method_bind , self . this . sys () . as_ptr () , group . into ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "The [SceneTree]'s root [Viewport]."] # [doc = ""] # [inline] pub fn root (& self) -> Option < Ref < crate :: generated :: viewport :: Viewport , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_root ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: viewport :: Viewport , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the sender's peer ID for the most recently received RPC call."] # [doc = ""] # [inline] pub fn get_rpc_sender_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . get_rpc_sender_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the given group exists."] # [doc = ""] # [inline] pub fn has_group (& self , name : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . has_group ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; ret as _ } } # [doc = "Returns `true` if there is a [member network_peer] set."] # [doc = ""] # [inline] pub fn has_network_peer (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . has_network_peer ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, collision shapes will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn is_debugging_collisions_hint (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_debugging_collisions_hint ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, navigation polygons will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn is_debugging_navigation_hint (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_debugging_navigation_hint ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the most recent [InputEvent] was marked as handled with [method set_input_as_handled]."] # [doc = ""] # [inline] pub fn is_input_handled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_input_handled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true` (default value), enables automatic polling of the [MultiplayerAPI] for this SceneTree during [signal idle_frame].\nIf `false`, you need to manually call [method MultiplayerAPI.poll] to process network packets and deliver RPCs/RSETs. This allows running RPCs/RSETs in a different loop (e.g. physics, thread, specific time step) and for manual [Mutex] protection when accessing the [MultiplayerAPI] from threads."] # [doc = ""] # [inline] pub fn is_multiplayer_poll_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_multiplayer_poll_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this [SceneTree]'s [member network_peer] is in server mode (listening for connections)."] # [doc = ""] # [inline] pub fn is_network_server (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_network_server ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the [SceneTree] is paused. Doing so will have the following behavior:\n- 2D and 3D physics will be stopped.\n- [method Node._process], [method Node._physics_process] and [method Node._input] will not be called anymore in nodes."] # [doc = ""] # [inline] pub fn is_paused (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_paused ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the [SceneTree]'s [member network_peer] refuses new incoming connections."] # [doc = ""] # [inline] pub fn is_refusing_new_network_connections (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_refusing_new_network_connections ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, font oversampling is used."] # [doc = ""] # [inline] pub fn is_using_font_oversampling (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . is_using_font_oversampling ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sends the given notification to all members of the `group`."] # [doc = ""] # [inline] pub fn notify_group (& self , group : impl Into < GodotString > , notification : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . notify_group ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , group . into () , notification) ; } } # [doc = "Sends the given notification to all members of the `group`, respecting the given [enum GroupCallFlags]."] # [doc = ""] # [inline] pub fn notify_group_flags (& self , call_flags : i64 , group : impl Into < GodotString > , notification : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . notify_group_flags ; let ret = crate :: icalls :: icallptr_void_i64_str_i64 (method_bind , self . this . sys () . as_ptr () , call_flags , group . into () , notification) ; } } # [doc = "Queues the given object for deletion, delaying the call to [method Object.free] to after the current frame."] # [doc = ""] # [inline] pub fn queue_delete (& self , obj : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . queue_delete ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , obj . as_arg_ptr ()) ; } } # [doc = "Quits the application. A process `exit_code` can optionally be passed as an argument. If this argument is `0` or greater, it will override the [member OS.exit_code] defined before quitting the application.\n# Default Arguments\n* `exit_code` - `-1`"] # [doc = ""] # [inline] pub fn quit (& self , exit_code : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . quit ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , exit_code) ; } } # [doc = "Reloads the currently active scene.\nReturns [constant OK] on success, [constant ERR_UNCONFIGURED] if no [member current_scene] was defined yet, [constant ERR_CANT_OPEN] if [member current_scene] cannot be loaded into a [PackedScene], or [constant ERR_CANT_CREATE] if the scene cannot be instantiated."] # [doc = ""] # [inline] pub fn reload_current_scene (& self) -> GodotResult { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . reload_current_scene ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; GodotError :: result_from_sys (ret as _) } } # [doc = "If `true`, the application automatically accepts quitting. Enabled by default.\nFor mobile platforms, see [method set_quit_on_go_back]."] # [doc = ""] # [inline] pub fn set_auto_accept_quit (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_auto_accept_quit ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The current scene."] # [doc = ""] # [inline] pub fn set_current_scene (& self , child_node : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_current_scene ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , child_node . as_arg_ptr ()) ; } } # [doc = "If `true`, collision shapes will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn set_debug_collisions_hint (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_debug_collisions_hint ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, navigation polygons will be visible when running the game from the editor for debugging purposes."] # [doc = ""] # [inline] pub fn set_debug_navigation_hint (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_debug_navigation_hint ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The root of the edited scene."] # [doc = ""] # [inline] pub fn set_edited_scene_root (& self , scene : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_edited_scene_root ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , scene . as_arg_ptr ()) ; } } # [doc = "Sets the given `property` to `value` on all members of the given group."] # [doc = ""] # [inline] pub fn set_group (& self , group : impl Into < GodotString > , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_group ; let ret = crate :: icalls :: icallptr_void_str_str_var (method_bind , self . this . sys () . as_ptr () , group . into () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Sets the given `property` to `value` on all members of the given group, respecting the given [enum GroupCallFlags]."] # [doc = ""] # [inline] pub fn set_group_flags (& self , call_flags : i64 , group : impl Into < GodotString > , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_group_flags ; let ret = crate :: icalls :: icallptr_void_i64_str_str_var (method_bind , self . this . sys () . as_ptr () , call_flags , group . into () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Marks the most recent [InputEvent] as handled."] # [doc = ""] # [inline] pub fn set_input_as_handled (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_input_as_handled ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The default [MultiplayerAPI] instance for this [SceneTree]."] # [doc = ""] # [inline] pub fn set_multiplayer (& self , multiplayer : impl AsArg < crate :: generated :: multiplayer_api :: MultiplayerAPI >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_multiplayer ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , multiplayer . as_arg_ptr ()) ; } } # [doc = "If `true` (default value), enables automatic polling of the [MultiplayerAPI] for this SceneTree during [signal idle_frame].\nIf `false`, you need to manually call [method MultiplayerAPI.poll] to process network packets and deliver RPCs/RSETs. This allows running RPCs/RSETs in a different loop (e.g. physics, thread, specific time step) and for manual [Mutex] protection when accessing the [MultiplayerAPI] from threads."] # [doc = ""] # [inline] pub fn set_multiplayer_poll_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_multiplayer_poll_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The peer object to handle the RPC system (effectively enabling networking when set). Depending on the peer itself, the [SceneTree] will become a network server (check with [method is_network_server]) and will set the root node's network mode to master, or it will become a regular peer with the root node set to puppet. All child nodes are set to inherit the network mode by default. Handling of networking-related events (connection, disconnection, new clients) is done by connecting to [SceneTree]'s signals."] # [doc = ""] # [inline] pub fn set_network_peer (& self , peer : impl AsArg < crate :: generated :: networked_multiplayer_peer :: NetworkedMultiplayerPeer >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_network_peer ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , peer . as_arg_ptr ()) ; } } # [doc = "If `true`, the [SceneTree] is paused. Doing so will have the following behavior:\n- 2D and 3D physics will be stopped.\n- [method Node._process], [method Node._physics_process] and [method Node._input] will not be called anymore in nodes."] # [doc = ""] # [inline] pub fn set_pause (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_pause ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the application quits automatically on going back (e.g. on Android). Enabled by default.\nTo handle 'Go Back' button when this option is disabled, use [constant MainLoop.NOTIFICATION_WM_GO_BACK_REQUEST]."] # [doc = ""] # [inline] pub fn set_quit_on_go_back (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_quit_on_go_back ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "If `true`, the [SceneTree]'s [member network_peer] refuses new incoming connections."] # [doc = ""] # [inline] pub fn set_refuse_new_network_connections (& self , refuse : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_refuse_new_network_connections ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , refuse) ; } } # [doc = "Configures screen stretching to the given [enum StretchMode], [enum StretchAspect], minimum size and `shrink` ratio.\n# Default Arguments\n* `shrink` - `1`"] # [doc = ""] # [inline] pub fn set_screen_stretch (& self , mode : i64 , aspect : i64 , minsize : Vector2 , shrink : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_screen_stretch ; let ret = crate :: icalls :: icallptr_void_i64_i64_vec2_f64 (method_bind , self . this . sys () . as_ptr () , mode , aspect , minsize , shrink) ; } } # [doc = "If `true`, font oversampling is used."] # [doc = ""] # [inline] pub fn set_use_font_oversampling (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SceneTreeMethodTable :: get (get_api ()) . set_use_font_oversampling ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for SceneTree { } unsafe impl GodotObject for SceneTree { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "SceneTree" } } impl std :: ops :: Deref for SceneTree { type Target = crate :: generated :: main_loop :: MainLoop ; # [inline] fn deref (& self) -> & crate :: generated :: main_loop :: MainLoop { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for SceneTree { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: main_loop :: MainLoop { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: main_loop :: MainLoop > for SceneTree { } unsafe impl SubClass < crate :: generated :: object :: Object > for SceneTree { } impl Instanciable for SceneTree { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { SceneTree :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SceneTreeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub call_group : * mut sys :: godot_method_bind , pub call_group_flags : * mut sys :: godot_method_bind , pub change_scene : * mut sys :: godot_method_bind , pub change_scene_to : * mut sys :: godot_method_bind , pub create_timer : * mut sys :: godot_method_bind , pub get_current_scene : * mut sys :: godot_method_bind , pub get_edited_scene_root : * mut sys :: godot_method_bind , pub get_frame : * mut sys :: godot_method_bind , pub get_multiplayer : * mut sys :: godot_method_bind , pub get_network_connected_peers : * mut sys :: godot_method_bind , pub get_network_peer : * mut sys :: godot_method_bind , pub get_network_unique_id : * mut sys :: godot_method_bind , pub get_node_count : * mut sys :: godot_method_bind , pub get_nodes_in_group : * mut sys :: godot_method_bind , pub get_root : * mut sys :: godot_method_bind , pub get_rpc_sender_id : * mut sys :: godot_method_bind , pub has_group : * mut sys :: godot_method_bind , pub has_network_peer : * mut sys :: godot_method_bind , pub is_debugging_collisions_hint : * mut sys :: godot_method_bind , pub is_debugging_navigation_hint : * mut sys :: godot_method_bind , pub is_input_handled : * mut sys :: godot_method_bind , pub is_multiplayer_poll_enabled : * mut sys :: godot_method_bind , pub is_network_server : * mut sys :: godot_method_bind , pub is_paused : * mut sys :: godot_method_bind , pub is_refusing_new_network_connections : * mut sys :: godot_method_bind , pub is_using_font_oversampling : * mut sys :: godot_method_bind , pub notify_group : * mut sys :: godot_method_bind , pub notify_group_flags : * mut sys :: godot_method_bind , pub queue_delete : * mut sys :: godot_method_bind , pub quit : * mut sys :: godot_method_bind , pub reload_current_scene : * mut sys :: godot_method_bind , pub set_auto_accept_quit : * mut sys :: godot_method_bind , pub set_current_scene : * mut sys :: godot_method_bind , pub set_debug_collisions_hint : * mut sys :: godot_method_bind , pub set_debug_navigation_hint : * mut sys :: godot_method_bind , pub set_edited_scene_root : * mut sys :: godot_method_bind , pub set_group : * mut sys :: godot_method_bind , pub set_group_flags : * mut sys :: godot_method_bind , pub set_input_as_handled : * mut sys :: godot_method_bind , pub set_multiplayer : * mut sys :: godot_method_bind , pub set_multiplayer_poll_enabled : * mut sys :: godot_method_bind , pub set_network_peer : * mut sys :: godot_method_bind , pub set_pause : * mut sys :: godot_method_bind , pub set_quit_on_go_back : * mut sys :: godot_method_bind , pub set_refuse_new_network_connections : * mut sys :: godot_method_bind , pub set_screen_stretch : * mut sys :: godot_method_bind , pub set_use_font_oversampling : * mut sys :: godot_method_bind } impl SceneTreeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SceneTreeMethodTable = SceneTreeMethodTable { class_constructor : None , call_group : 0 as * mut sys :: godot_method_bind , call_group_flags : 0 as * mut sys :: godot_method_bind , change_scene : 0 as * mut sys :: godot_method_bind , change_scene_to : 0 as * mut sys :: godot_method_bind , create_timer : 0 as * mut sys :: godot_method_bind , get_current_scene : 0 as * mut sys :: godot_method_bind , get_edited_scene_root : 0 as * mut sys :: godot_method_bind , get_frame : 0 as * mut sys :: godot_method_bind , get_multiplayer : 0 as * mut sys :: godot_method_bind , get_network_connected_peers : 0 as * mut sys :: godot_method_bind , get_network_peer : 0 as * mut sys :: godot_method_bind , get_network_unique_id : 0 as * mut sys :: godot_method_bind , get_node_count : 0 as * mut sys :: godot_method_bind , get_nodes_in_group : 0 as * mut sys :: godot_method_bind , get_root : 0 as * mut sys :: godot_method_bind , get_rpc_sender_id : 0 as * mut sys :: godot_method_bind , has_group : 0 as * mut sys :: godot_method_bind , has_network_peer : 0 as * mut sys :: godot_method_bind , is_debugging_collisions_hint : 0 as * mut sys :: godot_method_bind , is_debugging_navigation_hint : 0 as * mut sys :: godot_method_bind , is_input_handled : 0 as * mut sys :: godot_method_bind , is_multiplayer_poll_enabled : 0 as * mut sys :: godot_method_bind , is_network_server : 0 as * mut sys :: godot_method_bind , is_paused : 0 as * mut sys :: godot_method_bind , is_refusing_new_network_connections : 0 as * mut sys :: godot_method_bind , is_using_font_oversampling : 0 as * mut sys :: godot_method_bind , notify_group : 0 as * mut sys :: godot_method_bind , notify_group_flags : 0 as * mut sys :: godot_method_bind , queue_delete : 0 as * mut sys :: godot_method_bind , quit : 0 as * mut sys :: godot_method_bind , reload_current_scene : 0 as * mut sys :: godot_method_bind , set_auto_accept_quit : 0 as * mut sys :: godot_method_bind , set_current_scene : 0 as * mut sys :: godot_method_bind , set_debug_collisions_hint : 0 as * mut sys :: godot_method_bind , set_debug_navigation_hint : 0 as * mut sys :: godot_method_bind , set_edited_scene_root : 0 as * mut sys :: godot_method_bind , set_group : 0 as * mut sys :: godot_method_bind , set_group_flags : 0 as * mut sys :: godot_method_bind , set_input_as_handled : 0 as * mut sys :: godot_method_bind , set_multiplayer : 0 as * mut sys :: godot_method_bind , set_multiplayer_poll_enabled : 0 as * mut sys :: godot_method_bind , set_network_peer : 0 as * mut sys :: godot_method_bind , set_pause : 0 as * mut sys :: godot_method_bind , set_quit_on_go_back : 0 as * mut sys :: godot_method_bind , set_refuse_new_network_connections : 0 as * mut sys :: godot_method_bind , set_screen_stretch : 0 as * mut sys :: godot_method_bind , set_use_font_oversampling : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { SceneTreeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "SceneTree\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . call_group = (gd_api . godot_method_bind_get_method) (class_name , "call_group\0" . as_ptr () as * const c_char) ; table . call_group_flags = (gd_api . godot_method_bind_get_method) (class_name , "call_group_flags\0" . as_ptr () as * const c_char) ; table . change_scene = (gd_api . godot_method_bind_get_method) (class_name , "change_scene\0" . as_ptr () as * const c_char) ; table . change_scene_to = (gd_api . godot_method_bind_get_method) (class_name , "change_scene_to\0" . as_ptr () as * const c_char) ; table . create_timer = (gd_api . godot_method_bind_get_method) (class_name , "create_timer\0" . as_ptr () as * const c_char) ; table . get_current_scene = (gd_api . godot_method_bind_get_method) (class_name , "get_current_scene\0" . as_ptr () as * const c_char) ; table . get_edited_scene_root = (gd_api . godot_method_bind_get_method) (class_name , "get_edited_scene_root\0" . as_ptr () as * const c_char) ; table . get_frame = (gd_api . godot_method_bind_get_method) (class_name , "get_frame\0" . as_ptr () as * const c_char) ; table . get_multiplayer = (gd_api . godot_method_bind_get_method) (class_name , "get_multiplayer\0" . as_ptr () as * const c_char) ; table . get_network_connected_peers = (gd_api . godot_method_bind_get_method) (class_name , "get_network_connected_peers\0" . as_ptr () as * const c_char) ; table . get_network_peer = (gd_api . godot_method_bind_get_method) (class_name , "get_network_peer\0" . as_ptr () as * const c_char) ; table . get_network_unique_id = (gd_api . godot_method_bind_get_method) (class_name , "get_network_unique_id\0" . as_ptr () as * const c_char) ; table . get_node_count = (gd_api . godot_method_bind_get_method) (class_name , "get_node_count\0" . as_ptr () as * const c_char) ; table . get_nodes_in_group = (gd_api . godot_method_bind_get_method) (class_name , "get_nodes_in_group\0" . as_ptr () as * const c_char) ; table . get_root = (gd_api . godot_method_bind_get_method) (class_name , "get_root\0" . as_ptr () as * const c_char) ; table . get_rpc_sender_id = (gd_api . godot_method_bind_get_method) (class_name , "get_rpc_sender_id\0" . as_ptr () as * const c_char) ; table . has_group = (gd_api . godot_method_bind_get_method) (class_name , "has_group\0" . as_ptr () as * const c_char) ; table . has_network_peer = (gd_api . godot_method_bind_get_method) (class_name , "has_network_peer\0" . as_ptr () as * const c_char) ; table . is_debugging_collisions_hint = (gd_api . godot_method_bind_get_method) (class_name , "is_debugging_collisions_hint\0" . as_ptr () as * const c_char) ; table . is_debugging_navigation_hint = (gd_api . godot_method_bind_get_method) (class_name , "is_debugging_navigation_hint\0" . as_ptr () as * const c_char) ; table . is_input_handled = (gd_api . godot_method_bind_get_method) (class_name , "is_input_handled\0" . as_ptr () as * const c_char) ; table . is_multiplayer_poll_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_multiplayer_poll_enabled\0" . as_ptr () as * const c_char) ; table . is_network_server = (gd_api . godot_method_bind_get_method) (class_name , "is_network_server\0" . as_ptr () as * const c_char) ; table . is_paused = (gd_api . godot_method_bind_get_method) (class_name , "is_paused\0" . as_ptr () as * const c_char) ; table . is_refusing_new_network_connections = (gd_api . godot_method_bind_get_method) (class_name , "is_refusing_new_network_connections\0" . as_ptr () as * const c_char) ; table . is_using_font_oversampling = (gd_api . godot_method_bind_get_method) (class_name , "is_using_font_oversampling\0" . as_ptr () as * const c_char) ; table . notify_group = (gd_api . godot_method_bind_get_method) (class_name , "notify_group\0" . as_ptr () as * const c_char) ; table . notify_group_flags = (gd_api . godot_method_bind_get_method) (class_name , "notify_group_flags\0" . as_ptr () as * const c_char) ; table . queue_delete = (gd_api . godot_method_bind_get_method) (class_name , "queue_delete\0" . as_ptr () as * const c_char) ; table . quit = (gd_api . godot_method_bind_get_method) (class_name , "quit\0" . as_ptr () as * const c_char) ; table . reload_current_scene = (gd_api . godot_method_bind_get_method) (class_name , "reload_current_scene\0" . as_ptr () as * const c_char) ; table . set_auto_accept_quit = (gd_api . godot_method_bind_get_method) (class_name , "set_auto_accept_quit\0" . as_ptr () as * const c_char) ; table . set_current_scene = (gd_api . godot_method_bind_get_method) (class_name , "set_current_scene\0" . as_ptr () as * const c_char) ; table . set_debug_collisions_hint = (gd_api . godot_method_bind_get_method) (class_name , "set_debug_collisions_hint\0" . as_ptr () as * const c_char) ; table . set_debug_navigation_hint = (gd_api . godot_method_bind_get_method) (class_name , "set_debug_navigation_hint\0" . as_ptr () as * const c_char) ; table . set_edited_scene_root = (gd_api . godot_method_bind_get_method) (class_name , "set_edited_scene_root\0" . as_ptr () as * const c_char) ; table . set_group = (gd_api . godot_method_bind_get_method) (class_name , "set_group\0" . as_ptr () as * const c_char) ; table . set_group_flags = (gd_api . godot_method_bind_get_method) (class_name , "set_group_flags\0" . as_ptr () as * const c_char) ; table . set_input_as_handled = (gd_api . godot_method_bind_get_method) (class_name , "set_input_as_handled\0" . as_ptr () as * const c_char) ; table . set_multiplayer = (gd_api . godot_method_bind_get_method) (class_name , "set_multiplayer\0" . as_ptr () as * const c_char) ; table . set_multiplayer_poll_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_multiplayer_poll_enabled\0" . as_ptr () as * const c_char) ; table . set_network_peer = (gd_api . godot_method_bind_get_method) (class_name , "set_network_peer\0" . as_ptr () as * const c_char) ; table . set_pause = (gd_api . godot_method_bind_get_method) (class_name , "set_pause\0" . as_ptr () as * const c_char) ; table . set_quit_on_go_back = (gd_api . godot_method_bind_get_method) (class_name , "set_quit_on_go_back\0" . as_ptr () as * const c_char) ; table . set_refuse_new_network_connections = (gd_api . godot_method_bind_get_method) (class_name , "set_refuse_new_network_connections\0" . as_ptr () as * const c_char) ; table . set_screen_stretch = (gd_api . godot_method_bind_get_method) (class_name , "set_screen_stretch\0" . as_ptr () as * const c_char) ; table . set_use_font_oversampling = (gd_api . godot_method_bind_get_method) (class_name , "set_use_font_oversampling\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:544:7780 [INFO] [stdout] | [INFO] [stdout] 544 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeTextureUniform` inherits `VisualShaderNodeUniform` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodetextureuniform.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeTextureUniform 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 VisualShaderNodeTextureUniform { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ColorDefault (pub i64) ; impl ColorDefault { pub const WHITE : ColorDefault = ColorDefault (0i64) ; pub const BLACK : ColorDefault = ColorDefault (1i64) ; } impl From < i64 > for ColorDefault { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ColorDefault > for i64 { # [inline] fn from (v : ColorDefault) -> 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) ; pub const ANISO : TextureType = TextureType (3i64) ; } 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 VisualShaderNodeTextureUniform { pub const COLOR_DEFAULT_BLACK : i64 = 1i64 ; pub const COLOR_DEFAULT_WHITE : i64 = 0i64 ; pub const TYPE_ANISO : i64 = 3i64 ; pub const TYPE_COLOR : i64 = 1i64 ; pub const TYPE_DATA : i64 = 0i64 ; pub const TYPE_NORMALMAP : i64 = 2i64 ; } impl VisualShaderNodeTextureUniform { # [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 = VisualShaderNodeTextureUniformMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Sets the default color if no texture is assigned to the uniform."] # [doc = ""] # [inline] pub fn color_default (& self) -> crate :: generated :: visual_shader_node_texture_uniform :: ColorDefault { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTextureUniformMethodTable :: get (get_api ()) . get_color_default ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_texture_uniform :: ColorDefault (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_texture_uniform :: TextureType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTextureUniformMethodTable :: get (get_api ()) . get_texture_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_texture_uniform :: TextureType (ret) } } # [doc = "Sets the default color if no texture is assigned to the uniform."] # [doc = ""] # [inline] pub fn set_color_default (& self , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTextureUniformMethodTable :: get (get_api ()) . set_color_default ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; } } # [doc = "Defines the type of data provided by the source texture. See [enum TextureType] for options."] # [doc = ""] # [inline] pub fn set_texture_type (& self , _type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeTextureUniformMethodTable :: get (get_api ()) . set_texture_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , _type) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeTextureUniform { } unsafe impl GodotObject for VisualShaderNodeTextureUniform { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeTextureUniform" } } impl std :: ops :: Deref for VisualShaderNodeTextureUniform { 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 VisualShaderNodeTextureUniform { # [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 VisualShaderNodeTextureUniform { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeTextureUniform { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeTextureUniform { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeTextureUniform { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeTextureUniform { } impl Instanciable for VisualShaderNodeTextureUniform { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeTextureUniform :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeTextureUniformMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_color_default : * mut sys :: godot_method_bind , pub get_texture_type : * mut sys :: godot_method_bind , pub set_color_default : * mut sys :: godot_method_bind , pub set_texture_type : * mut sys :: godot_method_bind } impl VisualShaderNodeTextureUniformMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeTextureUniformMethodTable = VisualShaderNodeTextureUniformMethodTable { class_constructor : None , get_color_default : 0 as * mut sys :: godot_method_bind , get_texture_type : 0 as * mut sys :: godot_method_bind , set_color_default : 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 (|| { VisualShaderNodeTextureUniformMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeTextureUniform\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_color_default = (gd_api . godot_method_bind_get_method) (class_name , "get_color_default\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_color_default = (gd_api . godot_method_bind_get_method) (class_name , "set_color_default\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-7a634cfa4295a760/out/generated.rs:550:18021 [INFO] [stdout] | [INFO] [stdout] 550 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 GIProbe` inherits `VisualInstance` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_giprobe.html) in the Godot 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`GIProbe` 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\nGIProbe 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 GIProbe { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Subdiv (pub i64) ; impl Subdiv { pub const _64 : Subdiv = Subdiv (0i64) ; pub const _128 : Subdiv = Subdiv (1i64) ; pub const _256 : Subdiv = Subdiv (2i64) ; pub const _512 : Subdiv = Subdiv (3i64) ; pub const MAX : Subdiv = Subdiv (4i64) ; } impl From < i64 > for Subdiv { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Subdiv > for i64 { # [inline] fn from (v : Subdiv) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl GIProbe { pub const SUBDIV_128 : i64 = 1i64 ; pub const SUBDIV_256 : i64 = 2i64 ; pub const SUBDIV_512 : i64 = 3i64 ; pub const SUBDIV_64 : i64 = 0i64 ; pub const SUBDIV_MAX : i64 = 4i64 ; } impl GIProbe { # [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 = GIProbeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Bakes the effect from all [GeometryInstance]s marked with [member GeometryInstance.use_in_baked_light] and [Light]s marked with either [constant Light.BAKE_INDIRECT] or [constant Light.BAKE_ALL]. If `create_visual_debug` is `true`, after baking the light, this will generate a [MultiMesh] that has a cube representing each solid cell with each cube colored to the cell's albedo color. This can be used to visualize the [GIProbe]'s data and debug any issues that may be occurring.\n# Default Arguments\n* `from_node` - `null`\n* `create_visual_debug` - `false`"] # [doc = ""] # [inline] pub fn bake (& self , from_node : impl AsArg < crate :: generated :: node :: Node > , create_visual_debug : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . bake ; let ret = crate :: icalls :: icallptr_void_obj_bool (method_bind , self . this . sys () . as_ptr () , from_node . as_arg_ptr () , create_visual_debug) ; } } # [doc = "Calls [method bake] with `create_visual_debug` enabled."] # [doc = ""] # [inline] pub fn debug_bake (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . debug_bake ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Offsets the lookup of the light contribution from the [GIProbe]. This can be used to avoid self-shadowing, but may introduce light leaking at higher values. This and [member normal_bias] should be played around with to minimize self-shadowing and light leaking.\n**Note:** `bias` should usually be above 1.0 as that is the size of the voxels."] # [doc = ""] # [inline] pub fn bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum brightness that the [GIProbe] will recognize. Brightness will be scaled within this range."] # [doc = ""] # [inline] pub fn dynamic_range (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_dynamic_range ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Energy multiplier. Makes the lighting contribution from the [GIProbe] brighter."] # [doc = ""] # [inline] pub fn energy (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_energy ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The size of the area covered by the [GIProbe]. If you make the extents larger without increasing the subdivisions with [member subdiv], the size of each cell will increase and result in lower detailed lighting."] # [doc = ""] # [inline] pub fn extents (& self) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_extents ; let ret = crate :: icalls :: icallptr_vec3 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Offsets the lookup into the [GIProbe] based on the object's normal direction. Can be used to reduce some self-shadowing artifacts."] # [doc = ""] # [inline] pub fn normal_bias (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_normal_bias ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [GIProbeData] resource that holds the data for this [GIProbe]."] # [doc = ""] # [inline] pub fn probe_data (& self) -> Option < Ref < crate :: generated :: gi_probe_data :: GIProbeData , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_probe_data ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: gi_probe_data :: GIProbeData , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "How much light propagates through the probe internally. A higher value allows light to spread further."] # [doc = ""] # [inline] pub fn propagation (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_propagation ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of times to subdivide the grid that the [GIProbe] operates on. A higher number results in finer detail and thus higher visual quality, while lower numbers result in better performance."] # [doc = ""] # [inline] pub fn subdiv (& self) -> crate :: generated :: gi_probe :: Subdiv { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . get_subdiv ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: gi_probe :: Subdiv (ret) } } # [doc = "If `true`, the data for this [GIProbe] will be compressed. Compression saves space, but results in far worse visual quality."] # [doc = ""] # [inline] pub fn is_compressed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . is_compressed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, ignores the sky contribution when calculating lighting."] # [doc = ""] # [inline] pub fn is_interior (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . is_interior ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Offsets the lookup of the light contribution from the [GIProbe]. This can be used to avoid self-shadowing, but may introduce light leaking at higher values. This and [member normal_bias] should be played around with to minimize self-shadowing and light leaking.\n**Note:** `bias` should usually be above 1.0 as that is the size of the voxels."] # [doc = ""] # [inline] pub fn set_bias (& self , max : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , max) ; } } # [doc = "If `true`, the data for this [GIProbe] will be compressed. Compression saves space, but results in far worse visual quality."] # [doc = ""] # [inline] pub fn set_compress (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_compress ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The maximum brightness that the [GIProbe] will recognize. Brightness will be scaled within this range."] # [doc = ""] # [inline] pub fn set_dynamic_range (& self , max : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_dynamic_range ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , max) ; } } # [doc = "Energy multiplier. Makes the lighting contribution from the [GIProbe] brighter."] # [doc = ""] # [inline] pub fn set_energy (& self , max : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_energy ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , max) ; } } # [doc = "The size of the area covered by the [GIProbe]. If you make the extents larger without increasing the subdivisions with [member subdiv], the size of each cell will increase and result in lower detailed lighting."] # [doc = ""] # [inline] pub fn set_extents (& self , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_extents ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , extents) ; } } # [doc = "If `true`, ignores the sky contribution when calculating lighting."] # [doc = ""] # [inline] pub fn set_interior (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_interior ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Offsets the lookup into the [GIProbe] based on the object's normal direction. Can be used to reduce some self-shadowing artifacts."] # [doc = ""] # [inline] pub fn set_normal_bias (& self , max : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_normal_bias ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , max) ; } } # [doc = "The [GIProbeData] resource that holds the data for this [GIProbe]."] # [doc = ""] # [inline] pub fn set_probe_data (& self , data : impl AsArg < crate :: generated :: gi_probe_data :: GIProbeData >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_probe_data ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , data . as_arg_ptr ()) ; } } # [doc = "How much light propagates through the probe internally. A higher value allows light to spread further."] # [doc = ""] # [inline] pub fn set_propagation (& self , max : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_propagation ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , max) ; } } # [doc = "Number of times to subdivide the grid that the [GIProbe] operates on. A higher number results in finer detail and thus higher visual quality, while lower numbers result in better performance."] # [doc = ""] # [inline] pub fn set_subdiv (& self , subdiv : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GIProbeMethodTable :: get (get_api ()) . set_subdiv ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , subdiv) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for GIProbe { } unsafe impl GodotObject for GIProbe { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "GIProbe" } } impl QueueFree for GIProbe { # [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 GIProbe { 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 GIProbe { # [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 GIProbe { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for GIProbe { } unsafe impl SubClass < crate :: generated :: node :: Node > for GIProbe { } unsafe impl SubClass < crate :: generated :: object :: Object > for GIProbe { } impl Instanciable for GIProbe { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GIProbe :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GIProbeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub bake : * mut sys :: godot_method_bind , pub debug_bake : * mut sys :: godot_method_bind , pub get_bias : * mut sys :: godot_method_bind , pub get_dynamic_range : * mut sys :: godot_method_bind , pub get_energy : * mut sys :: godot_method_bind , pub get_extents : * mut sys :: godot_method_bind , pub get_normal_bias : * mut sys :: godot_method_bind , pub get_probe_data : * mut sys :: godot_method_bind , pub get_propagation : * mut sys :: godot_method_bind , pub get_subdiv : * 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_compress : * mut sys :: godot_method_bind , pub set_dynamic_range : * mut sys :: godot_method_bind , pub set_energy : * mut sys :: godot_method_bind , pub set_extents : * mut sys :: godot_method_bind , pub set_interior : * mut sys :: godot_method_bind , pub set_normal_bias : * mut sys :: godot_method_bind , pub set_probe_data : * mut sys :: godot_method_bind , pub set_propagation : * mut sys :: godot_method_bind , pub set_subdiv : * mut sys :: godot_method_bind } impl GIProbeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GIProbeMethodTable = GIProbeMethodTable { class_constructor : None , bake : 0 as * mut sys :: godot_method_bind , debug_bake : 0 as * mut sys :: godot_method_bind , get_bias : 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_extents : 0 as * mut sys :: godot_method_bind , get_normal_bias : 0 as * mut sys :: godot_method_bind , get_probe_data : 0 as * mut sys :: godot_method_bind , get_propagation : 0 as * mut sys :: godot_method_bind , get_subdiv : 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_compress : 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_extents : 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_probe_data : 0 as * mut sys :: godot_method_bind , set_propagation : 0 as * mut sys :: godot_method_bind , set_subdiv : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { GIProbeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GIProbe\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . bake = (gd_api . godot_method_bind_get_method) (class_name , "bake\0" . as_ptr () as * const c_char) ; table . debug_bake = (gd_api . godot_method_bind_get_method) (class_name , "debug_bake\0" . as_ptr () as * const c_char) ; table . get_bias = (gd_api . godot_method_bind_get_method) (class_name , "get_bias\0" . as_ptr () as * const c_char) ; table . get_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_extents = (gd_api . godot_method_bind_get_method) (class_name , "get_extents\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_probe_data = (gd_api . godot_method_bind_get_method) (class_name , "get_probe_data\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_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "get_subdiv\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_compress = (gd_api . godot_method_bind_get_method) (class_name , "set_compress\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_extents = (gd_api . godot_method_bind_get_method) (class_name , "set_extents\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_probe_data = (gd_api . godot_method_bind_get_method) (class_name , "set_probe_data\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_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "set_subdiv\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:556:7107 [INFO] [stdout] | [INFO] [stdout] 556 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:562:3868 [INFO] [stdout] | [INFO] [stdout] 562 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeVectorScalarMix` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodevectorscalarmix.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeVectorScalarMix inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeVectorScalarMix { this : RawObject < Self > , } impl VisualShaderNodeVectorScalarMix { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeVectorScalarMixMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeVectorScalarMix { } unsafe impl GodotObject for VisualShaderNodeVectorScalarMix { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeVectorScalarMix" } } impl std :: ops :: Deref for VisualShaderNodeVectorScalarMix { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeVectorScalarMix { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeVectorScalarMix { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeVectorScalarMix { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeVectorScalarMix { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeVectorScalarMix { } impl Instanciable for VisualShaderNodeVectorScalarMix { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeVectorScalarMix :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeVectorScalarMixMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeVectorScalarMixMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeVectorScalarMixMethodTable = VisualShaderNodeVectorScalarMixMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeVectorScalarMixMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeVectorScalarMix\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:568:11051 [INFO] [stdout] | [INFO] [stdout] 568 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:574:4329 [INFO] [stdout] | [INFO] [stdout] 574 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VideoStreamWebm` inherits `VideoStream` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_videostreamwebm.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVideoStreamWebm 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 VideoStreamWebm { this : RawObject < Self > , } impl VideoStreamWebm { # [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 = VideoStreamWebmMethodTable :: 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 = VideoStreamWebmMethodTable :: 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 = VideoStreamWebmMethodTable :: 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 VideoStreamWebm { } unsafe impl GodotObject for VideoStreamWebm { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VideoStreamWebm" } } impl std :: ops :: Deref for VideoStreamWebm { 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 VideoStreamWebm { # [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 VideoStreamWebm { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VideoStreamWebm { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VideoStreamWebm { } unsafe impl SubClass < crate :: generated :: object :: Object > for VideoStreamWebm { } impl Instanciable for VideoStreamWebm { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VideoStreamWebm :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VideoStreamWebmMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_file : * mut sys :: godot_method_bind , pub set_file : * mut sys :: godot_method_bind } impl VideoStreamWebmMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VideoStreamWebmMethodTable = VideoStreamWebmMethodTable { 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 (|| { VideoStreamWebmMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VideoStreamWebm\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-7a634cfa4295a760/out/generated.rs:580:6025 [INFO] [stdout] | [INFO] [stdout] 580 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:586:5952 [INFO] [stdout] | [INFO] [stdout] 586 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 586 | # [doc = "`core class AudioStreamMP3` inherits `AudioStream` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audiostreammp3.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioStreamMP3 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 AudioStreamMP3 { this : RawObject < Self > , } impl AudioStreamMP3 { # [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 = AudioStreamMP3MethodTable :: 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 data (& self) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamMP3MethodTable :: get (get_api ()) . get_data ; let ret = crate :: icalls :: icallptr_bytearr (method_bind , self . this . sys () . as_ptr ()) ; ByteArray :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn loop_offset (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamMP3MethodTable :: get (get_api ()) . get_loop_offset ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn has_loop (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamMP3MethodTable :: get (get_api ()) . has_loop ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_data (& self , data : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamMP3MethodTable :: get (get_api ()) . set_data ; let ret = crate :: icalls :: icallptr_void_bytearr (method_bind , self . this . sys () . as_ptr () , data) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_loop (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamMP3MethodTable :: get (get_api ()) . set_loop ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_loop_offset (& self , seconds : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioStreamMP3MethodTable :: get (get_api ()) . set_loop_offset ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , seconds) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioStreamMP3 { } unsafe impl GodotObject for AudioStreamMP3 { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioStreamMP3" } } impl std :: ops :: Deref for AudioStreamMP3 { 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 AudioStreamMP3 { # [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 AudioStreamMP3 { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioStreamMP3 { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioStreamMP3 { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioStreamMP3 { } impl Instanciable for AudioStreamMP3 { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioStreamMP3 :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioStreamMP3MethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_data : * mut sys :: godot_method_bind , pub get_loop_offset : * mut sys :: godot_method_bind , pub has_loop : * mut sys :: godot_method_bind , pub set_data : * mut sys :: godot_method_bind , pub set_loop : * mut sys :: godot_method_bind , pub set_loop_offset : * mut sys :: godot_method_bind } impl AudioStreamMP3MethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioStreamMP3MethodTable = AudioStreamMP3MethodTable { class_constructor : None , get_data : 0 as * mut sys :: godot_method_bind , get_loop_offset : 0 as * mut sys :: godot_method_bind , has_loop : 0 as * mut sys :: godot_method_bind , set_data : 0 as * mut sys :: godot_method_bind , set_loop : 0 as * mut sys :: godot_method_bind , set_loop_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 (|| { AudioStreamMP3MethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioStreamMP3\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_data = (gd_api . godot_method_bind_get_method) (class_name , "get_data\0" . as_ptr () as * const c_char) ; table . get_loop_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_loop_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 . set_data = (gd_api . godot_method_bind_get_method) (class_name , "set_data\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_loop_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_loop_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-7a634cfa4295a760/out/generated.rs:592:4106 [INFO] [stdout] | [INFO] [stdout] 592 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeBooleanUniform` inherits `VisualShaderNodeUniform` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodebooleanuniform.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeBooleanUniform 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 VisualShaderNodeBooleanUniform { this : RawObject < Self > , } impl VisualShaderNodeBooleanUniform { # [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 = VisualShaderNodeBooleanUniformMethodTable :: 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 VisualShaderNodeBooleanUniform { } unsafe impl GodotObject for VisualShaderNodeBooleanUniform { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeBooleanUniform" } } impl std :: ops :: Deref for VisualShaderNodeBooleanUniform { 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 VisualShaderNodeBooleanUniform { # [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 VisualShaderNodeBooleanUniform { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeBooleanUniform { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeBooleanUniform { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeBooleanUniform { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeBooleanUniform { } impl Instanciable for VisualShaderNodeBooleanUniform { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeBooleanUniform :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeBooleanUniformMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeBooleanUniformMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeBooleanUniformMethodTable = VisualShaderNodeBooleanUniformMethodTable { 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 (|| { VisualShaderNodeBooleanUniformMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeBooleanUniform\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-7a634cfa4295a760/out/generated.rs:598:17552 [INFO] [stdout] | [INFO] [stdout] 598 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:604:282238 [INFO] [stdout] | [INFO] [stdout] 604 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 singleton class VisualServer` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualserver.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = ""] # [doc = "\n## Class hierarchy\n\nVisualServer inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualServer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ArrayFormat (pub i64) ; impl ArrayFormat { pub const FORMAT_VERTEX : ArrayFormat = ArrayFormat (1i64) ; pub const FORMAT_NORMAL : ArrayFormat = ArrayFormat (2i64) ; pub const FORMAT_TANGENT : ArrayFormat = ArrayFormat (4i64) ; pub const FORMAT_COLOR : ArrayFormat = ArrayFormat (8i64) ; pub const FORMAT_TEX_UV : ArrayFormat = ArrayFormat (16i64) ; pub const FORMAT_TEX_UV2 : ArrayFormat = ArrayFormat (32i64) ; pub const FORMAT_BONES : ArrayFormat = ArrayFormat (64i64) ; pub const FORMAT_WEIGHTS : ArrayFormat = ArrayFormat (128i64) ; pub const FORMAT_INDEX : ArrayFormat = ArrayFormat (256i64) ; pub const COMPRESS_VERTEX : ArrayFormat = ArrayFormat (512i64) ; pub const COMPRESS_NORMAL : ArrayFormat = ArrayFormat (1024i64) ; pub const COMPRESS_TANGENT : ArrayFormat = ArrayFormat (2048i64) ; pub const COMPRESS_COLOR : ArrayFormat = ArrayFormat (4096i64) ; pub const COMPRESS_TEX_UV : ArrayFormat = ArrayFormat (8192i64) ; pub const COMPRESS_TEX_UV2 : ArrayFormat = ArrayFormat (16384i64) ; pub const COMPRESS_BONES : ArrayFormat = ArrayFormat (32768i64) ; pub const COMPRESS_WEIGHTS : ArrayFormat = ArrayFormat (65536i64) ; pub const COMPRESS_DEFAULT : ArrayFormat = ArrayFormat (97280i64) ; pub const COMPRESS_INDEX : ArrayFormat = ArrayFormat (131072i64) ; pub const FLAG_USE_2D_VERTICES : ArrayFormat = ArrayFormat (262144i64) ; pub const FLAG_USE_16_BIT_BONES : ArrayFormat = ArrayFormat (524288i64) ; } impl From < i64 > for ArrayFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ArrayFormat > for i64 { # [inline] fn from (v : ArrayFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ArrayType (pub i64) ; impl ArrayType { pub const VERTEX : ArrayType = ArrayType (0i64) ; pub const NORMAL : ArrayType = ArrayType (1i64) ; pub const TANGENT : ArrayType = ArrayType (2i64) ; pub const COLOR : ArrayType = ArrayType (3i64) ; pub const TEX_UV : ArrayType = ArrayType (4i64) ; pub const TEX_UV2 : ArrayType = ArrayType (5i64) ; pub const BONES : ArrayType = ArrayType (6i64) ; pub const WEIGHTS : ArrayType = ArrayType (7i64) ; pub const INDEX : ArrayType = ArrayType (8i64) ; pub const MAX : ArrayType = ArrayType (9i64) ; } impl From < i64 > for ArrayType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ArrayType > for i64 { # [inline] fn from (v : ArrayType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BlendShapeMode (pub i64) ; impl BlendShapeMode { pub const NORMALIZED : BlendShapeMode = BlendShapeMode (0i64) ; pub const RELATIVE : BlendShapeMode = BlendShapeMode (1i64) ; } impl From < i64 > for BlendShapeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BlendShapeMode > for i64 { # [inline] fn from (v : BlendShapeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CanvasLightMode (pub i64) ; impl CanvasLightMode { pub const ADD : CanvasLightMode = CanvasLightMode (0i64) ; pub const SUB : CanvasLightMode = CanvasLightMode (1i64) ; pub const MIX : CanvasLightMode = CanvasLightMode (2i64) ; pub const MASK : CanvasLightMode = CanvasLightMode (3i64) ; } impl From < i64 > for CanvasLightMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CanvasLightMode > for i64 { # [inline] fn from (v : CanvasLightMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CanvasLightShadowFilter (pub i64) ; impl CanvasLightShadowFilter { pub const NONE : CanvasLightShadowFilter = CanvasLightShadowFilter (0i64) ; pub const PCF3 : CanvasLightShadowFilter = CanvasLightShadowFilter (1i64) ; pub const PCF5 : CanvasLightShadowFilter = CanvasLightShadowFilter (2i64) ; pub const PCF7 : CanvasLightShadowFilter = CanvasLightShadowFilter (3i64) ; pub const PCF9 : CanvasLightShadowFilter = CanvasLightShadowFilter (4i64) ; pub const PCF13 : CanvasLightShadowFilter = CanvasLightShadowFilter (5i64) ; } impl From < i64 > for CanvasLightShadowFilter { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CanvasLightShadowFilter > for i64 { # [inline] fn from (v : CanvasLightShadowFilter) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CanvasOccluderPolygonCullMode (pub i64) ; impl CanvasOccluderPolygonCullMode { pub const DISABLED : CanvasOccluderPolygonCullMode = CanvasOccluderPolygonCullMode (0i64) ; pub const CLOCKWISE : CanvasOccluderPolygonCullMode = CanvasOccluderPolygonCullMode (1i64) ; pub const COUNTER_CLOCKWISE : CanvasOccluderPolygonCullMode = CanvasOccluderPolygonCullMode (2i64) ; } impl From < i64 > for CanvasOccluderPolygonCullMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CanvasOccluderPolygonCullMode > for i64 { # [inline] fn from (v : CanvasOccluderPolygonCullMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CubeMapSide (pub i64) ; impl CubeMapSide { pub const LEFT : CubeMapSide = CubeMapSide (0i64) ; pub const RIGHT : CubeMapSide = CubeMapSide (1i64) ; pub const BOTTOM : CubeMapSide = CubeMapSide (2i64) ; pub const TOP : CubeMapSide = CubeMapSide (3i64) ; pub const FRONT : CubeMapSide = CubeMapSide (4i64) ; pub const BACK : CubeMapSide = CubeMapSide (5i64) ; } impl From < i64 > for CubeMapSide { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CubeMapSide > for i64 { # [inline] fn from (v : CubeMapSide) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentBg (pub i64) ; impl EnvironmentBg { pub const CLEAR_COLOR : EnvironmentBg = EnvironmentBg (0i64) ; pub const COLOR : EnvironmentBg = EnvironmentBg (1i64) ; pub const SKY : EnvironmentBg = EnvironmentBg (2i64) ; pub const COLOR_SKY : EnvironmentBg = EnvironmentBg (3i64) ; pub const CANVAS : EnvironmentBg = EnvironmentBg (4i64) ; pub const KEEP : EnvironmentBg = EnvironmentBg (5i64) ; pub const MAX : EnvironmentBg = EnvironmentBg (7i64) ; } impl From < i64 > for EnvironmentBg { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentBg > for i64 { # [inline] fn from (v : EnvironmentBg) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentDofBlurQuality (pub i64) ; impl EnvironmentDofBlurQuality { pub const LOW : EnvironmentDofBlurQuality = EnvironmentDofBlurQuality (0i64) ; pub const MEDIUM : EnvironmentDofBlurQuality = EnvironmentDofBlurQuality (1i64) ; pub const HIGH : EnvironmentDofBlurQuality = EnvironmentDofBlurQuality (2i64) ; } impl From < i64 > for EnvironmentDofBlurQuality { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentDofBlurQuality > for i64 { # [inline] fn from (v : EnvironmentDofBlurQuality) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentGlowBlendMode (pub i64) ; impl EnvironmentGlowBlendMode { pub const ADDITIVE : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (0i64) ; pub const SCREEN : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (1i64) ; pub const SOFTLIGHT : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (2i64) ; pub const REPLACE : EnvironmentGlowBlendMode = EnvironmentGlowBlendMode (3i64) ; } impl From < i64 > for EnvironmentGlowBlendMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentGlowBlendMode > for i64 { # [inline] fn from (v : EnvironmentGlowBlendMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentSsaoBlur (pub i64) ; impl EnvironmentSsaoBlur { pub const DISABLED : EnvironmentSsaoBlur = EnvironmentSsaoBlur (0i64) ; pub const _1X1 : EnvironmentSsaoBlur = EnvironmentSsaoBlur (1i64) ; pub const _2X2 : EnvironmentSsaoBlur = EnvironmentSsaoBlur (2i64) ; pub const _3X3 : EnvironmentSsaoBlur = EnvironmentSsaoBlur (3i64) ; } impl From < i64 > for EnvironmentSsaoBlur { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentSsaoBlur > for i64 { # [inline] fn from (v : EnvironmentSsaoBlur) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentSsaoQuality (pub i64) ; impl EnvironmentSsaoQuality { pub const LOW : EnvironmentSsaoQuality = EnvironmentSsaoQuality (0i64) ; pub const MEDIUM : EnvironmentSsaoQuality = EnvironmentSsaoQuality (1i64) ; pub const HIGH : EnvironmentSsaoQuality = EnvironmentSsaoQuality (2i64) ; } impl From < i64 > for EnvironmentSsaoQuality { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentSsaoQuality > for i64 { # [inline] fn from (v : EnvironmentSsaoQuality) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct EnvironmentToneMapper (pub i64) ; impl EnvironmentToneMapper { pub const LINEAR : EnvironmentToneMapper = EnvironmentToneMapper (0i64) ; pub const REINHARD : EnvironmentToneMapper = EnvironmentToneMapper (1i64) ; pub const FILMIC : EnvironmentToneMapper = EnvironmentToneMapper (2i64) ; pub const ACES : EnvironmentToneMapper = EnvironmentToneMapper (3i64) ; } impl From < i64 > for EnvironmentToneMapper { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < EnvironmentToneMapper > for i64 { # [inline] fn from (v : EnvironmentToneMapper) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Features (pub i64) ; impl Features { pub const SHADERS : Features = Features (0i64) ; pub const MULTITHREADED : Features = Features (1i64) ; } impl From < i64 > for Features { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Features > for i64 { # [inline] fn from (v : Features) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct InstanceFlags (pub i64) ; impl InstanceFlags { pub const USE_BAKED_LIGHT : InstanceFlags = InstanceFlags (0i64) ; pub const DRAW_NEXT_FRAME_IF_VISIBLE : InstanceFlags = InstanceFlags (1i64) ; pub const MAX : InstanceFlags = InstanceFlags (2i64) ; } impl From < i64 > for InstanceFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < InstanceFlags > for i64 { # [inline] fn from (v : InstanceFlags) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct InstanceType (pub i64) ; impl InstanceType { pub const NONE : InstanceType = InstanceType (0i64) ; pub const MESH : InstanceType = InstanceType (1i64) ; pub const MULTIMESH : InstanceType = InstanceType (2i64) ; pub const IMMEDIATE : InstanceType = InstanceType (3i64) ; pub const PARTICLES : InstanceType = InstanceType (4i64) ; pub const LIGHT : InstanceType = InstanceType (5i64) ; pub const REFLECTION_PROBE : InstanceType = InstanceType (6i64) ; pub const GI_PROBE : InstanceType = InstanceType (7i64) ; pub const LIGHTMAP_CAPTURE : InstanceType = InstanceType (8i64) ; pub const MAX : InstanceType = InstanceType (9i64) ; pub const GEOMETRY_MASK : InstanceType = InstanceType (30i64) ; } impl From < i64 > for InstanceType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < InstanceType > for i64 { # [inline] fn from (v : InstanceType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightBakeMode (pub i64) ; impl LightBakeMode { pub const DISABLED : LightBakeMode = LightBakeMode (0i64) ; pub const INDIRECT : LightBakeMode = LightBakeMode (1i64) ; pub const ALL : LightBakeMode = LightBakeMode (2i64) ; } impl From < i64 > for LightBakeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightBakeMode > for i64 { # [inline] fn from (v : LightBakeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightDirectionalShadowDepthRangeMode (pub i64) ; impl LightDirectionalShadowDepthRangeMode { pub const STABLE : LightDirectionalShadowDepthRangeMode = LightDirectionalShadowDepthRangeMode (0i64) ; pub const OPTIMIZED : LightDirectionalShadowDepthRangeMode = LightDirectionalShadowDepthRangeMode (1i64) ; } impl From < i64 > for LightDirectionalShadowDepthRangeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightDirectionalShadowDepthRangeMode > for i64 { # [inline] fn from (v : LightDirectionalShadowDepthRangeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightDirectionalShadowMode (pub i64) ; impl LightDirectionalShadowMode { pub const ORTHOGONAL : LightDirectionalShadowMode = LightDirectionalShadowMode (0i64) ; pub const PARALLEL_2_SPLITS : LightDirectionalShadowMode = LightDirectionalShadowMode (1i64) ; pub const PARALLEL_4_SPLITS : LightDirectionalShadowMode = LightDirectionalShadowMode (2i64) ; } impl From < i64 > for LightDirectionalShadowMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightDirectionalShadowMode > for i64 { # [inline] fn from (v : LightDirectionalShadowMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightOmniShadowDetail (pub i64) ; impl LightOmniShadowDetail { pub const VERTICAL : LightOmniShadowDetail = LightOmniShadowDetail (0i64) ; pub const HORIZONTAL : LightOmniShadowDetail = LightOmniShadowDetail (1i64) ; } impl From < i64 > for LightOmniShadowDetail { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightOmniShadowDetail > for i64 { # [inline] fn from (v : LightOmniShadowDetail) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightOmniShadowMode (pub i64) ; impl LightOmniShadowMode { pub const DUAL_PARABOLOID : LightOmniShadowMode = LightOmniShadowMode (0i64) ; pub const CUBE : LightOmniShadowMode = LightOmniShadowMode (1i64) ; } impl From < i64 > for LightOmniShadowMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightOmniShadowMode > for i64 { # [inline] fn from (v : LightOmniShadowMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightParam (pub i64) ; impl LightParam { pub const ENERGY : LightParam = LightParam (0i64) ; pub const SPECULAR : LightParam = LightParam (2i64) ; pub const RANGE : LightParam = LightParam (3i64) ; pub const ATTENUATION : LightParam = LightParam (4i64) ; pub const SPOT_ANGLE : LightParam = LightParam (5i64) ; pub const SPOT_ATTENUATION : LightParam = LightParam (6i64) ; pub const CONTACT_SHADOW_SIZE : LightParam = LightParam (7i64) ; pub const SHADOW_MAX_DISTANCE : LightParam = LightParam (8i64) ; pub const SHADOW_SPLIT_1_OFFSET : LightParam = LightParam (9i64) ; pub const SHADOW_SPLIT_2_OFFSET : LightParam = LightParam (10i64) ; pub const SHADOW_SPLIT_3_OFFSET : LightParam = LightParam (11i64) ; pub const SHADOW_NORMAL_BIAS : LightParam = LightParam (12i64) ; pub const SHADOW_BIAS : LightParam = LightParam (13i64) ; pub const SHADOW_BIAS_SPLIT_SCALE : LightParam = LightParam (14i64) ; pub const MAX : LightParam = LightParam (15i64) ; } impl From < i64 > for LightParam { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightParam > for i64 { # [inline] fn from (v : LightParam) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct LightType (pub i64) ; impl LightType { pub const DIRECTIONAL : LightType = LightType (0i64) ; pub const OMNI : LightType = LightType (1i64) ; pub const SPOT : LightType = LightType (2i64) ; } impl From < i64 > for LightType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < LightType > for i64 { # [inline] fn from (v : LightType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MultimeshColorFormat (pub i64) ; impl MultimeshColorFormat { pub const NONE : MultimeshColorFormat = MultimeshColorFormat (0i64) ; pub const _8BIT : MultimeshColorFormat = MultimeshColorFormat (1i64) ; pub const FLOAT : MultimeshColorFormat = MultimeshColorFormat (2i64) ; } impl From < i64 > for MultimeshColorFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MultimeshColorFormat > for i64 { # [inline] fn from (v : MultimeshColorFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MultimeshCustomDataFormat (pub i64) ; impl MultimeshCustomDataFormat { pub const NONE : MultimeshCustomDataFormat = MultimeshCustomDataFormat (0i64) ; pub const _8BIT : MultimeshCustomDataFormat = MultimeshCustomDataFormat (1i64) ; pub const FLOAT : MultimeshCustomDataFormat = MultimeshCustomDataFormat (2i64) ; } impl From < i64 > for MultimeshCustomDataFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MultimeshCustomDataFormat > for i64 { # [inline] fn from (v : MultimeshCustomDataFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MultimeshTransformFormat (pub i64) ; impl MultimeshTransformFormat { pub const _2D : MultimeshTransformFormat = MultimeshTransformFormat (0i64) ; pub const _3D : MultimeshTransformFormat = MultimeshTransformFormat (1i64) ; } impl From < i64 > for MultimeshTransformFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MultimeshTransformFormat > for i64 { # [inline] fn from (v : MultimeshTransformFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct NinePatchAxisMode (pub i64) ; impl NinePatchAxisMode { pub const STRETCH : NinePatchAxisMode = NinePatchAxisMode (0i64) ; pub const TILE : NinePatchAxisMode = NinePatchAxisMode (1i64) ; pub const TILE_FIT : NinePatchAxisMode = NinePatchAxisMode (2i64) ; } impl From < i64 > for NinePatchAxisMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < NinePatchAxisMode > for i64 { # [inline] fn from (v : NinePatchAxisMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ParticlesDrawOrder (pub i64) ; impl ParticlesDrawOrder { pub const INDEX : ParticlesDrawOrder = ParticlesDrawOrder (0i64) ; pub const LIFETIME : ParticlesDrawOrder = ParticlesDrawOrder (1i64) ; pub const VIEW_DEPTH : ParticlesDrawOrder = ParticlesDrawOrder (2i64) ; } impl From < i64 > for ParticlesDrawOrder { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ParticlesDrawOrder > for i64 { # [inline] fn from (v : ParticlesDrawOrder) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PrimitiveType (pub i64) ; impl PrimitiveType { pub const POINTS : PrimitiveType = PrimitiveType (0i64) ; pub const LINES : PrimitiveType = PrimitiveType (1i64) ; pub const LINE_STRIP : PrimitiveType = PrimitiveType (2i64) ; pub const LINE_LOOP : PrimitiveType = PrimitiveType (3i64) ; pub const TRIANGLES : PrimitiveType = PrimitiveType (4i64) ; pub const TRIANGLE_STRIP : PrimitiveType = PrimitiveType (5i64) ; pub const TRIANGLE_FAN : PrimitiveType = PrimitiveType (6i64) ; pub const MAX : PrimitiveType = PrimitiveType (7i64) ; } impl From < i64 > for PrimitiveType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PrimitiveType > for i64 { # [inline] fn from (v : PrimitiveType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ReflectionProbeUpdateMode (pub i64) ; impl ReflectionProbeUpdateMode { pub const ONCE : ReflectionProbeUpdateMode = ReflectionProbeUpdateMode (0i64) ; pub const ALWAYS : ReflectionProbeUpdateMode = ReflectionProbeUpdateMode (1i64) ; } impl From < i64 > for ReflectionProbeUpdateMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ReflectionProbeUpdateMode > for i64 { # [inline] fn from (v : ReflectionProbeUpdateMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct RenderInfo (pub i64) ; impl RenderInfo { pub const OBJECTS_IN_FRAME : RenderInfo = RenderInfo (0i64) ; pub const VERTICES_IN_FRAME : RenderInfo = RenderInfo (1i64) ; pub const MATERIAL_CHANGES_IN_FRAME : RenderInfo = RenderInfo (2i64) ; pub const SHADER_CHANGES_IN_FRAME : RenderInfo = RenderInfo (3i64) ; pub const SURFACE_CHANGES_IN_FRAME : RenderInfo = RenderInfo (4i64) ; pub const DRAW_CALLS_IN_FRAME : RenderInfo = RenderInfo (5i64) ; pub const _2D_ITEMS_IN_FRAME : RenderInfo = RenderInfo (6i64) ; pub const _2D_DRAW_CALLS_IN_FRAME : RenderInfo = RenderInfo (7i64) ; pub const USAGE_VIDEO_MEM_TOTAL : RenderInfo = RenderInfo (8i64) ; pub const VIDEO_MEM_USED : RenderInfo = RenderInfo (9i64) ; pub const TEXTURE_MEM_USED : RenderInfo = RenderInfo (10i64) ; pub const VERTEX_MEM_USED : RenderInfo = RenderInfo (11i64) ; } impl From < i64 > for RenderInfo { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < RenderInfo > for i64 { # [inline] fn from (v : RenderInfo) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ScenarioDebugMode (pub i64) ; impl ScenarioDebugMode { pub const DISABLED : ScenarioDebugMode = ScenarioDebugMode (0i64) ; pub const WIREFRAME : ScenarioDebugMode = ScenarioDebugMode (1i64) ; pub const OVERDRAW : ScenarioDebugMode = ScenarioDebugMode (2i64) ; pub const SHADELESS : ScenarioDebugMode = ScenarioDebugMode (3i64) ; } impl From < i64 > for ScenarioDebugMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ScenarioDebugMode > for i64 { # [inline] fn from (v : ScenarioDebugMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShaderMode (pub i64) ; impl ShaderMode { pub const SPATIAL : ShaderMode = ShaderMode (0i64) ; pub const CANVAS_ITEM : ShaderMode = ShaderMode (1i64) ; pub const PARTICLES : ShaderMode = ShaderMode (2i64) ; pub const MAX : ShaderMode = ShaderMode (3i64) ; } impl From < i64 > for ShaderMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShaderMode > for i64 { # [inline] fn from (v : ShaderMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ShadowCastingSetting (pub i64) ; impl ShadowCastingSetting { pub const OFF : ShadowCastingSetting = ShadowCastingSetting (0i64) ; pub const ON : ShadowCastingSetting = ShadowCastingSetting (1i64) ; pub const DOUBLE_SIDED : ShadowCastingSetting = ShadowCastingSetting (2i64) ; pub const SHADOWS_ONLY : ShadowCastingSetting = ShadowCastingSetting (3i64) ; } impl From < i64 > for ShadowCastingSetting { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ShadowCastingSetting > for i64 { # [inline] fn from (v : ShadowCastingSetting) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TextureFlags (pub i64) ; impl TextureFlags { pub const FLAG_MIPMAPS : TextureFlags = TextureFlags (1i64) ; pub const FLAG_REPEAT : TextureFlags = TextureFlags (2i64) ; pub const FLAG_FILTER : TextureFlags = TextureFlags (4i64) ; pub const FLAGS_DEFAULT : TextureFlags = TextureFlags (7i64) ; pub const FLAG_ANISOTROPIC_FILTER : TextureFlags = TextureFlags (8i64) ; pub const FLAG_CONVERT_TO_LINEAR : TextureFlags = TextureFlags (16i64) ; pub const FLAG_MIRRORED_REPEAT : TextureFlags = TextureFlags (32i64) ; pub const FLAG_USED_FOR_STREAMING : TextureFlags = TextureFlags (2048i64) ; } impl From < i64 > for TextureFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TextureFlags > for i64 { # [inline] fn from (v : TextureFlags) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TextureType (pub i64) ; impl TextureType { pub const _2D : TextureType = TextureType (0i64) ; pub const CUBEMAP : TextureType = TextureType (2i64) ; pub const _2D_ARRAY : TextureType = TextureType (3i64) ; pub const _3D : TextureType = TextureType (4i64) ; } impl From < i64 > for TextureType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TextureType > for i64 { # [inline] fn from (v : TextureType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportClearMode (pub i64) ; impl ViewportClearMode { pub const ALWAYS : ViewportClearMode = ViewportClearMode (0i64) ; pub const NEVER : ViewportClearMode = ViewportClearMode (1i64) ; pub const ONLY_NEXT_FRAME : ViewportClearMode = ViewportClearMode (2i64) ; } impl From < i64 > for ViewportClearMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportClearMode > for i64 { # [inline] fn from (v : ViewportClearMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportDebugDraw (pub i64) ; impl ViewportDebugDraw { pub const DISABLED : ViewportDebugDraw = ViewportDebugDraw (0i64) ; pub const UNSHADED : ViewportDebugDraw = ViewportDebugDraw (1i64) ; pub const OVERDRAW : ViewportDebugDraw = ViewportDebugDraw (2i64) ; pub const WIREFRAME : ViewportDebugDraw = ViewportDebugDraw (3i64) ; } impl From < i64 > for ViewportDebugDraw { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportDebugDraw > for i64 { # [inline] fn from (v : ViewportDebugDraw) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportMsaa (pub i64) ; impl ViewportMsaa { pub const DISABLED : ViewportMsaa = ViewportMsaa (0i64) ; pub const _2X : ViewportMsaa = ViewportMsaa (1i64) ; pub const _4X : ViewportMsaa = ViewportMsaa (2i64) ; pub const _8X : ViewportMsaa = ViewportMsaa (3i64) ; pub const _16X : ViewportMsaa = ViewportMsaa (4i64) ; pub const EXT_2X : ViewportMsaa = ViewportMsaa (5i64) ; pub const EXT_4X : ViewportMsaa = ViewportMsaa (6i64) ; } impl From < i64 > for ViewportMsaa { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportMsaa > for i64 { # [inline] fn from (v : ViewportMsaa) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportRenderInfo (pub i64) ; impl ViewportRenderInfo { pub const OBJECTS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (0i64) ; pub const VERTICES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (1i64) ; pub const MATERIAL_CHANGES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (2i64) ; pub const SHADER_CHANGES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (3i64) ; pub const SURFACE_CHANGES_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (4i64) ; pub const DRAW_CALLS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (5i64) ; pub const _2D_ITEMS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (6i64) ; pub const _2D_DRAW_CALLS_IN_FRAME : ViewportRenderInfo = ViewportRenderInfo (7i64) ; pub const MAX : ViewportRenderInfo = ViewportRenderInfo (8i64) ; } impl From < i64 > for ViewportRenderInfo { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportRenderInfo > for i64 { # [inline] fn from (v : ViewportRenderInfo) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportUpdateMode (pub i64) ; impl ViewportUpdateMode { pub const DISABLED : ViewportUpdateMode = ViewportUpdateMode (0i64) ; pub const ONCE : ViewportUpdateMode = ViewportUpdateMode (1i64) ; pub const WHEN_VISIBLE : ViewportUpdateMode = ViewportUpdateMode (2i64) ; pub const ALWAYS : ViewportUpdateMode = ViewportUpdateMode (3i64) ; } impl From < i64 > for ViewportUpdateMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportUpdateMode > for i64 { # [inline] fn from (v : ViewportUpdateMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ViewportUsage (pub i64) ; impl ViewportUsage { pub const _2D : ViewportUsage = ViewportUsage (0i64) ; pub const _2D_NO_SAMPLING : ViewportUsage = ViewportUsage (1i64) ; pub const _3D : ViewportUsage = ViewportUsage (2i64) ; pub const _3D_NO_EFFECTS : ViewportUsage = ViewportUsage (3i64) ; } impl From < i64 > for ViewportUsage { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ViewportUsage > for i64 { # [inline] fn from (v : ViewportUsage) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualServer { pub const ARRAY_BONES : i64 = 6i64 ; pub const ARRAY_COLOR : i64 = 3i64 ; pub const ARRAY_COMPRESS_BONES : i64 = 32768i64 ; pub const ARRAY_COMPRESS_COLOR : i64 = 4096i64 ; pub const ARRAY_COMPRESS_DEFAULT : i64 = 97280i64 ; pub const ARRAY_COMPRESS_INDEX : i64 = 131072i64 ; pub const ARRAY_COMPRESS_NORMAL : i64 = 1024i64 ; pub const ARRAY_COMPRESS_TANGENT : i64 = 2048i64 ; pub const ARRAY_COMPRESS_TEX_UV : i64 = 8192i64 ; pub const ARRAY_COMPRESS_TEX_UV2 : i64 = 16384i64 ; pub const ARRAY_COMPRESS_VERTEX : i64 = 512i64 ; pub const ARRAY_COMPRESS_WEIGHTS : i64 = 65536i64 ; pub const ARRAY_FLAG_USE_16_BIT_BONES : i64 = 524288i64 ; pub const ARRAY_FLAG_USE_2D_VERTICES : i64 = 262144i64 ; pub const ARRAY_FORMAT_BONES : i64 = 64i64 ; pub const ARRAY_FORMAT_COLOR : i64 = 8i64 ; pub const ARRAY_FORMAT_INDEX : i64 = 256i64 ; pub const ARRAY_FORMAT_NORMAL : i64 = 2i64 ; pub const ARRAY_FORMAT_TANGENT : i64 = 4i64 ; pub const ARRAY_FORMAT_TEX_UV : i64 = 16i64 ; pub const ARRAY_FORMAT_TEX_UV2 : i64 = 32i64 ; pub const ARRAY_FORMAT_VERTEX : i64 = 1i64 ; pub const ARRAY_FORMAT_WEIGHTS : i64 = 128i64 ; pub const ARRAY_INDEX : i64 = 8i64 ; pub const ARRAY_MAX : i64 = 9i64 ; pub const ARRAY_NORMAL : i64 = 1i64 ; pub const ARRAY_TANGENT : i64 = 2i64 ; pub const ARRAY_TEX_UV : i64 = 4i64 ; pub const ARRAY_TEX_UV2 : i64 = 5i64 ; pub const ARRAY_VERTEX : i64 = 0i64 ; pub const ARRAY_WEIGHTS : i64 = 7i64 ; pub const ARRAY_WEIGHTS_SIZE : i64 = 4i64 ; pub const BLEND_SHAPE_MODE_NORMALIZED : i64 = 0i64 ; pub const BLEND_SHAPE_MODE_RELATIVE : i64 = 1i64 ; pub const CANVAS_ITEM_Z_MAX : i64 = 4096i64 ; pub const CANVAS_ITEM_Z_MIN : i64 = - 4096i64 ; pub const CANVAS_LIGHT_FILTER_NONE : i64 = 0i64 ; pub const CANVAS_LIGHT_FILTER_PCF13 : i64 = 5i64 ; pub const CANVAS_LIGHT_FILTER_PCF3 : i64 = 1i64 ; pub const CANVAS_LIGHT_FILTER_PCF5 : i64 = 2i64 ; pub const CANVAS_LIGHT_FILTER_PCF7 : i64 = 3i64 ; pub const CANVAS_LIGHT_FILTER_PCF9 : i64 = 4i64 ; pub const CANVAS_LIGHT_MODE_ADD : i64 = 0i64 ; pub const CANVAS_LIGHT_MODE_MASK : i64 = 3i64 ; pub const CANVAS_LIGHT_MODE_MIX : i64 = 2i64 ; pub const CANVAS_LIGHT_MODE_SUB : i64 = 1i64 ; pub const CANVAS_OCCLUDER_POLYGON_CULL_CLOCKWISE : i64 = 1i64 ; pub const CANVAS_OCCLUDER_POLYGON_CULL_COUNTER_CLOCKWISE : i64 = 2i64 ; pub const CANVAS_OCCLUDER_POLYGON_CULL_DISABLED : i64 = 0i64 ; pub const CUBEMAP_BACK : i64 = 5i64 ; pub const CUBEMAP_BOTTOM : i64 = 2i64 ; pub const CUBEMAP_FRONT : i64 = 4i64 ; pub const CUBEMAP_LEFT : i64 = 0i64 ; pub const CUBEMAP_RIGHT : i64 = 1i64 ; pub const CUBEMAP_TOP : i64 = 3i64 ; pub const ENV_BG_CANVAS : i64 = 4i64 ; pub const ENV_BG_CLEAR_COLOR : i64 = 0i64 ; pub const ENV_BG_COLOR : i64 = 1i64 ; pub const ENV_BG_COLOR_SKY : i64 = 3i64 ; pub const ENV_BG_KEEP : i64 = 5i64 ; pub const ENV_BG_MAX : i64 = 7i64 ; pub const ENV_BG_SKY : i64 = 2i64 ; pub const ENV_DOF_BLUR_QUALITY_HIGH : i64 = 2i64 ; pub const ENV_DOF_BLUR_QUALITY_LOW : i64 = 0i64 ; pub const ENV_DOF_BLUR_QUALITY_MEDIUM : i64 = 1i64 ; pub const ENV_SSAO_BLUR_1x1 : i64 = 1i64 ; pub const ENV_SSAO_BLUR_2x2 : i64 = 2i64 ; pub const ENV_SSAO_BLUR_3x3 : i64 = 3i64 ; pub const ENV_SSAO_BLUR_DISABLED : i64 = 0i64 ; pub const ENV_SSAO_QUALITY_HIGH : i64 = 2i64 ; pub const ENV_SSAO_QUALITY_LOW : i64 = 0i64 ; pub const ENV_SSAO_QUALITY_MEDIUM : i64 = 1i64 ; pub const ENV_TONE_MAPPER_ACES : i64 = 3i64 ; pub const ENV_TONE_MAPPER_FILMIC : i64 = 2i64 ; pub const ENV_TONE_MAPPER_LINEAR : i64 = 0i64 ; pub const ENV_TONE_MAPPER_REINHARD : i64 = 1i64 ; pub const FEATURE_MULTITHREADED : i64 = 1i64 ; pub const FEATURE_SHADERS : i64 = 0i64 ; pub const GLOW_BLEND_MODE_ADDITIVE : i64 = 0i64 ; pub const GLOW_BLEND_MODE_REPLACE : i64 = 3i64 ; pub const GLOW_BLEND_MODE_SCREEN : i64 = 1i64 ; pub const GLOW_BLEND_MODE_SOFTLIGHT : i64 = 2i64 ; pub const INFO_2D_DRAW_CALLS_IN_FRAME : i64 = 7i64 ; pub const INFO_2D_ITEMS_IN_FRAME : i64 = 6i64 ; pub const INFO_DRAW_CALLS_IN_FRAME : i64 = 5i64 ; pub const INFO_MATERIAL_CHANGES_IN_FRAME : i64 = 2i64 ; pub const INFO_OBJECTS_IN_FRAME : i64 = 0i64 ; pub const INFO_SHADER_CHANGES_IN_FRAME : i64 = 3i64 ; pub const INFO_SURFACE_CHANGES_IN_FRAME : i64 = 4i64 ; pub const INFO_TEXTURE_MEM_USED : i64 = 10i64 ; pub const INFO_USAGE_VIDEO_MEM_TOTAL : i64 = 8i64 ; pub const INFO_VERTEX_MEM_USED : i64 = 11i64 ; pub const INFO_VERTICES_IN_FRAME : i64 = 1i64 ; pub const INFO_VIDEO_MEM_USED : i64 = 9i64 ; pub const INSTANCE_FLAG_DRAW_NEXT_FRAME_IF_VISIBLE : i64 = 1i64 ; pub const INSTANCE_FLAG_MAX : i64 = 2i64 ; pub const INSTANCE_FLAG_USE_BAKED_LIGHT : i64 = 0i64 ; pub const INSTANCE_GEOMETRY_MASK : i64 = 30i64 ; pub const INSTANCE_GI_PROBE : i64 = 7i64 ; pub const INSTANCE_IMMEDIATE : i64 = 3i64 ; pub const INSTANCE_LIGHT : i64 = 5i64 ; pub const INSTANCE_LIGHTMAP_CAPTURE : i64 = 8i64 ; pub const INSTANCE_MAX : i64 = 9i64 ; pub const INSTANCE_MESH : i64 = 1i64 ; pub const INSTANCE_MULTIMESH : i64 = 2i64 ; pub const INSTANCE_NONE : i64 = 0i64 ; pub const INSTANCE_PARTICLES : i64 = 4i64 ; pub const INSTANCE_REFLECTION_PROBE : i64 = 6i64 ; pub const LIGHT_BAKE_ALL : i64 = 2i64 ; pub const LIGHT_BAKE_DISABLED : i64 = 0i64 ; pub const LIGHT_BAKE_INDIRECT : i64 = 1i64 ; pub const LIGHT_DIRECTIONAL : i64 = 0i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_DEPTH_RANGE_OPTIMIZED : i64 = 1i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_DEPTH_RANGE_STABLE : i64 = 0i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_ORTHOGONAL : i64 = 0i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS : i64 = 1i64 ; pub const LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS : i64 = 2i64 ; pub const LIGHT_OMNI : i64 = 1i64 ; pub const LIGHT_OMNI_SHADOW_CUBE : i64 = 1i64 ; pub const LIGHT_OMNI_SHADOW_DETAIL_HORIZONTAL : i64 = 1i64 ; pub const LIGHT_OMNI_SHADOW_DETAIL_VERTICAL : i64 = 0i64 ; pub const LIGHT_OMNI_SHADOW_DUAL_PARABOLOID : i64 = 0i64 ; pub const LIGHT_PARAM_ATTENUATION : i64 = 4i64 ; pub const LIGHT_PARAM_CONTACT_SHADOW_SIZE : i64 = 7i64 ; pub const LIGHT_PARAM_ENERGY : i64 = 0i64 ; pub const LIGHT_PARAM_MAX : i64 = 15i64 ; pub const LIGHT_PARAM_RANGE : i64 = 3i64 ; pub const LIGHT_PARAM_SHADOW_BIAS : i64 = 13i64 ; pub const LIGHT_PARAM_SHADOW_BIAS_SPLIT_SCALE : i64 = 14i64 ; pub const LIGHT_PARAM_SHADOW_MAX_DISTANCE : i64 = 8i64 ; pub const LIGHT_PARAM_SHADOW_NORMAL_BIAS : i64 = 12i64 ; pub const LIGHT_PARAM_SHADOW_SPLIT_1_OFFSET : i64 = 9i64 ; pub const LIGHT_PARAM_SHADOW_SPLIT_2_OFFSET : i64 = 10i64 ; pub const LIGHT_PARAM_SHADOW_SPLIT_3_OFFSET : i64 = 11i64 ; pub const LIGHT_PARAM_SPECULAR : i64 = 2i64 ; pub const LIGHT_PARAM_SPOT_ANGLE : i64 = 5i64 ; pub const LIGHT_PARAM_SPOT_ATTENUATION : i64 = 6i64 ; pub const LIGHT_SPOT : i64 = 2i64 ; pub const MATERIAL_RENDER_PRIORITY_MAX : i64 = 127i64 ; pub const MATERIAL_RENDER_PRIORITY_MIN : i64 = - 128i64 ; pub const MAX_CURSORS : i64 = 8i64 ; pub const MAX_GLOW_LEVELS : i64 = 7i64 ; pub const MULTIMESH_COLOR_8BIT : i64 = 1i64 ; pub const MULTIMESH_COLOR_FLOAT : i64 = 2i64 ; pub const MULTIMESH_COLOR_NONE : i64 = 0i64 ; pub const MULTIMESH_CUSTOM_DATA_8BIT : i64 = 1i64 ; pub const MULTIMESH_CUSTOM_DATA_FLOAT : i64 = 2i64 ; pub const MULTIMESH_CUSTOM_DATA_NONE : i64 = 0i64 ; pub const MULTIMESH_TRANSFORM_2D : i64 = 0i64 ; pub const MULTIMESH_TRANSFORM_3D : i64 = 1i64 ; pub const NINE_PATCH_STRETCH : i64 = 0i64 ; pub const NINE_PATCH_TILE : i64 = 1i64 ; pub const NINE_PATCH_TILE_FIT : i64 = 2i64 ; pub const NO_INDEX_ARRAY : i64 = - 1i64 ; pub const PARTICLES_DRAW_ORDER_INDEX : i64 = 0i64 ; pub const PARTICLES_DRAW_ORDER_LIFETIME : i64 = 1i64 ; pub const PARTICLES_DRAW_ORDER_VIEW_DEPTH : i64 = 2i64 ; pub const PRIMITIVE_LINES : i64 = 1i64 ; pub const PRIMITIVE_LINE_LOOP : i64 = 3i64 ; pub const PRIMITIVE_LINE_STRIP : i64 = 2i64 ; pub const PRIMITIVE_MAX : i64 = 7i64 ; pub const PRIMITIVE_POINTS : i64 = 0i64 ; pub const PRIMITIVE_TRIANGLES : i64 = 4i64 ; pub const PRIMITIVE_TRIANGLE_FAN : i64 = 6i64 ; pub const PRIMITIVE_TRIANGLE_STRIP : i64 = 5i64 ; pub const REFLECTION_PROBE_UPDATE_ALWAYS : i64 = 1i64 ; pub const REFLECTION_PROBE_UPDATE_ONCE : i64 = 0i64 ; pub const SCENARIO_DEBUG_DISABLED : i64 = 0i64 ; pub const SCENARIO_DEBUG_OVERDRAW : i64 = 2i64 ; pub const SCENARIO_DEBUG_SHADELESS : i64 = 3i64 ; pub const SCENARIO_DEBUG_WIREFRAME : i64 = 1i64 ; pub const SHADER_CANVAS_ITEM : i64 = 1i64 ; pub const SHADER_MAX : i64 = 3i64 ; pub const SHADER_PARTICLES : i64 = 2i64 ; pub const SHADER_SPATIAL : i64 = 0i64 ; pub const SHADOW_CASTING_SETTING_DOUBLE_SIDED : i64 = 2i64 ; pub const SHADOW_CASTING_SETTING_OFF : i64 = 0i64 ; pub const SHADOW_CASTING_SETTING_ON : i64 = 1i64 ; pub const SHADOW_CASTING_SETTING_SHADOWS_ONLY : i64 = 3i64 ; pub const TEXTURE_FLAGS_DEFAULT : i64 = 7i64 ; pub const TEXTURE_FLAG_ANISOTROPIC_FILTER : i64 = 8i64 ; pub const TEXTURE_FLAG_CONVERT_TO_LINEAR : i64 = 16i64 ; pub const TEXTURE_FLAG_FILTER : i64 = 4i64 ; pub const TEXTURE_FLAG_MIPMAPS : i64 = 1i64 ; pub const TEXTURE_FLAG_MIRRORED_REPEAT : i64 = 32i64 ; pub const TEXTURE_FLAG_REPEAT : i64 = 2i64 ; pub const TEXTURE_FLAG_USED_FOR_STREAMING : i64 = 2048i64 ; pub const TEXTURE_TYPE_2D : i64 = 0i64 ; pub const TEXTURE_TYPE_2D_ARRAY : i64 = 3i64 ; pub const TEXTURE_TYPE_3D : i64 = 4i64 ; pub const TEXTURE_TYPE_CUBEMAP : i64 = 2i64 ; pub const VIEWPORT_CLEAR_ALWAYS : i64 = 0i64 ; pub const VIEWPORT_CLEAR_NEVER : i64 = 1i64 ; pub const VIEWPORT_CLEAR_ONLY_NEXT_FRAME : i64 = 2i64 ; pub const VIEWPORT_DEBUG_DRAW_DISABLED : i64 = 0i64 ; pub const VIEWPORT_DEBUG_DRAW_OVERDRAW : i64 = 2i64 ; pub const VIEWPORT_DEBUG_DRAW_UNSHADED : i64 = 1i64 ; pub const VIEWPORT_DEBUG_DRAW_WIREFRAME : i64 = 3i64 ; pub const VIEWPORT_MSAA_16X : i64 = 4i64 ; pub const VIEWPORT_MSAA_2X : i64 = 1i64 ; pub const VIEWPORT_MSAA_4X : i64 = 2i64 ; pub const VIEWPORT_MSAA_8X : i64 = 3i64 ; pub const VIEWPORT_MSAA_DISABLED : i64 = 0i64 ; pub const VIEWPORT_MSAA_EXT_2X : i64 = 5i64 ; pub const VIEWPORT_MSAA_EXT_4X : i64 = 6i64 ; pub const VIEWPORT_RENDER_INFO_2D_DRAW_CALLS_IN_FRAME : i64 = 7i64 ; pub const VIEWPORT_RENDER_INFO_2D_ITEMS_IN_FRAME : i64 = 6i64 ; pub const VIEWPORT_RENDER_INFO_DRAW_CALLS_IN_FRAME : i64 = 5i64 ; pub const VIEWPORT_RENDER_INFO_MATERIAL_CHANGES_IN_FRAME : i64 = 2i64 ; pub const VIEWPORT_RENDER_INFO_MAX : i64 = 8i64 ; pub const VIEWPORT_RENDER_INFO_OBJECTS_IN_FRAME : i64 = 0i64 ; pub const VIEWPORT_RENDER_INFO_SHADER_CHANGES_IN_FRAME : i64 = 3i64 ; pub const VIEWPORT_RENDER_INFO_SURFACE_CHANGES_IN_FRAME : i64 = 4i64 ; pub const VIEWPORT_RENDER_INFO_VERTICES_IN_FRAME : i64 = 1i64 ; pub const VIEWPORT_UPDATE_ALWAYS : i64 = 3i64 ; pub const VIEWPORT_UPDATE_DISABLED : i64 = 0i64 ; pub const VIEWPORT_UPDATE_ONCE : i64 = 1i64 ; pub const VIEWPORT_UPDATE_WHEN_VISIBLE : i64 = 2i64 ; pub const VIEWPORT_USAGE_2D : i64 = 0i64 ; pub const VIEWPORT_USAGE_2D_NO_SAMPLING : i64 = 1i64 ; pub const VIEWPORT_USAGE_3D : i64 = 2i64 ; pub const VIEWPORT_USAGE_3D_NO_EFFECTS : i64 = 3i64 ; } impl VisualServer { # [doc = "Returns a reference to the singleton instance.\n\n# Safety\n\nThis singleton server is only safe to access from outside the main thread if thread-safe\noperations are enabled in the project settings. See the official\n[thread-safety guidelines][thread-safety] for more information.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [inline] pub unsafe fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("VisualServer\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Sets images to be rendered in the window margin."] # [doc = ""] # [inline] pub fn black_bars_set_images (& self , left : Rid , top : Rid , right : Rid , bottom : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . black_bars_set_images ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , left , top , right , bottom) ; } } # [doc = "Sets margin size, where black bars (or images, if [method black_bars_set_images] was used) are rendered."] # [doc = ""] # [inline] pub fn black_bars_set_margins (& self , left : i64 , top : i64 , right : i64 , bottom : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . black_bars_set_margins ; let ret = crate :: icalls :: icallptr_void_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , left , top , right , bottom) ; } } # [doc = "Creates a camera and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `camera_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn camera_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets the cull mask associated with this camera. The cull mask describes which 3D layers are rendered by this camera. Equivalent to [member Camera.cull_mask]."] # [doc = ""] # [inline] pub fn camera_set_cull_mask (& self , camera : Rid , layers : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , camera , layers) ; } } # [doc = "Sets the environment used by this camera. Equivalent to [member Camera.environment]."] # [doc = ""] # [inline] pub fn camera_set_environment (& self , camera : Rid , env : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_environment ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , camera , env) ; } } # [doc = "Sets camera to use frustum projection. This mode allows adjusting the `offset` argument to create \"tilted frustum\" effects."] # [doc = ""] # [inline] pub fn camera_set_frustum (& self , camera : Rid , size : f64 , offset : Vector2 , z_near : f64 , z_far : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_frustum ; let ret = crate :: icalls :: icallptr_void_rid_f64_vec2_f64_f64 (method_bind , self . this . sys () . as_ptr () , camera , size , offset , z_near , z_far) ; } } # [doc = "Sets camera to use orthogonal projection, also known as orthographic projection. Objects remain the same size on the screen no matter how far away they are."] # [doc = ""] # [inline] pub fn camera_set_orthogonal (& self , camera : Rid , size : f64 , z_near : f64 , z_far : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_orthogonal ; let ret = crate :: icalls :: icallptr_void_rid_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , camera , size , z_near , z_far) ; } } # [doc = "Sets camera to use perspective projection. Objects on the screen becomes smaller when they are far away."] # [doc = ""] # [inline] pub fn camera_set_perspective (& self , camera : Rid , fovy_degrees : f64 , z_near : f64 , z_far : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_perspective ; let ret = crate :: icalls :: icallptr_void_rid_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , camera , fovy_degrees , z_near , z_far) ; } } # [doc = "Sets [Transform] of camera."] # [doc = ""] # [inline] pub fn camera_set_transform (& self , camera : Rid , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , camera , transform) ; } } # [doc = "If `true`, preserves the horizontal aspect ratio which is equivalent to [constant Camera.KEEP_WIDTH]. If `false`, preserves the vertical aspect ratio which is equivalent to [constant Camera.KEEP_HEIGHT]."] # [doc = ""] # [inline] pub fn camera_set_use_vertical_aspect (& self , camera : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . camera_set_use_vertical_aspect ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , camera , enable) ; } } # [doc = "Creates a canvas and returns the assigned [RID]. It can be accessed with the RID that is returned. This RID will be used in all `canvas_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Adds a circle command to the [CanvasItem]'s draw commands."] # [doc = ""] # [inline] pub fn canvas_item_add_circle (& self , item : Rid , pos : Vector2 , radius : f64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_circle ; let ret = crate :: icalls :: icallptr_void_rid_vec2_f64_color (method_bind , self . this . sys () . as_ptr () , item , pos , radius , color) ; } } # [doc = "If ignore is `true`, the VisualServer does not perform clipping."] # [doc = ""] # [inline] pub fn canvas_item_add_clip_ignore (& self , item : Rid , ignore : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_clip_ignore ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , ignore) ; } } # [doc = "Adds a line command to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `width` - `1.0`\n* `antialiased` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_line (& self , item : Rid , from : Vector2 , to : Vector2 , color : Color , width : f64 , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_line ; let ret = crate :: icalls :: icallptr_void_rid_vec2_vec2_color_f64_bool (method_bind , self . this . sys () . as_ptr () , item , from , to , color , width , antialiased) ; } } # [doc = "Adds a mesh command to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `transform` - `Transform2D( 1, 0, 0, 1, 0, 0 )`\n* `modulate` - `Color( 1, 1, 1, 1 )`"] # [doc = ""] # [inline] pub fn canvas_item_add_mesh (& self , item : Rid , mesh : Rid , transform : Transform2D , modulate : Color , texture : Rid , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_mesh ; let ret = crate :: icalls :: icallptr_void_rid_rid_trans2D_color_rid_rid (method_bind , self . this . sys () . as_ptr () , item , mesh , transform , modulate , texture , normal_map) ; } } # [doc = "Adds a [MultiMesh] to the [CanvasItem]'s draw commands. Only affects its aabb at the moment."] # [doc = ""] # [inline] pub fn canvas_item_add_multimesh (& self , item : Rid , mesh : Rid , texture : Rid , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_multimesh ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , item , mesh , texture , normal_map) ; } } # [doc = "Adds a nine patch image to the [CanvasItem]'s draw commands.\nSee [NinePatchRect] for more explanation.\n# Default Arguments\n* `x_axis_mode` - `0`\n* `y_axis_mode` - `0`\n* `draw_center` - `true`\n* `modulate` - `Color( 1, 1, 1, 1 )`"] # [doc = ""] # [inline] pub fn canvas_item_add_nine_patch (& self , item : Rid , rect : Rect2 , source : Rect2 , texture : Rid , topleft : Vector2 , bottomright : Vector2 , x_axis_mode : i64 , y_axis_mode : i64 , draw_center : bool , modulate : Color , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_nine_patch ; let ret = crate :: icalls :: icallptr_void_rid_rect2_rect2_rid_vec2_vec2_i64_i64_bool_color_rid (method_bind , self . this . sys () . as_ptr () , item , rect , source , texture , topleft , bottomright , x_axis_mode , y_axis_mode , draw_center , modulate , normal_map) ; } } # [doc = "Adds a particle system to the [CanvasItem]'s draw commands."] # [doc = ""] # [inline] pub fn canvas_item_add_particles (& self , item : Rid , particles : Rid , texture : Rid , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_particles ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , item , particles , texture , normal_map) ; } } # [doc = "Adds a polygon to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `uvs` - `PoolVector2Array( )`\n* `antialiased` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_polygon (& self , item : Rid , points : Vector2Array , colors : ColorArray , uvs : Vector2Array , texture : Rid , normal_map : Rid , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_polygon ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_colorarr_vec2arr_rid_rid_bool (method_bind , self . this . sys () . as_ptr () , item , points , colors , uvs , texture , normal_map , antialiased) ; } } # [doc = "Adds a polyline, which is a line from multiple points with a width, to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `width` - `1.0`\n* `antialiased` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_polyline (& self , item : Rid , points : Vector2Array , colors : ColorArray , width : f64 , antialiased : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_polyline ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_colorarr_f64_bool (method_bind , self . this . sys () . as_ptr () , item , points , colors , width , antialiased) ; } } # [doc = "Adds a primitive to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `width` - `1.0`"] # [doc = ""] # [inline] pub fn canvas_item_add_primitive (& self , item : Rid , points : Vector2Array , colors : ColorArray , uvs : Vector2Array , texture : Rid , width : f64 , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_primitive ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_colorarr_vec2arr_rid_f64_rid (method_bind , self . this . sys () . as_ptr () , item , points , colors , uvs , texture , width , normal_map) ; } } # [doc = "Adds a rectangle to the [CanvasItem]'s draw commands."] # [doc = ""] # [inline] pub fn canvas_item_add_rect (& self , item : Rid , rect : Rect2 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_rect ; let ret = crate :: icalls :: icallptr_void_rid_rect2_color (method_bind , self . this . sys () . as_ptr () , item , rect , color) ; } } # [doc = "Adds a [Transform2D] command to the [CanvasItem]'s draw commands.\nThis sets the extra_matrix uniform when executed. This affects the later commands of the canvas item."] # [doc = ""] # [inline] pub fn canvas_item_add_set_transform (& self , item : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , item , transform) ; } } # [doc = "Adds a textured rect to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `tile` - `false`\n* `modulate` - `Color( 1, 1, 1, 1 )`\n* `transpose` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_texture_rect (& self , item : Rid , rect : Rect2 , texture : Rid , tile : bool , modulate : Color , transpose : bool , normal_map : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_texture_rect ; let ret = crate :: icalls :: icallptr_void_rid_rect2_rid_bool_color_bool_rid (method_bind , self . this . sys () . as_ptr () , item , rect , texture , tile , modulate , transpose , normal_map) ; } } # [doc = "Adds a texture rect with region setting to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `modulate` - `Color( 1, 1, 1, 1 )`\n* `transpose` - `false`\n* `clip_uv` - `true`"] # [doc = ""] # [inline] pub fn canvas_item_add_texture_rect_region (& self , item : Rid , rect : Rect2 , texture : Rid , src_rect : Rect2 , modulate : Color , transpose : bool , normal_map : Rid , clip_uv : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_texture_rect_region ; let ret = crate :: icalls :: icallptr_void_rid_rect2_rid_rect2_color_bool_rid_bool (method_bind , self . this . sys () . as_ptr () , item , rect , texture , src_rect , modulate , transpose , normal_map , clip_uv) ; } } # [doc = "Adds a triangle array to the [CanvasItem]'s draw commands.\n# Default Arguments\n* `uvs` - `PoolVector2Array( )`\n* `bones` - `PoolIntArray( )`\n* `weights` - `PoolRealArray( )`\n* `count` - `-1`\n* `antialiased` - `false`\n* `antialiasing_use_indices` - `false`"] # [doc = ""] # [inline] pub fn canvas_item_add_triangle_array (& self , item : Rid , indices : Int32Array , points : Vector2Array , colors : ColorArray , uvs : Vector2Array , bones : Int32Array , weights : Float32Array , texture : Rid , count : i64 , normal_map : Rid , antialiased : bool , antialiasing_use_indices : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_add_triangle_array ; let ret = crate :: icalls :: icallptr_void_rid_i32arr_vec2arr_colorarr_vec2arr_i32arr_f32arr_rid_i64_rid_bool_bool (method_bind , self . this . sys () . as_ptr () , item , indices , points , colors , uvs , bones , weights , texture , count , normal_map , antialiased , antialiasing_use_indices) ; } } # [doc = "Clears the [CanvasItem] and removes all commands in it."] # [doc = ""] # [inline] pub fn canvas_item_clear (& self , item : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_clear ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , item) ; } } # [doc = "Creates a new [CanvasItem] and returns its [RID]. It can be accessed with the RID that is returned. This RID will be used in all `canvas_item_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_item_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets clipping for the [CanvasItem]."] # [doc = ""] # [inline] pub fn canvas_item_set_clip (& self , item : Rid , clip : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_clip ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , clip) ; } } # [doc = "Sets the [CanvasItem] to copy a rect to the backbuffer."] # [doc = ""] # [inline] pub fn canvas_item_set_copy_to_backbuffer (& self , item : Rid , enabled : bool , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_copy_to_backbuffer ; let ret = crate :: icalls :: icallptr_void_rid_bool_rect2 (method_bind , self . this . sys () . as_ptr () , item , enabled , rect) ; } } # [doc = "Defines a custom drawing rectangle for the [CanvasItem].\n# Default Arguments\n* `rect` - `Rect2( 0, 0, 0, 0 )`"] # [doc = ""] # [inline] pub fn canvas_item_set_custom_rect (& self , item : Rid , use_custom_rect : bool , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_custom_rect ; let ret = crate :: icalls :: icallptr_void_rid_bool_rect2 (method_bind , self . this . sys () . as_ptr () , item , use_custom_rect , rect) ; } } # [doc = "Enables the use of distance fields for GUI elements that are rendering distance field based fonts."] # [doc = ""] # [inline] pub fn canvas_item_set_distance_field_mode (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_distance_field_mode ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets [CanvasItem] to be drawn behind its parent."] # [doc = ""] # [inline] pub fn canvas_item_set_draw_behind_parent (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_draw_behind_parent ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets the index for the [CanvasItem]."] # [doc = ""] # [inline] pub fn canvas_item_set_draw_index (& self , item : Rid , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_draw_index ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , item , index) ; } } # [doc = "The light mask. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_item_set_light_mask (& self , item : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_light_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , item , mask) ; } } # [doc = "Sets a new material to the [CanvasItem]."] # [doc = ""] # [inline] pub fn canvas_item_set_material (& self , item : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_material ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , item , material) ; } } # [doc = "Sets the color that modulates the [CanvasItem] and its children."] # [doc = ""] # [inline] pub fn canvas_item_set_modulate (& self , item : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_modulate ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , item , color) ; } } # [doc = "Sets the parent for the [CanvasItem]. The parent can be another canvas item, or it can be the root canvas that is attached to the viewport."] # [doc = ""] # [inline] pub fn canvas_item_set_parent (& self , item : Rid , parent : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_parent ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , item , parent) ; } } # [doc = "Sets the color that modulates the [CanvasItem] without children."] # [doc = ""] # [inline] pub fn canvas_item_set_self_modulate (& self , item : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_self_modulate ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , item , color) ; } } # [doc = "Sets if [CanvasItem]'s children should be sorted by y-position."] # [doc = ""] # [inline] pub fn canvas_item_set_sort_children_by_y (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_sort_children_by_y ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets the [CanvasItem]'s [Transform2D]."] # [doc = ""] # [inline] pub fn canvas_item_set_transform (& self , item : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , item , transform) ; } } # [doc = "Sets if the [CanvasItem] uses its parent's material."] # [doc = ""] # [inline] pub fn canvas_item_set_use_parent_material (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_use_parent_material ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets if the canvas item (including its children) is visible."] # [doc = ""] # [inline] pub fn canvas_item_set_visible (& self , item : Rid , visible : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_visible ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , visible) ; } } # [doc = "If this is enabled, the Z index of the parent will be added to the children's Z index."] # [doc = ""] # [inline] pub fn canvas_item_set_z_as_relative_to_parent (& self , item : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_z_as_relative_to_parent ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , item , enabled) ; } } # [doc = "Sets the [CanvasItem]'s Z index, i.e. its draw order (lower indexes are drawn first)."] # [doc = ""] # [inline] pub fn canvas_item_set_z_index (& self , item : Rid , z_index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_item_set_z_index ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , item , z_index) ; } } # [doc = "Attaches the canvas light to the canvas. Removes it from its previous canvas."] # [doc = ""] # [inline] pub fn canvas_light_attach_to_canvas (& self , light : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_attach_to_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , light , canvas) ; } } # [doc = "Creates a canvas light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `canvas_light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Attaches a light occluder to the canvas. Removes it from its previous canvas."] # [doc = ""] # [inline] pub fn canvas_light_occluder_attach_to_canvas (& self , occluder : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_attach_to_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , occluder , canvas) ; } } # [doc = "Creates a light occluder and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `canvas_light_ocluder_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_light_occluder_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Enables or disables light occluder."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_enabled (& self , occluder : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_enabled ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , occluder , enabled) ; } } # [doc = "The light mask. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_light_mask (& self , occluder : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_light_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , occluder , mask) ; } } # [doc = "Sets a light occluder's polygon."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_polygon (& self , occluder : Rid , polygon : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_polygon ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , occluder , polygon) ; } } # [doc = "Sets a light occluder's [Transform2D]."] # [doc = ""] # [inline] pub fn canvas_light_occluder_set_transform (& self , occluder : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_occluder_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , occluder , transform) ; } } # [doc = "Sets the color for a light."] # [doc = ""] # [inline] pub fn canvas_light_set_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Enables or disables a canvas light."] # [doc = ""] # [inline] pub fn canvas_light_set_enabled (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_enabled ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Sets a canvas light's energy."] # [doc = ""] # [inline] pub fn canvas_light_set_energy (& self , light : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , energy) ; } } # [doc = "Sets a canvas light's height."] # [doc = ""] # [inline] pub fn canvas_light_set_height (& self , light : Rid , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_height ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , height) ; } } # [doc = "The light mask. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_light_set_item_cull_mask (& self , light : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_item_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mask) ; } } # [doc = "The binary mask used to determine which layers this canvas light's shadows affects. See [LightOccluder2D] for more information on light masks."] # [doc = ""] # [inline] pub fn canvas_light_set_item_shadow_cull_mask (& self , light : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_item_shadow_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mask) ; } } # [doc = "The layer range that gets rendered with this light."] # [doc = ""] # [inline] pub fn canvas_light_set_layer_range (& self , light : Rid , min_layer : i64 , max_layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_layer_range ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , light , min_layer , max_layer) ; } } # [doc = "The mode of the light, see [enum CanvasLightMode] constants."] # [doc = ""] # [inline] pub fn canvas_light_set_mode (& self , light : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mode) ; } } # [doc = "Sets the texture's scale factor of the light. Equivalent to [member Light2D.texture_scale]."] # [doc = ""] # [inline] pub fn canvas_light_set_scale (& self , light : Rid , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_scale ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , scale) ; } } # [doc = "Sets the width of the shadow buffer, size gets scaled to the next power of two for this."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_buffer_size (& self , light : Rid , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_buffer_size ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , size) ; } } # [doc = "Sets the color of the canvas light's shadow."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Enables or disables the canvas light's shadow."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_enabled (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_enabled ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Sets the canvas light's shadow's filter, see [enum CanvasLightShadowFilter] constants."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_filter (& self , light : Rid , filter : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_filter ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , filter) ; } } # [doc = "Sets the length of the shadow's gradient."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_gradient_length (& self , light : Rid , length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_gradient_length ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , length) ; } } # [doc = "Smoothens the shadow. The lower, the smoother."] # [doc = ""] # [inline] pub fn canvas_light_set_shadow_smooth (& self , light : Rid , smooth : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_shadow_smooth ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , light , smooth) ; } } # [doc = "Sets texture to be used by light. Equivalent to [member Light2D.texture]."] # [doc = ""] # [inline] pub fn canvas_light_set_texture (& self , light : Rid , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_texture ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , light , texture) ; } } # [doc = "Sets the offset of the light's texture. Equivalent to [member Light2D.offset]."] # [doc = ""] # [inline] pub fn canvas_light_set_texture_offset (& self , light : Rid , offset : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_texture_offset ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , light , offset) ; } } # [doc = "Sets the canvas light's [Transform2D]."] # [doc = ""] # [inline] pub fn canvas_light_set_transform (& self , light : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , light , transform) ; } } # [doc = "Sets the Z range of objects that will be affected by this light. Equivalent to [member Light2D.range_z_min] and [member Light2D.range_z_max]."] # [doc = ""] # [inline] pub fn canvas_light_set_z_range (& self , light : Rid , min_z : i64 , max_z : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_light_set_z_range ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , light , min_z , max_z) ; } } # [doc = "Creates a new light occluder polygon and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `canvas_occluder_polygon_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets an occluder polygons cull mode. See [enum CanvasOccluderPolygonCullMode] constants."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_set_cull_mode (& self , occluder_polygon : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_set_cull_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , occluder_polygon , mode) ; } } # [doc = "Sets the shape of the occluder polygon."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_set_shape (& self , occluder_polygon : Rid , shape : Vector2Array , closed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_set_shape ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr_bool (method_bind , self . this . sys () . as_ptr () , occluder_polygon , shape , closed) ; } } # [doc = "Sets the shape of the occluder polygon as lines."] # [doc = ""] # [inline] pub fn canvas_occluder_polygon_set_shape_as_lines (& self , occluder_polygon : Rid , shape : Vector2Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_occluder_polygon_set_shape_as_lines ; let ret = crate :: icalls :: icallptr_void_rid_vec2arr (method_bind , self . this . sys () . as_ptr () , occluder_polygon , shape) ; } } # [doc = "A copy of the canvas item will be drawn with a local offset of the mirroring [Vector2]."] # [doc = ""] # [inline] pub fn canvas_set_item_mirroring (& self , canvas : Rid , item : Rid , mirroring : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_set_item_mirroring ; let ret = crate :: icalls :: icallptr_void_rid_rid_vec2 (method_bind , self . this . sys () . as_ptr () , canvas , item , mirroring) ; } } # [doc = "Modulates all colors in the given canvas."] # [doc = ""] # [inline] pub fn canvas_set_modulate (& self , canvas : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . canvas_set_modulate ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , canvas , color) ; } } # [doc = "Creates a directional light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID can be used in most `light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this directional light to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn directional_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . directional_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Draws a frame. [i]This method is deprecated[/i], please use [method force_draw] instead.\n# Default Arguments\n* `swap_buffers` - `true`\n* `frame_step` - `0.0`"] # [doc = ""] # [inline] pub fn draw (& self , swap_buffers : bool , frame_step : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . draw ; let ret = crate :: icalls :: icallptr_void_bool_f64 (method_bind , self . this . sys () . as_ptr () , swap_buffers , frame_step) ; } } # [doc = "Creates an environment and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `environment_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn environment_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets the values to be used with the \"Adjustment\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_adjustment (& self , env : Rid , enable : bool , brightness : f64 , contrast : f64 , saturation : f64 , ramp : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_adjustment ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_rid (method_bind , self . this . sys () . as_ptr () , env , enable , brightness , contrast , saturation , ramp) ; } } # [doc = "Sets the ambient light parameters. See [Environment] for more details.\n# Default Arguments\n* `energy` - `1.0`\n* `sky_contibution` - `0.0`"] # [doc = ""] # [inline] pub fn environment_set_ambient_light (& self , env : Rid , color : Color , energy : f64 , sky_contibution : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_ambient_light ; let ret = crate :: icalls :: icallptr_void_rid_color_f64_f64 (method_bind , self . this . sys () . as_ptr () , env , color , energy , sky_contibution) ; } } # [doc = "Sets the [i]BGMode[/i] of the environment. Equivalent to [member Environment.background_mode]."] # [doc = ""] # [inline] pub fn environment_set_background (& self , env : Rid , bg : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_background ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , env , bg) ; } } # [doc = "Color displayed for clear areas of the scene (if using Custom color or Color+Sky background modes)."] # [doc = ""] # [inline] pub fn environment_set_bg_color (& self , env : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_bg_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , env , color) ; } } # [doc = "Sets the intensity of the background color."] # [doc = ""] # [inline] pub fn environment_set_bg_energy (& self , env : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_bg_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , env , energy) ; } } # [doc = "Sets the maximum layer to use if using Canvas background mode."] # [doc = ""] # [inline] pub fn environment_set_canvas_max_layer (& self , env : Rid , max_layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_canvas_max_layer ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , env , max_layer) ; } } # [doc = "Sets the values to be used with the \"DoF Far Blur\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_dof_blur_far (& self , env : Rid , enable : bool , distance : f64 , transition : f64 , far_amount : f64 , quality : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_dof_blur_far ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_i64 (method_bind , self . this . sys () . as_ptr () , env , enable , distance , transition , far_amount , quality) ; } } # [doc = "Sets the values to be used with the \"DoF Near Blur\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_dof_blur_near (& self , env : Rid , enable : bool , distance : f64 , transition : f64 , far_amount : f64 , quality : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_dof_blur_near ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_i64 (method_bind , self . this . sys () . as_ptr () , env , enable , distance , transition , far_amount , quality) ; } } # [doc = "Sets the variables to be used with the scene fog. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_fog (& self , env : Rid , enable : bool , color : Color , sun_color : Color , sun_amount : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_fog ; let ret = crate :: icalls :: icallptr_void_rid_bool_color_color_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , color , sun_color , sun_amount) ; } } # [doc = "Sets the variables to be used with the fog depth effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_fog_depth (& self , env : Rid , enable : bool , depth_begin : f64 , depth_end : f64 , depth_curve : f64 , transmit : bool , transmit_curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_fog_depth ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_bool_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , depth_begin , depth_end , depth_curve , transmit , transmit_curve) ; } } # [doc = "Sets the variables to be used with the fog height effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_fog_height (& self , env : Rid , enable : bool , min_height : f64 , max_height : f64 , height_curve : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_fog_height ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , min_height , max_height , height_curve) ; } } # [doc = "Sets the variables to be used with the \"glow\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_glow (& self , env : Rid , enable : bool , level_flags : i64 , intensity : f64 , strength : f64 , bloom_threshold : f64 , blend_mode : i64 , hdr_bleed_threshold : f64 , hdr_bleed_scale : f64 , hdr_luminance_cap : f64 , bicubic_upscale : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_glow ; let ret = crate :: icalls :: icallptr_void_rid_bool_i64_f64_f64_f64_i64_f64_f64_f64_bool (method_bind , self . this . sys () . as_ptr () , env , enable , level_flags , intensity , strength , bloom_threshold , blend_mode , hdr_bleed_threshold , hdr_bleed_scale , hdr_luminance_cap , bicubic_upscale) ; } } # [doc = "Sets the [Sky] to be used as the environment's background when using [i]BGMode[/i] sky. Equivalent to [member Environment.background_sky]."] # [doc = ""] # [inline] pub fn environment_set_sky (& self , env : Rid , sky : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_sky ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , env , sky) ; } } # [doc = "Sets a custom field of view for the background [Sky]. Equivalent to [member Environment.background_sky_custom_fov]."] # [doc = ""] # [inline] pub fn environment_set_sky_custom_fov (& self , env : Rid , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_sky_custom_fov ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , env , scale) ; } } # [doc = "Sets the rotation of the background [Sky] expressed as a [Basis]. Equivalent to [member Environment.background_sky_orientation]."] # [doc = ""] # [inline] pub fn environment_set_sky_orientation (& self , env : Rid , orientation : Basis) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_sky_orientation ; let ret = crate :: icalls :: icallptr_void_rid_basis (method_bind , self . this . sys () . as_ptr () , env , orientation) ; } } # [doc = "Sets the variables to be used with the \"Screen Space Ambient Occlusion (SSAO)\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_ssao (& self , env : Rid , enable : bool , radius : f64 , intensity : f64 , radius2 : f64 , intensity2 : f64 , bias : f64 , light_affect : f64 , ao_channel_affect : f64 , color : Color , quality : i64 , blur : i64 , bilateral_sharpness : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_ssao ; let ret = crate :: icalls :: icallptr_void_rid_bool_f64_f64_f64_f64_f64_f64_f64_color_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , env , enable , radius , intensity , radius2 , intensity2 , bias , light_affect , ao_channel_affect , color , quality , blur , bilateral_sharpness) ; } } # [doc = "Sets the variables to be used with the \"screen space reflections\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_ssr (& self , env : Rid , enable : bool , max_steps : i64 , fade_in : f64 , fade_out : f64 , depth_tolerance : f64 , roughness : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_ssr ; let ret = crate :: icalls :: icallptr_void_rid_bool_i64_f64_f64_f64_bool (method_bind , self . this . sys () . as_ptr () , env , enable , max_steps , fade_in , fade_out , depth_tolerance , roughness) ; } } # [doc = "Sets the variables to be used with the \"tonemap\" post-process effect. See [Environment] for more details."] # [doc = ""] # [inline] pub fn environment_set_tonemap (& self , env : Rid , tone_mapper : i64 , exposure : f64 , white : f64 , auto_exposure : bool , min_luminance : f64 , max_luminance : f64 , auto_exp_speed : f64 , auto_exp_grey : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . environment_set_tonemap ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64_f64_bool_f64_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , env , tone_mapper , exposure , white , auto_exposure , min_luminance , max_luminance , auto_exp_speed , auto_exp_grey) ; } } # [doc = "Removes buffers and clears testcubes."] # [doc = ""] # [inline] pub fn finish (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . finish ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Forces a frame to be drawn when the function is called. Drawing a frame updates all [Viewport]s that are set to update. Use with extreme caution.\n# Default Arguments\n* `swap_buffers` - `true`\n* `frame_step` - `0.0`"] # [doc = ""] # [inline] pub fn force_draw (& self , swap_buffers : bool , frame_step : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . force_draw ; let ret = crate :: icalls :: icallptr_void_bool_f64 (method_bind , self . this . sys () . as_ptr () , swap_buffers , frame_step) ; } } # [doc = "Synchronizes threads."] # [doc = ""] # [inline] pub fn force_sync (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . force_sync ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Tries to free an object in the VisualServer."] # [doc = ""] # [inline] pub fn free_rid (& self , rid : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . free_rid ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , rid) ; } } # [doc = "Returns a certain information, see [enum RenderInfo] for options."] # [doc = ""] # [inline] pub fn get_render_info (& self , info : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_render_info ; let ret = crate :: icalls :: icallptr_i64_i64 (method_bind , self . this . sys () . as_ptr () , info) ; ret as _ } } # [doc = "Returns the id of the test cube. Creates one if none exists."] # [doc = ""] # [inline] pub fn get_test_cube (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_test_cube ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the id of the test texture. Creates one if none exists."] # [doc = ""] # [inline] pub fn get_test_texture (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_test_texture ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the name of the video adapter (e.g. \"GeForce GTX 1080/PCIe/SSE2\").\n**Note:** When running a headless or server binary, this function returns an empty string."] # [doc = ""] # [inline] pub fn get_video_adapter_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_video_adapter_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the vendor of the video adapter (e.g. \"NVIDIA Corporation\").\n**Note:** When running a headless or server binary, this function returns an empty string."] # [doc = ""] # [inline] pub fn get_video_adapter_vendor (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_video_adapter_vendor ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns the id of a white texture. Creates one if none exists."] # [doc = ""] # [inline] pub fn get_white_texture (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . get_white_texture ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a GI probe and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `gi_probe_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this GI probe to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn gi_probe_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the bias value for the GI probe. Bias is used to avoid self occlusion. Equivalent to [member GIProbeData.bias]."] # [doc = ""] # [inline] pub fn gi_probe_get_bias (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_bias ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the axis-aligned bounding box that covers the full extent of the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_get_bounds (& self , probe : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_bounds ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , probe) ; mem :: transmute (ret) } } # [doc = "Returns the cell size set by [method gi_probe_set_cell_size]."] # [doc = ""] # [inline] pub fn gi_probe_get_cell_size (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_cell_size ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the data used by the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_get_dynamic_data (& self , probe : Rid) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_dynamic_data ; let ret = crate :: icalls :: icallptr_i32arr_rid (method_bind , self . this . sys () . as_ptr () , probe) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the dynamic range set for this GI probe. Equivalent to [member GIProbe.dynamic_range]."] # [doc = ""] # [inline] pub fn gi_probe_get_dynamic_range (& self , probe : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_dynamic_range ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the energy multiplier for this GI probe. Equivalent to [member GIProbe.energy]."] # [doc = ""] # [inline] pub fn gi_probe_get_energy (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_energy ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the normal bias for this GI probe. Equivalent to [member GIProbe.normal_bias]."] # [doc = ""] # [inline] pub fn gi_probe_get_normal_bias (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_normal_bias ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the propagation value for this GI probe. Equivalent to [member GIProbe.propagation]."] # [doc = ""] # [inline] pub fn gi_probe_get_propagation (& self , probe : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_propagation ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns the Transform set by [method gi_probe_set_to_cell_xform]."] # [doc = ""] # [inline] pub fn gi_probe_get_to_cell_xform (& self , probe : Rid) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_get_to_cell_xform ; let ret = crate :: icalls :: icallptr_trans_rid (method_bind , self . this . sys () . as_ptr () , probe) ; mem :: transmute (ret) } } # [doc = "Returns `true` if the GI probe data associated with this GI probe is compressed. Equivalent to [member GIProbe.compress]."] # [doc = ""] # [inline] pub fn gi_probe_is_compressed (& self , probe : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_is_compressed ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Returns `true` if the GI probe is set to interior, meaning it does not account for sky light. Equivalent to [member GIProbe.interior]."] # [doc = ""] # [inline] pub fn gi_probe_is_interior (& self , probe : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_is_interior ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , probe) ; ret as _ } } # [doc = "Sets the bias value to avoid self-occlusion. Equivalent to [member GIProbe.bias]."] # [doc = ""] # [inline] pub fn gi_probe_set_bias (& self , probe : Rid , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_bias ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , bias) ; } } # [doc = "Sets the axis-aligned bounding box that covers the extent of the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_set_bounds (& self , probe : Rid , bounds : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_bounds ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , probe , bounds) ; } } # [doc = "Sets the size of individual cells within the GI probe."] # [doc = ""] # [inline] pub fn gi_probe_set_cell_size (& self , probe : Rid , range : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_cell_size ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , range) ; } } # [doc = "Sets the compression setting for the GI probe data. Compressed data will take up less space but may look worse. Equivalent to [member GIProbe.compress]."] # [doc = ""] # [inline] pub fn gi_probe_set_compress (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_compress ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the data to be used in the GI probe for lighting calculations. Normally this is created and called internally within the [GIProbe] node. You should not try to set this yourself."] # [doc = ""] # [inline] pub fn gi_probe_set_dynamic_data (& self , probe : Rid , data : Int32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_dynamic_data ; let ret = crate :: icalls :: icallptr_void_rid_i32arr (method_bind , self . this . sys () . as_ptr () , probe , data) ; } } # [doc = "Sets the dynamic range of the GI probe. Dynamic range sets the limit for how bright lights can be. A smaller range captures greater detail but limits how bright lights can be. Equivalent to [member GIProbe.dynamic_range]."] # [doc = ""] # [inline] pub fn gi_probe_set_dynamic_range (& self , probe : Rid , range : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_dynamic_range ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , probe , range) ; } } # [doc = "Sets the energy multiplier for this GI probe. A higher energy makes the indirect light from the GI probe brighter. Equivalent to [member GIProbe.energy]."] # [doc = ""] # [inline] pub fn gi_probe_set_energy (& self , probe : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , energy) ; } } # [doc = "Sets the interior value of this GI probe. A GI probe set to interior does not include the sky when calculating lighting. Equivalent to [member GIProbe.interior]."] # [doc = ""] # [inline] pub fn gi_probe_set_interior (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_interior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the normal bias for this GI probe. Normal bias behaves similar to the other form of bias and may help reduce self-occlusion. Equivalent to [member GIProbe.normal_bias]."] # [doc = ""] # [inline] pub fn gi_probe_set_normal_bias (& self , probe : Rid , bias : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_normal_bias ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , bias) ; } } # [doc = "Sets the propagation of light within this GI probe. Equivalent to [member GIProbe.propagation]."] # [doc = ""] # [inline] pub fn gi_probe_set_propagation (& self , probe : Rid , propagation : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_propagation ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , propagation) ; } } # [doc = "Sets the to cell [Transform] for this GI probe."] # [doc = ""] # [inline] pub fn gi_probe_set_to_cell_xform (& self , probe : Rid , xform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . gi_probe_set_to_cell_xform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , probe , xform) ; } } # [doc = "Returns `true` if changes have been made to the VisualServer's data. [method draw] is usually called if this happens."] # [doc = ""] # [inline] pub fn has_changed (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . has_changed ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Not yet implemented. Always returns `false`."] # [doc = ""] # [inline] pub fn has_feature (& self , feature : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . has_feature ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , feature) ; ret as _ } } # [doc = "Returns `true` if the OS supports a certain feature. Features might be `s3tc`, `etc`, `etc2` and `pvrtc`."] # [doc = ""] # [inline] pub fn has_os_feature (& self , feature : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . has_os_feature ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , feature . into ()) ; ret as _ } } # [doc = "Sets up [ImmediateGeometry] internals to prepare for drawing. Equivalent to [method ImmediateGeometry.begin]."] # [doc = ""] # [inline] pub fn immediate_begin (& self , immediate : Rid , primitive : i64 , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_begin ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , immediate , primitive , texture) ; } } # [doc = "Clears everything that was set up between [method immediate_begin] and [method immediate_end]. Equivalent to [method ImmediateGeometry.clear]."] # [doc = ""] # [inline] pub fn immediate_clear (& self , immediate : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_clear ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , immediate) ; } } # [doc = "Sets the color to be used with next vertex. Equivalent to [method ImmediateGeometry.set_color]."] # [doc = ""] # [inline] pub fn immediate_color (& self , immediate : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , immediate , color) ; } } # [doc = "Creates an immediate geometry and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `immediate_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this immediate geometry to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn immediate_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Ends drawing the [ImmediateGeometry] and displays it. Equivalent to [method ImmediateGeometry.end]."] # [doc = ""] # [inline] pub fn immediate_end (& self , immediate : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_end ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , immediate) ; } } # [doc = "Returns the material assigned to the [ImmediateGeometry]."] # [doc = ""] # [inline] pub fn immediate_get_material (& self , immediate : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_get_material ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , immediate) ; Rid :: from_sys (ret) } } # [doc = "Sets the normal to be used with next vertex. Equivalent to [method ImmediateGeometry.set_normal]."] # [doc = ""] # [inline] pub fn immediate_normal (& self , immediate : Rid , normal : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_normal ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , immediate , normal) ; } } # [doc = "Sets the material to be used to draw the [ImmediateGeometry]."] # [doc = ""] # [inline] pub fn immediate_set_material (& self , immediate : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_set_material ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , immediate , material) ; } } # [doc = "Sets the tangent to be used with next vertex. Equivalent to [method ImmediateGeometry.set_tangent]."] # [doc = ""] # [inline] pub fn immediate_tangent (& self , immediate : Rid , tangent : Plane) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_tangent ; let ret = crate :: icalls :: icallptr_void_rid_plane (method_bind , self . this . sys () . as_ptr () , immediate , tangent) ; } } # [doc = "Sets the UV to be used with next vertex. Equivalent to [method ImmediateGeometry.set_uv]."] # [doc = ""] # [inline] pub fn immediate_uv (& self , immediate : Rid , tex_uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_uv ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , immediate , tex_uv) ; } } # [doc = "Sets the UV2 to be used with next vertex. Equivalent to [method ImmediateGeometry.set_uv2]."] # [doc = ""] # [inline] pub fn immediate_uv2 (& self , immediate : Rid , tex_uv : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_uv2 ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , immediate , tex_uv) ; } } # [doc = "Adds the next vertex using the information provided in advance. Equivalent to [method ImmediateGeometry.add_vertex]."] # [doc = ""] # [inline] pub fn immediate_vertex (& self , immediate : Rid , vertex : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_vertex ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , immediate , vertex) ; } } # [doc = "Adds the next vertex using the information provided in advance. This is a helper class that calls [method immediate_vertex] under the hood. Equivalent to [method ImmediateGeometry.add_vertex]."] # [doc = ""] # [inline] pub fn immediate_vertex_2d (& self , immediate : Rid , vertex : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . immediate_vertex_2d ; let ret = crate :: icalls :: icallptr_void_rid_vec2 (method_bind , self . this . sys () . as_ptr () , immediate , vertex) ; } } # [doc = "Initializes the visual server. This function is called internally by platform-dependent code during engine initialization. If called from a running game, it will not do anything."] # [doc = ""] # [inline] pub fn init (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . init ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Attaches a unique Object ID to instance. Object ID must be attached to instance for proper culling with [method instances_cull_aabb], [method instances_cull_convex], and [method instances_cull_ray]."] # [doc = ""] # [inline] pub fn instance_attach_object_instance_id (& self , instance : Rid , id : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_attach_object_instance_id ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , instance , id) ; } } # [doc = "Attaches a skeleton to an instance. Removes the previous skeleton from the instance."] # [doc = ""] # [inline] pub fn instance_attach_skeleton (& self , instance : Rid , skeleton : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_attach_skeleton ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , skeleton) ; } } # [doc = "Creates a visual instance and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `instance_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nAn instance is a way of placing a 3D object in the scenario. Objects like particles, meshes, and reflection probes need to be associated with an instance to be visible in the scenario using [method instance_set_base]."] # [doc = ""] # [inline] pub fn instance_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a visual instance, adds it to the VisualServer, and sets both base and scenario. It can be accessed with the RID that is returned. This RID will be used in all `instance_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn instance_create2 (& self , base : Rid , scenario : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_create2 ; let ret = crate :: icalls :: icallptr_rid_rid_rid (method_bind , self . this . sys () . as_ptr () , base , scenario) ; Rid :: from_sys (ret) } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn instance_geometry_set_as_instance_lod (& self , instance : Rid , as_lod_of_instance : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_as_instance_lod ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , as_lod_of_instance) ; } } # [doc = "Sets the shadow casting setting to one of [enum ShadowCastingSetting]. Equivalent to [member GeometryInstance.cast_shadow]."] # [doc = ""] # [inline] pub fn instance_geometry_set_cast_shadows_setting (& self , instance : Rid , shadow_casting_setting : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_cast_shadows_setting ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , instance , shadow_casting_setting) ; } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn instance_geometry_set_draw_range (& self , instance : Rid , min : f64 , max : f64 , min_margin : f64 , max_margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_draw_range ; let ret = crate :: icalls :: icallptr_void_rid_f64_f64_f64_f64 (method_bind , self . this . sys () . as_ptr () , instance , min , max , min_margin , max_margin) ; } } # [doc = "Sets the flag for a given [enum InstanceFlags]. See [enum InstanceFlags] for more details."] # [doc = ""] # [inline] pub fn instance_geometry_set_flag (& self , instance : Rid , flag : i64 , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_flag ; let ret = crate :: icalls :: icallptr_void_rid_i64_bool (method_bind , self . this . sys () . as_ptr () , instance , flag , enabled) ; } } # [doc = "Sets a material that will override the material for all surfaces on the mesh associated with this instance. Equivalent to [member GeometryInstance.material_override]."] # [doc = ""] # [inline] pub fn instance_geometry_set_material_override (& self , instance : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_geometry_set_material_override ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , material) ; } } # [doc = "Sets the base of the instance. A base can be any of the 3D objects that are created in the VisualServer that can be displayed. For example, any of the light types, mesh, multimesh, immediate geometry, particle system, reflection probe, lightmap capture, and the GI probe are all types that can be set as the base of an instance in order to be displayed in the scenario."] # [doc = ""] # [inline] pub fn instance_set_base (& self , instance : Rid , base : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_base ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , base) ; } } # [doc = "Sets the weight for a given blend shape associated with this instance."] # [doc = ""] # [inline] pub fn instance_set_blend_shape_weight (& self , instance : Rid , shape : i64 , weight : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_blend_shape_weight ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , instance , shape , weight) ; } } # [doc = "Sets a custom AABB to use when culling objects from the view frustum. Equivalent to [method GeometryInstance.set_custom_aabb]."] # [doc = ""] # [inline] pub fn instance_set_custom_aabb (& self , instance : Rid , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , instance , aabb) ; } } # [doc = "Function not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn instance_set_exterior (& self , instance : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_exterior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , instance , enabled) ; } } # [doc = "Sets a margin to increase the size of the AABB when culling objects from the view frustum. This allows you avoid culling objects that fall outside the view frustum. Equivalent to [member GeometryInstance.extra_cull_margin]."] # [doc = ""] # [inline] pub fn instance_set_extra_visibility_margin (& self , instance : Rid , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_extra_visibility_margin ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , instance , margin) ; } } # [doc = "Sets the render layers that this instance will be drawn to. Equivalent to [member VisualInstance.layers]."] # [doc = ""] # [inline] pub fn instance_set_layer_mask (& self , instance : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_layer_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , instance , mask) ; } } # [doc = "Sets the scenario that the instance is in. The scenario is the 3D world that the objects will be displayed in."] # [doc = ""] # [inline] pub fn instance_set_scenario (& self , instance : Rid , scenario : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_scenario ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , instance , scenario) ; } } # [doc = "Sets the material of a specific surface. Equivalent to [method MeshInstance.set_surface_material]."] # [doc = ""] # [inline] pub fn instance_set_surface_material (& self , instance : Rid , surface : i64 , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_surface_material ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , instance , surface , material) ; } } # [doc = "Sets the world space transform of the instance. Equivalent to [member Spatial.transform]."] # [doc = ""] # [inline] pub fn instance_set_transform (& self , instance : Rid , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , instance , transform) ; } } # [doc = "Sets the lightmap to use with this instance."] # [doc = ""] # [inline] pub fn instance_set_use_lightmap (& self , instance : Rid , lightmap_instance : Rid , lightmap : Rid , lightmap_slice : i64 , lightmap_uv_rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_use_lightmap ; let ret = crate :: icalls :: icallptr_void_rid_rid_rid_i64_rect2 (method_bind , self . this . sys () . as_ptr () , instance , lightmap_instance , lightmap , lightmap_slice , lightmap_uv_rect) ; } } # [doc = "Sets whether an instance is drawn or not. Equivalent to [member Spatial.visible]."] # [doc = ""] # [inline] pub fn instance_set_visible (& self , instance : Rid , visible : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instance_set_visible ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , instance , visible) ; } } # [doc = "Returns an array of object IDs intersecting with the provided AABB. Only visual 3D nodes are considered, such as [MeshInstance] or [DirectionalLight]. Use [method @GDScript.instance_from_id] to obtain the actual nodes. A scenario RID must be provided, which is available in the [World] you want to query. This forces an update for all resources queued to update.\n**Warning:** This function is primarily intended for editor usage. For in-game use cases, prefer physics collision."] # [doc = ""] # [inline] pub fn instances_cull_aabb (& self , aabb : Aabb , scenario : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instances_cull_aabb ; let ret = crate :: icalls :: icallvar__aabb_rid (method_bind , self . this . sys () . as_ptr () , aabb , scenario) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns an array of object IDs intersecting with the provided convex shape. Only visual 3D nodes are considered, such as [MeshInstance] or [DirectionalLight]. Use [method @GDScript.instance_from_id] to obtain the actual nodes. A scenario RID must be provided, which is available in the [World] you want to query. This forces an update for all resources queued to update.\n**Warning:** This function is primarily intended for editor usage. For in-game use cases, prefer physics collision."] # [doc = ""] # [inline] pub fn instances_cull_convex (& self , convex : VariantArray , scenario : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instances_cull_convex ; let ret = crate :: icalls :: icallvar__arr_rid (method_bind , self . this . sys () . as_ptr () , convex , scenario) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns an array of object IDs intersecting with the provided 3D ray. Only visual 3D nodes are considered, such as [MeshInstance] or [DirectionalLight]. Use [method @GDScript.instance_from_id] to obtain the actual nodes. A scenario RID must be provided, which is available in the [World] you want to query. This forces an update for all resources queued to update.\n**Warning:** This function is primarily intended for editor usage. For in-game use cases, prefer physics collision."] # [doc = ""] # [inline] pub fn instances_cull_ray (& self , from : Vector3 , to : Vector3 , scenario : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . instances_cull_ray ; let ret = crate :: icalls :: icallvar__vec3_vec3_rid (method_bind , self . this . sys () . as_ptr () , from , to , scenario) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "If `false`, disables rendering completely, but the engine logic is still being processed. You can call [method force_draw] to draw a frame even with rendering disabled."] # [doc = ""] # [inline] pub fn is_render_loop_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . is_render_loop_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, this directional light will blend between shadow map splits resulting in a smoother transition between them. Equivalent to [member DirectionalLight.directional_shadow_blend_splits]."] # [doc = ""] # [inline] pub fn light_directional_set_blend_splits (& self , light : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_directional_set_blend_splits ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enable) ; } } # [doc = "Sets the shadow depth range mode for this directional light. Equivalent to [member DirectionalLight.directional_shadow_depth_range]. See [enum LightDirectionalShadowDepthRangeMode] for options."] # [doc = ""] # [inline] pub fn light_directional_set_shadow_depth_range_mode (& self , light : Rid , range_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_directional_set_shadow_depth_range_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , range_mode) ; } } # [doc = "Sets the shadow mode for this directional light. Equivalent to [member DirectionalLight.directional_shadow_mode]. See [enum LightDirectionalShadowMode] for options."] # [doc = ""] # [inline] pub fn light_directional_set_shadow_mode (& self , light : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_directional_set_shadow_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mode) ; } } # [doc = "Sets whether to use vertical or horizontal detail for this omni light. This can be used to alleviate artifacts in the shadow map. Equivalent to [member OmniLight.omni_shadow_detail]."] # [doc = ""] # [inline] pub fn light_omni_set_shadow_detail (& self , light : Rid , detail : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_omni_set_shadow_detail ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , detail) ; } } # [doc = "Sets whether to use a dual paraboloid or a cubemap for the shadow map. Dual paraboloid is faster but may suffer from artifacts. Equivalent to [member OmniLight.omni_shadow_mode]."] # [doc = ""] # [inline] pub fn light_omni_set_shadow_mode (& self , light : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_omni_set_shadow_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn light_set_bake_mode (& self , light : Rid , bake_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_bake_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , bake_mode) ; } } # [doc = "Sets the color of the light. Equivalent to [member Light.light_color]."] # [doc = ""] # [inline] pub fn light_set_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Sets the cull mask for this Light. Lights only affect objects in the selected layers. Equivalent to [member Light.light_cull_mask]."] # [doc = ""] # [inline] pub fn light_set_cull_mask (& self , light : Rid , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , light , mask) ; } } # [doc = "If `true`, light will subtract light instead of adding light. Equivalent to [member Light.light_negative]."] # [doc = ""] # [inline] pub fn light_set_negative (& self , light : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_negative ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enable) ; } } # [doc = "Sets the specified light parameter. See [enum LightParam] for options. Equivalent to [method Light.set_param]."] # [doc = ""] # [inline] pub fn light_set_param (& self , light : Rid , param : i64 , value : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_param ; let ret = crate :: icalls :: icallptr_void_rid_i64_f64 (method_bind , self . this . sys () . as_ptr () , light , param , value) ; } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn light_set_projector (& self , light : Rid , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_projector ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , light , texture) ; } } # [doc = "If `true`, reverses the backface culling of the mesh. This can be useful when you have a flat mesh that has a light behind it. If you need to cast a shadow on both sides of the mesh, set the mesh to use double sided shadows with [method instance_geometry_set_cast_shadows_setting]. Equivalent to [member Light.shadow_reverse_cull_face]."] # [doc = ""] # [inline] pub fn light_set_reverse_cull_face_mode (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_reverse_cull_face_mode ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "If `true`, light will cast shadows. Equivalent to [member Light.shadow_enabled]."] # [doc = ""] # [inline] pub fn light_set_shadow (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_shadow ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Sets the color of the shadow cast by the light. Equivalent to [member Light.shadow_color]."] # [doc = ""] # [inline] pub fn light_set_shadow_color (& self , light : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_shadow_color ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , light , color) ; } } # [doc = "Sets whether GI probes capture light information from this light."] # [doc = ""] # [inline] pub fn light_set_use_gi (& self , light : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . light_set_use_gi ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , light , enabled) ; } } # [doc = "Creates a lightmap capture and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `lightmap_capture_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this lightmap capture to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn lightmap_capture_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the size of the lightmap capture area."] # [doc = ""] # [inline] pub fn lightmap_capture_get_bounds (& self , capture : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_bounds ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , capture) ; mem :: transmute (ret) } } # [doc = "Returns the energy multiplier used by the lightmap capture."] # [doc = ""] # [inline] pub fn lightmap_capture_get_energy (& self , capture : Rid) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_energy ; let ret = crate :: icalls :: icallptr_f64_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ret as _ } } # [doc = "Returns the octree used by the lightmap capture."] # [doc = ""] # [inline] pub fn lightmap_capture_get_octree (& self , capture : Rid) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_octree ; let ret = crate :: icalls :: icallptr_bytearr_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ByteArray :: from_sys (ret) } } # [doc = "Returns the cell subdivision amount used by this lightmap capture's octree."] # [doc = ""] # [inline] pub fn lightmap_capture_get_octree_cell_subdiv (& self , capture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_octree_cell_subdiv ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ret as _ } } # [doc = "Returns the cell transform for this lightmap capture's octree."] # [doc = ""] # [inline] pub fn lightmap_capture_get_octree_cell_transform (& self , capture : Rid) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_get_octree_cell_transform ; let ret = crate :: icalls :: icallptr_trans_rid (method_bind , self . this . sys () . as_ptr () , capture) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn lightmap_capture_is_interior (& self , capture : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_is_interior ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , capture) ; ret as _ } } # [doc = "Sets the size of the area covered by the lightmap capture. Equivalent to [member BakedLightmapData.bounds]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_bounds (& self , capture : Rid , bounds : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_bounds ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , capture , bounds) ; } } # [doc = "Sets the energy multiplier for this lightmap capture. Equivalent to [member BakedLightmapData.energy]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_energy (& self , capture : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , capture , energy) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn lightmap_capture_set_interior (& self , capture : Rid , interior : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_interior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , capture , interior) ; } } # [doc = "Sets the octree to be used by this lightmap capture. This function is normally used by the [BakedLightmap] node. Equivalent to [member BakedLightmapData.octree]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_octree (& self , capture : Rid , octree : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_octree ; let ret = crate :: icalls :: icallptr_void_rid_bytearr (method_bind , self . this . sys () . as_ptr () , capture , octree) ; } } # [doc = "Sets the subdivision level of this lightmap capture's octree. Equivalent to [member BakedLightmapData.cell_subdiv]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_octree_cell_subdiv (& self , capture : Rid , subdiv : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_octree_cell_subdiv ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , capture , subdiv) ; } } # [doc = "Sets the octree cell transform for this lightmap capture's octree. Equivalent to [member BakedLightmapData.cell_space_transform]."] # [doc = ""] # [inline] pub fn lightmap_capture_set_octree_cell_transform (& self , capture : Rid , xform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . lightmap_capture_set_octree_cell_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , capture , xform) ; } } # [doc = "Returns a mesh of a sphere with the given amount of horizontal and vertical subdivisions."] # [doc = ""] # [inline] pub fn make_sphere_mesh (& self , latitudes : i64 , longitudes : i64 , radius : f64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . make_sphere_mesh ; let ret = crate :: icalls :: icallptr_rid_i64_i64_f64 (method_bind , self . this . sys () . as_ptr () , latitudes , longitudes , radius) ; Rid :: from_sys (ret) } } # [doc = "Creates an empty material and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `material_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn material_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the value of a certain material's parameter."] # [doc = ""] # [inline] pub fn material_get_param (& self , material : Rid , parameter : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_get_param ; let ret = crate :: icalls :: icallptr_var_rid_str (method_bind , self . this . sys () . as_ptr () , material , parameter . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the default value for the param if available. Otherwise returns an empty [Variant]."] # [doc = ""] # [inline] pub fn material_get_param_default (& self , material : Rid , parameter : impl Into < GodotString >) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_get_param_default ; let ret = crate :: icalls :: icallptr_var_rid_str (method_bind , self . this . sys () . as_ptr () , material , parameter . into ()) ; Variant :: from_sys (ret) } } # [doc = "Returns the shader of a certain material's shader. Returns an empty RID if the material doesn't have a shader."] # [doc = ""] # [inline] pub fn material_get_shader (& self , shader_material : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_get_shader ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , shader_material) ; Rid :: from_sys (ret) } } # [doc = "Sets a material's line width."] # [doc = ""] # [inline] pub fn material_set_line_width (& self , material : Rid , width : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_line_width ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , material , width) ; } } # [doc = "Sets an object's next material."] # [doc = ""] # [inline] pub fn material_set_next_pass (& self , material : Rid , next_material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_next_pass ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , material , next_material) ; } } # [doc = "Sets a material's parameter."] # [doc = ""] # [inline] pub fn material_set_param (& self , material : Rid , parameter : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_param ; let ret = crate :: icalls :: icallptr_void_rid_str_var (method_bind , self . this . sys () . as_ptr () , material , parameter . into () , value . owned_to_variant ()) ; } } # [doc = "Sets a material's render priority."] # [doc = ""] # [inline] pub fn material_set_render_priority (& self , material : Rid , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_render_priority ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , material , priority) ; } } # [doc = "Sets a shader material's shader."] # [doc = ""] # [inline] pub fn material_set_shader (& self , shader_material : Rid , shader : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . material_set_shader ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , shader_material , shader) ; } } # [doc = "Adds a surface generated from the Arrays to a mesh. See [enum PrimitiveType] constants for types.\n# Default Arguments\n* `blend_shapes` - `[ ]`\n* `compress_format` - `97280`"] # [doc = ""] # [inline] pub fn mesh_add_surface_from_arrays (& self , mesh : Rid , primitive : i64 , arrays : VariantArray , blend_shapes : VariantArray , compress_format : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_add_surface_from_arrays ; let ret = crate :: icalls :: icallptr_void_rid_i64_arr_arr_i64 (method_bind , self . this . sys () . as_ptr () , mesh , primitive , arrays , blend_shapes , compress_format) ; } } # [doc = "Removes all surfaces from a mesh."] # [doc = ""] # [inline] pub fn mesh_clear (& self , mesh : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_clear ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; } } # [doc = "Creates a new mesh and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `mesh_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this mesh to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn mesh_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns a mesh's blend shape count."] # [doc = ""] # [inline] pub fn mesh_get_blend_shape_count (& self , mesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_blend_shape_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; ret as _ } } # [doc = "Returns a mesh's blend shape mode."] # [doc = ""] # [inline] pub fn mesh_get_blend_shape_mode (& self , mesh : Rid) -> crate :: generated :: visual_server :: BlendShapeMode { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_blend_shape_mode ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; crate :: generated :: visual_server :: BlendShapeMode (ret) } } # [doc = "Returns a mesh's custom aabb."] # [doc = ""] # [inline] pub fn mesh_get_custom_aabb (& self , mesh : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_custom_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; mem :: transmute (ret) } } # [doc = "Returns a mesh's number of surfaces."] # [doc = ""] # [inline] pub fn mesh_get_surface_count (& self , mesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_get_surface_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh) ; ret as _ } } # [doc = "Removes a mesh's surface."] # [doc = ""] # [inline] pub fn mesh_remove_surface (& self , mesh : Rid , index : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_remove_surface ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , index) ; } } # [doc = "Sets a mesh's blend shape count."] # [doc = ""] # [inline] pub fn mesh_set_blend_shape_count (& self , mesh : Rid , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_set_blend_shape_count ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , amount) ; } } # [doc = "Sets a mesh's blend shape mode."] # [doc = ""] # [inline] pub fn mesh_set_blend_shape_mode (& self , mesh : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_set_blend_shape_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , mode) ; } } # [doc = "Sets a mesh's custom aabb."] # [doc = ""] # [inline] pub fn mesh_set_custom_aabb (& self , mesh : Rid , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , mesh , aabb) ; } } # [doc = "Returns a mesh's surface's aabb."] # [doc = ""] # [inline] pub fn mesh_surface_get_aabb (& self , mesh : Rid , surface : i64) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; mem :: transmute (ret) } } # [doc = "Returns a mesh's surface's vertex buffer."] # [doc = ""] # [inline] pub fn mesh_surface_get_array (& self , mesh : Rid , surface : i64) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_array ; let ret = crate :: icalls :: icallptr_bytearr_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ByteArray :: from_sys (ret) } } # [doc = "Returns a mesh's surface's amount of indices."] # [doc = ""] # [inline] pub fn mesh_surface_get_array_index_len (& self , mesh : Rid , surface : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_array_index_len ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ret as _ } } # [doc = "Returns a mesh's surface's amount of vertices."] # [doc = ""] # [inline] pub fn mesh_surface_get_array_len (& self , mesh : Rid , surface : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_array_len ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ret as _ } } # [doc = "Returns a mesh's surface's buffer arrays."] # [doc = ""] # [inline] pub fn mesh_surface_get_arrays (& self , mesh : Rid , surface : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_arrays ; let ret = crate :: icalls :: icallvar__rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns a mesh's surface's arrays for blend shapes."] # [doc = ""] # [inline] pub fn mesh_surface_get_blend_shape_arrays (& self , mesh : Rid , surface : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_blend_shape_arrays ; let ret = crate :: icalls :: icallvar__rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the format of a mesh's surface."] # [doc = ""] # [inline] pub fn mesh_surface_get_format (& self , mesh : Rid , surface : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_format ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ret as _ } } # [doc = "Function is unused in Godot 3.x."] # [doc = ""] # [inline] pub fn mesh_surface_get_format_offset (& self , format : i64 , vertex_len : i64 , index_len : i64 , array_index : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_format_offset ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , format , vertex_len , index_len , array_index) ; ret as _ } } # [doc = "Function is unused in Godot 3.x."] # [doc = ""] # [inline] pub fn mesh_surface_get_format_stride (& self , format : i64 , vertex_len : i64 , index_len : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_format_stride ; let ret = crate :: icalls :: icallptr_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , format , vertex_len , index_len) ; ret as _ } } # [doc = "Returns a mesh's surface's index buffer."] # [doc = ""] # [inline] pub fn mesh_surface_get_index_array (& self , mesh : Rid , surface : i64) -> ByteArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_index_array ; let ret = crate :: icalls :: icallptr_bytearr_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; ByteArray :: from_sys (ret) } } # [doc = "Returns a mesh's surface's material."] # [doc = ""] # [inline] pub fn mesh_surface_get_material (& self , mesh : Rid , surface : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_material ; let ret = crate :: icalls :: icallptr_rid_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; Rid :: from_sys (ret) } } # [doc = "Returns the primitive type of a mesh's surface."] # [doc = ""] # [inline] pub fn mesh_surface_get_primitive_type (& self , mesh : Rid , surface : i64) -> crate :: generated :: visual_server :: PrimitiveType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_primitive_type ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; crate :: generated :: visual_server :: PrimitiveType (ret) } } # [doc = "Returns the aabb of a mesh's surface's skeleton."] # [doc = ""] # [inline] pub fn mesh_surface_get_skeleton_aabb (& self , mesh : Rid , surface : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_get_skeleton_aabb ; let ret = crate :: icalls :: icallvar__rid_i64 (method_bind , self . this . sys () . as_ptr () , mesh , surface) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Sets a mesh's surface's material."] # [doc = ""] # [inline] pub fn mesh_surface_set_material (& self , mesh : Rid , surface : i64 , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_set_material ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , mesh , surface , material) ; } } # [doc = "Updates a specific region of a vertex buffer for the specified surface. Warning: this function alters the vertex buffer directly with no safety mechanisms, you can easily corrupt your mesh."] # [doc = ""] # [inline] pub fn mesh_surface_update_region (& self , mesh : Rid , surface : i64 , offset : i64 , data : ByteArray) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . mesh_surface_update_region ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_bytearr (method_bind , self . this . sys () . as_ptr () , mesh , surface , offset , data) ; } } # [doc = "Allocates space for the multimesh data. Format parameters determine how the data will be stored by OpenGL. See [enum MultimeshTransformFormat], [enum MultimeshColorFormat], and [enum MultimeshCustomDataFormat] for usage. Equivalent to [member MultiMesh.instance_count].\n# Default Arguments\n* `custom_data_format` - `0`"] # [doc = ""] # [inline] pub fn multimesh_allocate (& self , multimesh : Rid , instances : i64 , transform_format : i64 , color_format : i64 , custom_data_format : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_allocate ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , instances , transform_format , color_format , custom_data_format) ; } } # [doc = "Creates a new multimesh on the VisualServer and returns an [RID] handle. This RID will be used in all `multimesh_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this multimesh to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn multimesh_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Calculates and returns the axis-aligned bounding box that encloses all instances within the multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_aabb (& self , multimesh : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; mem :: transmute (ret) } } # [doc = "Returns the number of instances allocated for this multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_instance_count (& self , multimesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_instance_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; ret as _ } } # [doc = "Returns the RID of the mesh that will be used in drawing this multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_mesh (& self , multimesh : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_mesh ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; Rid :: from_sys (ret) } } # [doc = "Returns the number of visible instances for this multimesh."] # [doc = ""] # [inline] pub fn multimesh_get_visible_instances (& self , multimesh : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_get_visible_instances ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , multimesh) ; ret as _ } } # [doc = "Returns the color by which the specified instance will be modulated."] # [doc = ""] # [inline] pub fn multimesh_instance_get_color (& self , multimesh : Rid , index : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_color ; let ret = crate :: icalls :: icallptr_color_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Returns the custom data associated with the specified instance."] # [doc = ""] # [inline] pub fn multimesh_instance_get_custom_data (& self , multimesh : Rid , index : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_custom_data ; let ret = crate :: icalls :: icallptr_color_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Returns the [Transform] of the specified instance."] # [doc = ""] # [inline] pub fn multimesh_instance_get_transform (& self , multimesh : Rid , index : i64) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_transform ; let ret = crate :: icalls :: icallptr_trans_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Returns the [Transform2D] of the specified instance. For use when the multimesh is set to use 2D transforms."] # [doc = ""] # [inline] pub fn multimesh_instance_get_transform_2d (& self , multimesh : Rid , index : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_get_transform_2d ; let ret = crate :: icalls :: icallptr_trans2D_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , index) ; mem :: transmute (ret) } } # [doc = "Sets the color by which this instance will be modulated. Equivalent to [method MultiMesh.set_instance_color]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_color (& self , multimesh : Rid , index : i64 , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_color ; let ret = crate :: icalls :: icallptr_void_rid_i64_color (method_bind , self . this . sys () . as_ptr () , multimesh , index , color) ; } } # [doc = "Sets the custom data for this instance. Custom data is passed as a [Color], but is interpreted as a `vec4` in the shader. Equivalent to [method MultiMesh.set_instance_custom_data]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_custom_data (& self , multimesh : Rid , index : i64 , custom_data : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_custom_data ; let ret = crate :: icalls :: icallptr_void_rid_i64_color (method_bind , self . this . sys () . as_ptr () , multimesh , index , custom_data) ; } } # [doc = "Sets the [Transform] for this instance. Equivalent to [method MultiMesh.set_instance_transform]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_transform (& self , multimesh : Rid , index : i64 , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans (method_bind , self . this . sys () . as_ptr () , multimesh , index , transform) ; } } # [doc = "Sets the [Transform2D] for this instance. For use when multimesh is used in 2D. Equivalent to [method MultiMesh.set_instance_transform_2d]."] # [doc = ""] # [inline] pub fn multimesh_instance_set_transform_2d (& self , multimesh : Rid , index : i64 , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_instance_set_transform_2d ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans2D (method_bind , self . this . sys () . as_ptr () , multimesh , index , transform) ; } } # [doc = "Sets all data related to the instances in one go. This is especially useful when loading the data from disk or preparing the data from GDNative.\n\nAll data is packed in one large float array. An array may look like this: Transform for instance 1, color data for instance 1, custom data for instance 1, transform for instance 2, color data for instance 2, etc.\n\n[Transform] is stored as 12 floats, [Transform2D] is stored as 8 floats, `COLOR_8BIT` / `CUSTOM_DATA_8BIT` is stored as 1 float (4 bytes as is) and `COLOR_FLOAT` / `CUSTOM_DATA_FLOAT` is stored as 4 floats."] # [doc = ""] # [inline] pub fn multimesh_set_as_bulk_array (& self , multimesh : Rid , array : Float32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_set_as_bulk_array ; let ret = crate :: icalls :: icallptr_void_rid_f32arr (method_bind , self . this . sys () . as_ptr () , multimesh , array) ; } } # [doc = "Sets the mesh to be drawn by the multimesh. Equivalent to [member MultiMesh.mesh]."] # [doc = ""] # [inline] pub fn multimesh_set_mesh (& self , multimesh : Rid , mesh : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_set_mesh ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , multimesh , mesh) ; } } # [doc = "Sets the number of instances visible at a given time. If -1, all instances that have been allocated are drawn. Equivalent to [member MultiMesh.visible_instance_count]."] # [doc = ""] # [inline] pub fn multimesh_set_visible_instances (& self , multimesh : Rid , visible : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . multimesh_set_visible_instances ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , multimesh , visible) ; } } # [doc = "Creates a new omni light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID can be used in most `light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this omni light to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn omni_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . omni_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a particle system and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `particles_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach these particles to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn particles_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Calculates and returns the axis-aligned bounding box that contains all the particles. Equivalent to [method Particles.capture_aabb]."] # [doc = ""] # [inline] pub fn particles_get_current_aabb (& self , particles : Rid) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_get_current_aabb ; let ret = crate :: icalls :: icallptr_aabb_rid (method_bind , self . this . sys () . as_ptr () , particles) ; mem :: transmute (ret) } } # [doc = "Returns `true` if particles are currently set to emitting."] # [doc = ""] # [inline] pub fn particles_get_emitting (& self , particles : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_get_emitting ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , particles) ; ret as _ } } # [doc = "Returns `true` if particles are not emitting and particles are set to inactive."] # [doc = ""] # [inline] pub fn particles_is_inactive (& self , particles : Rid) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_is_inactive ; let ret = crate :: icalls :: icallptr_bool_rid (method_bind , self . this . sys () . as_ptr () , particles) ; ret as _ } } # [doc = "Add particle system to list of particle systems that need to be updated. Update will take place on the next frame, or on the next call to [method instances_cull_aabb], [method instances_cull_convex], or [method instances_cull_ray]."] # [doc = ""] # [inline] pub fn particles_request_process (& self , particles : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_request_process ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , particles) ; } } # [doc = "Reset the particles on the next update. Equivalent to [method Particles.restart]."] # [doc = ""] # [inline] pub fn particles_restart (& self , particles : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_restart ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , particles) ; } } # [doc = "Sets the number of particles to be drawn and allocates the memory for them. Equivalent to [member Particles.amount]."] # [doc = ""] # [inline] pub fn particles_set_amount (& self , particles : Rid , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_amount ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , amount) ; } } # [doc = "Sets a custom axis-aligned bounding box for the particle system. Equivalent to [member Particles.visibility_aabb]."] # [doc = ""] # [inline] pub fn particles_set_custom_aabb (& self , particles : Rid , aabb : Aabb) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_custom_aabb ; let ret = crate :: icalls :: icallptr_void_rid_aabb (method_bind , self . this . sys () . as_ptr () , particles , aabb) ; } } # [doc = "Sets the draw order of the particles to one of the named enums from [enum ParticlesDrawOrder]. See [enum ParticlesDrawOrder] for options. Equivalent to [member Particles.draw_order]."] # [doc = ""] # [inline] pub fn particles_set_draw_order (& self , particles : Rid , order : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_draw_order ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , order) ; } } # [doc = "Sets the mesh to be used for the specified draw pass. Equivalent to [member Particles.draw_pass_1], [member Particles.draw_pass_2], [member Particles.draw_pass_3], and [member Particles.draw_pass_4]."] # [doc = ""] # [inline] pub fn particles_set_draw_pass_mesh (& self , particles : Rid , pass : i64 , mesh : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_draw_pass_mesh ; let ret = crate :: icalls :: icallptr_void_rid_i64_rid (method_bind , self . this . sys () . as_ptr () , particles , pass , mesh) ; } } # [doc = "Sets the number of draw passes to use. Equivalent to [member Particles.draw_passes]."] # [doc = ""] # [inline] pub fn particles_set_draw_passes (& self , particles : Rid , count : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_draw_passes ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , count) ; } } # [doc = "Sets the [Transform] that will be used by the particles when they first emit."] # [doc = ""] # [inline] pub fn particles_set_emission_transform (& self , particles : Rid , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_emission_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans (method_bind , self . this . sys () . as_ptr () , particles , transform) ; } } # [doc = "If `true`, particles will emit over time. Setting to false does not reset the particles, but only stops their emission. Equivalent to [member Particles.emitting]."] # [doc = ""] # [inline] pub fn particles_set_emitting (& self , particles : Rid , emitting : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_emitting ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , emitting) ; } } # [doc = "Sets the explosiveness ratio. Equivalent to [member Particles.explosiveness]."] # [doc = ""] # [inline] pub fn particles_set_explosiveness_ratio (& self , particles : Rid , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_explosiveness_ratio ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , ratio) ; } } # [doc = "Sets the frame rate that the particle system rendering will be fixed to. Equivalent to [member Particles.fixed_fps]."] # [doc = ""] # [inline] pub fn particles_set_fixed_fps (& self , particles : Rid , fps : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_fixed_fps ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , particles , fps) ; } } # [doc = "If `true`, uses fractional delta which smooths the movement of the particles. Equivalent to [member Particles.fract_delta]."] # [doc = ""] # [inline] pub fn particles_set_fractional_delta (& self , particles : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_fractional_delta ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , enable) ; } } # [doc = "Sets the lifetime of each particle in the system. Equivalent to [member Particles.lifetime]."] # [doc = ""] # [inline] pub fn particles_set_lifetime (& self , particles : Rid , lifetime : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_lifetime ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , lifetime) ; } } # [doc = "If `true`, particles will emit once and then stop. Equivalent to [member Particles.one_shot]."] # [doc = ""] # [inline] pub fn particles_set_one_shot (& self , particles : Rid , one_shot : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_one_shot ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , one_shot) ; } } # [doc = "Sets the preprocess time for the particles animation. This lets you delay starting an animation until after the particles have begun emitting. Equivalent to [member Particles.preprocess]."] # [doc = ""] # [inline] pub fn particles_set_pre_process_time (& self , particles : Rid , time : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_pre_process_time ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , time) ; } } # [doc = "Sets the material for processing the particles. Note: this is not the material used to draw the materials. Equivalent to [member Particles.process_material]."] # [doc = ""] # [inline] pub fn particles_set_process_material (& self , particles : Rid , material : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_process_material ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , particles , material) ; } } # [doc = "Sets the emission randomness ratio. This randomizes the emission of particles within their phase. Equivalent to [member Particles.randomness]."] # [doc = ""] # [inline] pub fn particles_set_randomness_ratio (& self , particles : Rid , ratio : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_randomness_ratio ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , ratio) ; } } # [doc = "Sets the speed scale of the particle system. Equivalent to [member Particles.speed_scale]."] # [doc = ""] # [inline] pub fn particles_set_speed_scale (& self , particles : Rid , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_speed_scale ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , particles , scale) ; } } # [doc = "If `true`, particles use local coordinates. If `false` they use global coordinates. Equivalent to [member Particles.local_coords]."] # [doc = ""] # [inline] pub fn particles_set_use_local_coordinates (& self , particles : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . particles_set_use_local_coordinates ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , particles , enable) ; } } # [doc = "Creates a reflection probe and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `reflection_probe_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this reflection probe to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn reflection_probe_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "If `true`, reflections will ignore sky contribution. Equivalent to [member ReflectionProbe.interior_enable]."] # [doc = ""] # [inline] pub fn reflection_probe_set_as_interior (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_as_interior ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the render cull mask for this reflection probe. Only instances with a matching cull mask will be rendered by this probe. Equivalent to [member ReflectionProbe.cull_mask]."] # [doc = ""] # [inline] pub fn reflection_probe_set_cull_mask (& self , probe : Rid , layers : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_cull_mask ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , probe , layers) ; } } # [doc = "If `true`, uses box projection. This can make reflections look more correct in certain situations. Equivalent to [member ReflectionProbe.box_projection]."] # [doc = ""] # [inline] pub fn reflection_probe_set_enable_box_projection (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_enable_box_projection ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "If `true`, computes shadows in the reflection probe. This makes the reflection much slower to compute. Equivalent to [member ReflectionProbe.enable_shadows]."] # [doc = ""] # [inline] pub fn reflection_probe_set_enable_shadows (& self , probe : Rid , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_enable_shadows ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , probe , enable) ; } } # [doc = "Sets the size of the area that the reflection probe will capture. Equivalent to [member ReflectionProbe.extents]."] # [doc = ""] # [inline] pub fn reflection_probe_set_extents (& self , probe : Rid , extents : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_extents ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , probe , extents) ; } } # [doc = "Sets the intensity of the reflection probe. Intensity modulates the strength of the reflection. Equivalent to [member ReflectionProbe.intensity]."] # [doc = ""] # [inline] pub fn reflection_probe_set_intensity (& self , probe : Rid , intensity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_intensity ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , intensity) ; } } # [doc = "Sets the ambient light color for this reflection probe when set to interior mode. Equivalent to [member ReflectionProbe.interior_ambient_color]."] # [doc = ""] # [inline] pub fn reflection_probe_set_interior_ambient (& self , probe : Rid , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_interior_ambient ; let ret = crate :: icalls :: icallptr_void_rid_color (method_bind , self . this . sys () . as_ptr () , probe , color) ; } } # [doc = "Sets the energy multiplier for this reflection probes ambient light contribution when set to interior mode. Equivalent to [member ReflectionProbe.interior_ambient_energy]."] # [doc = ""] # [inline] pub fn reflection_probe_set_interior_ambient_energy (& self , probe : Rid , energy : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_interior_ambient_energy ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , energy) ; } } # [doc = "Sets the contribution value for how much the reflection affects the ambient light for this reflection probe when set to interior mode. Useful so that ambient light matches the color of the room. Equivalent to [member ReflectionProbe.interior_ambient_contrib]."] # [doc = ""] # [inline] pub fn reflection_probe_set_interior_ambient_probe_contribution (& self , probe : Rid , contrib : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_interior_ambient_probe_contribution ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , contrib) ; } } # [doc = "Sets the max distance away from the probe an object can be before it is culled. Equivalent to [member ReflectionProbe.max_distance]."] # [doc = ""] # [inline] pub fn reflection_probe_set_max_distance (& self , probe : Rid , distance : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_max_distance ; let ret = crate :: icalls :: icallptr_void_rid_f64 (method_bind , self . this . sys () . as_ptr () , probe , distance) ; } } # [doc = "Sets the origin offset to be used when this reflection probe is in box project mode. Equivalent to [member ReflectionProbe.origin_offset]."] # [doc = ""] # [inline] pub fn reflection_probe_set_origin_offset (& self , probe : Rid , offset : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_origin_offset ; let ret = crate :: icalls :: icallptr_void_rid_vec3 (method_bind , self . this . sys () . as_ptr () , probe , offset) ; } } # [doc = "Sets how often the reflection probe updates. Can either be once or every frame. See [enum ReflectionProbeUpdateMode] for options."] # [doc = ""] # [inline] pub fn reflection_probe_set_update_mode (& self , probe : Rid , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . reflection_probe_set_update_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , probe , mode) ; } } # [doc = "Schedules a callback to the corresponding named `method` on `where` after a frame has been drawn.\nThe callback method must use only 1 argument which will be called with `userdata`."] # [doc = ""] # [inline] pub fn request_frame_drawn_callback (& self , _where : impl AsArg < crate :: generated :: object :: Object > , method : impl Into < GodotString > , userdata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . request_frame_drawn_callback ; let ret = crate :: icalls :: icallptr_void_obj_str_var (method_bind , self . this . sys () . as_ptr () , _where . as_arg_ptr () , method . into () , userdata . owned_to_variant ()) ; } } # [doc = "Creates a scenario and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `scenario_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nThe scenario is the 3D world that all the visual instances exist in."] # [doc = ""] # [inline] pub fn scenario_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets the [enum ScenarioDebugMode] for this scenario. See [enum ScenarioDebugMode] for options."] # [doc = ""] # [inline] pub fn scenario_set_debug (& self , scenario : Rid , debug_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_debug ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , scenario , debug_mode) ; } } # [doc = "Sets the environment that will be used with this scenario."] # [doc = ""] # [inline] pub fn scenario_set_environment (& self , scenario : Rid , environment : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_environment ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , scenario , environment) ; } } # [doc = "Sets the fallback environment to be used by this scenario. The fallback environment is used if no environment is set. Internally, this is used by the editor to provide a default environment."] # [doc = ""] # [inline] pub fn scenario_set_fallback_environment (& self , scenario : Rid , environment : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_fallback_environment ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , scenario , environment) ; } } # [doc = "Sets the size of the reflection atlas shared by all reflection probes in this scenario."] # [doc = ""] # [inline] pub fn scenario_set_reflection_atlas_size (& self , scenario : Rid , size : i64 , subdiv : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . scenario_set_reflection_atlas_size ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , scenario , size , subdiv) ; } } # [doc = "Sets a boot image. The color defines the background color. If `scale` is `true`, the image will be scaled to fit the screen size. If `use_filter` is `true`, the image will be scaled with linear interpolation. If `use_filter` is `false`, the image will be scaled with nearest-neighbor interpolation.\n# Default Arguments\n* `use_filter` - `true`"] # [doc = ""] # [inline] pub fn set_boot_image (& self , image : impl AsArg < crate :: generated :: image :: Image > , color : Color , scale : bool , use_filter : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_boot_image ; let ret = crate :: icalls :: icallptr_void_obj_color_bool_bool (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , color , scale , use_filter) ; } } # [doc = "If `true`, the engine will generate wireframes for use with the wireframe debug mode."] # [doc = ""] # [inline] pub fn set_debug_generate_wireframes (& self , generate : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_debug_generate_wireframes ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , generate) ; } } # [doc = "Sets the default clear color which is used when a specific clear color has not been selected."] # [doc = ""] # [inline] pub fn set_default_clear_color (& self , color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_default_clear_color ; let ret = crate :: icalls :: icallptr_void_color (method_bind , self . this . sys () . as_ptr () , color) ; } } # [doc = "If `false`, disables rendering completely, but the engine logic is still being processed. You can call [method force_draw] to draw a frame even with rendering disabled."] # [doc = ""] # [inline] pub fn set_render_loop_enabled (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_render_loop_enabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Sets the scale to apply to the passage of time for the shaders' `TIME` builtin.\nThe default value is `1.0`, which means `TIME` will count the real time as it goes by, without narrowing or stretching it."] # [doc = ""] # [inline] pub fn set_shader_time_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . set_shader_time_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "Creates an empty shader and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `shader_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn shader_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns a shader's code."] # [doc = ""] # [inline] pub fn shader_get_code (& self , shader : Rid) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_get_code ; let ret = crate :: icalls :: icallptr_str_rid (method_bind , self . this . sys () . as_ptr () , shader) ; GodotString :: from_sys (ret) } } # [doc = "Returns a default texture from a shader searched by name."] # [doc = ""] # [inline] pub fn shader_get_default_texture_param (& self , shader : Rid , name : impl Into < GodotString >) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_get_default_texture_param ; let ret = crate :: icalls :: icallptr_rid_rid_str (method_bind , self . this . sys () . as_ptr () , shader , name . into ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the parameters of a shader."] # [doc = ""] # [inline] pub fn shader_get_param_list (& self , shader : Rid) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_get_param_list ; let ret = crate :: icalls :: icallvar__rid (method_bind , self . this . sys () . as_ptr () , shader) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Sets a shader's code."] # [doc = ""] # [inline] pub fn shader_set_code (& self , shader : Rid , code : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_set_code ; let ret = crate :: icalls :: icallptr_void_rid_str (method_bind , self . this . sys () . as_ptr () , shader , code . into ()) ; } } # [doc = "Sets a shader's default texture. Overwrites the texture given by name."] # [doc = ""] # [inline] pub fn shader_set_default_texture_param (& self , shader : Rid , name : impl Into < GodotString > , texture : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . shader_set_default_texture_param ; let ret = crate :: icalls :: icallptr_void_rid_str_rid (method_bind , self . this . sys () . as_ptr () , shader , name . into () , texture) ; } } # [doc = "Allocates the GPU buffers for this skeleton.\n# Default Arguments\n* `is_2d_skeleton` - `false`"] # [doc = ""] # [inline] pub fn skeleton_allocate (& self , skeleton : Rid , bones : i64 , is_2d_skeleton : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_allocate ; let ret = crate :: icalls :: icallptr_void_rid_i64_bool (method_bind , self . this . sys () . as_ptr () , skeleton , bones , is_2d_skeleton) ; } } # [doc = "Returns the [Transform] set for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_get_transform (& self , skeleton : Rid , bone : i64) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_get_transform ; let ret = crate :: icalls :: icallptr_trans_rid_i64 (method_bind , self . this . sys () . as_ptr () , skeleton , bone) ; mem :: transmute (ret) } } # [doc = "Returns the [Transform2D] set for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_get_transform_2d (& self , skeleton : Rid , bone : i64) -> Transform2D { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_get_transform_2d ; let ret = crate :: icalls :: icallptr_trans2D_rid_i64 (method_bind , self . this . sys () . as_ptr () , skeleton , bone) ; mem :: transmute (ret) } } # [doc = "Sets the [Transform] for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_set_transform (& self , skeleton : Rid , bone : i64 , transform : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_set_transform ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans (method_bind , self . this . sys () . as_ptr () , skeleton , bone , transform) ; } } # [doc = "Sets the [Transform2D] for a specific bone of this skeleton."] # [doc = ""] # [inline] pub fn skeleton_bone_set_transform_2d (& self , skeleton : Rid , bone : i64 , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_bone_set_transform_2d ; let ret = crate :: icalls :: icallptr_void_rid_i64_trans2D (method_bind , self . this . sys () . as_ptr () , skeleton , bone , transform) ; } } # [doc = "Creates a skeleton and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `skeleton_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn skeleton_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Returns the number of bones allocated for this skeleton."] # [doc = ""] # [inline] pub fn skeleton_get_bone_count (& self , skeleton : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . skeleton_get_bone_count ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , skeleton) ; ret as _ } } # [doc = "Creates an empty sky and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `sky_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn sky_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . sky_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Sets a sky's texture."] # [doc = ""] # [inline] pub fn sky_set_texture (& self , sky : Rid , cube_map : Rid , radiance_size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . sky_set_texture ; let ret = crate :: icalls :: icallptr_void_rid_rid_i64 (method_bind , self . this . sys () . as_ptr () , sky , cube_map , radiance_size) ; } } # [doc = "Creates a spot light and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID can be used in most `light_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method.\nTo place in a scene, attach this spot light to an instance using [method instance_set_base] using the returned RID."] # [doc = ""] # [inline] pub fn spot_light_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . spot_light_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Not implemented in Godot 3.x."] # [doc = ""] # [inline] pub fn sync (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . sync ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Allocates the GPU memory for the texture.\n# Default Arguments\n* `flags` - `7`"] # [doc = ""] # [inline] pub fn texture_allocate (& self , texture : Rid , width : i64 , height : i64 , depth_3d : i64 , format : i64 , _type : i64 , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_allocate ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture , width , height , depth_3d , format , _type , flags) ; } } # [doc = "Binds the texture to a texture slot."] # [doc = ""] # [inline] pub fn texture_bind (& self , texture : Rid , number : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_bind ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , texture , number) ; } } # [doc = "Creates an empty texture and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `texture_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn texture_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Creates a texture, allocates the space for an image, and fills in the image.\n# Default Arguments\n* `flags` - `7`"] # [doc = ""] # [inline] pub fn texture_create_from_image (& self , image : impl AsArg < crate :: generated :: image :: Image > , flags : i64) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_create_from_image ; let ret = crate :: icalls :: icallptr_rid_obj_i64 (method_bind , self . this . sys () . as_ptr () , image . as_arg_ptr () , flags) ; Rid :: from_sys (ret) } } # [doc = "Returns a list of all the textures and their information."] # [doc = ""] # [inline] pub fn texture_debug_usage (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_debug_usage ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns a copy of a texture's image unless it's a CubeMap, in which case it returns the [RID] of the image at one of the cubes sides.\n# Default Arguments\n* `cube_side` - `0`"] # [doc = ""] # [inline] pub fn texture_get_data (& self , texture : Rid , cube_side : i64) -> Option < Ref < crate :: generated :: image :: Image , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_data ; let ret = crate :: icalls :: icallptr_obj_rid_i64 (method_bind , self . this . sys () . as_ptr () , texture , cube_side) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: image :: Image , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the depth of the texture."] # [doc = ""] # [inline] pub fn texture_get_depth (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_depth ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the flags of a texture."] # [doc = ""] # [inline] pub fn texture_get_flags (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_flags ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the format of the texture's image."] # [doc = ""] # [inline] pub fn texture_get_format (& self , texture : Rid) -> crate :: generated :: image :: Format { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_format ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; crate :: generated :: image :: Format (ret) } } # [doc = "Returns the texture's height."] # [doc = ""] # [inline] pub fn texture_get_height (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_height ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the texture's path."] # [doc = ""] # [inline] pub fn texture_get_path (& self , texture : Rid) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_path ; let ret = crate :: icalls :: icallptr_str_rid (method_bind , self . this . sys () . as_ptr () , texture) ; GodotString :: from_sys (ret) } } # [doc = "Returns the opengl id of the texture's image."] # [doc = ""] # [inline] pub fn texture_get_texid (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_texid ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Returns the type of the texture, can be any of the [enum TextureType]."] # [doc = ""] # [inline] pub fn texture_get_type (& self , texture : Rid) -> crate :: generated :: visual_server :: TextureType { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_type ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; crate :: generated :: visual_server :: TextureType (ret) } } # [doc = "Returns the texture's width."] # [doc = ""] # [inline] pub fn texture_get_width (& self , texture : Rid) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_get_width ; let ret = crate :: icalls :: icallptr_i64_rid (method_bind , self . this . sys () . as_ptr () , texture) ; ret as _ } } # [doc = "Sets the texture's image data. If it's a CubeMap, it sets the image data at a cube side.\n# Default Arguments\n* `layer` - `0`"] # [doc = ""] # [inline] pub fn texture_set_data (& self , texture : Rid , image : impl AsArg < crate :: generated :: image :: Image > , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_data ; let ret = crate :: icalls :: icallptr_void_rid_obj_i64 (method_bind , self . this . sys () . as_ptr () , texture , image . as_arg_ptr () , layer) ; } } # [doc = "Sets a part of the data for a texture. Warning: this function calls the underlying graphics API directly and may corrupt your texture if used improperly.\n# Default Arguments\n* `layer` - `0`"] # [doc = ""] # [inline] pub fn texture_set_data_partial (& self , texture : Rid , image : impl AsArg < crate :: generated :: image :: Image > , src_x : i64 , src_y : i64 , src_w : i64 , src_h : i64 , dst_x : i64 , dst_y : i64 , dst_mip : i64 , layer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_data_partial ; let ret = crate :: icalls :: icallptr_void_rid_obj_i64_i64_i64_i64_i64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture , image . as_arg_ptr () , src_x , src_y , src_w , src_h , dst_x , dst_y , dst_mip , layer) ; } } # [doc = "Sets the texture's flags. See [enum TextureFlags] for options."] # [doc = ""] # [inline] pub fn texture_set_flags (& self , texture : Rid , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_flags ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , texture , flags) ; } } # [doc = "Sets the texture's path."] # [doc = ""] # [inline] pub fn texture_set_path (& self , texture : Rid , path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_path ; let ret = crate :: icalls :: icallptr_void_rid_str (method_bind , self . this . sys () . as_ptr () , texture , path . into ()) ; } } # [doc = "If `true`, sets internal processes to shrink all image data to half the size."] # [doc = ""] # [inline] pub fn texture_set_shrink_all_x2_on_set_data (& self , shrink : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_shrink_all_x2_on_set_data ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , shrink) ; } } # [doc = "Resizes the texture to the specified dimensions."] # [doc = ""] # [inline] pub fn texture_set_size_override (& self , texture : Rid , width : i64 , height : i64 , depth : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . texture_set_size_override ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , texture , width , height , depth) ; } } # [doc = "If `true`, the image will be stored in the texture's images array if overwritten."] # [doc = ""] # [inline] pub fn textures_keep_original (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . textures_keep_original ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets a viewport's camera."] # [doc = ""] # [inline] pub fn viewport_attach_camera (& self , viewport : Rid , camera : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_attach_camera ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , camera) ; } } # [doc = "Sets a viewport's canvas."] # [doc = ""] # [inline] pub fn viewport_attach_canvas (& self , viewport : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_attach_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , canvas) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nCopies viewport to a region of the screen specified by `rect`. If [member Viewport.render_direct_to_screen] is `true`, then viewport does not use a framebuffer and the contents of the viewport are rendered directly to screen. However, note that the root viewport is drawn last, therefore it will draw over the screen. Accordingly, you must set the root viewport to an area that does not cover the area that you have attached this viewport to.\nFor example, you can set the root viewport to not render at all with the following code:\n```gdscript\nfunc _ready():\n get_viewport().set_attach_to_screen_rect(Rect2())\n $Viewport.set_attach_to_screen_rect(Rect2(0, 0, 600, 600))\n```\nUsing this can result in significant optimization, especially on lower-end devices. However, it comes at the cost of having to manage your viewports manually. For a further optimization see, [method viewport_set_render_direct_to_screen].\n# Default Arguments\n* `rect` - `Rect2( 0, 0, 0, 0 )`\n* `screen` - `0`"] # [doc = ""] # [inline] pub fn viewport_attach_to_screen (& self , viewport : Rid , rect : Rect2 , screen : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_attach_to_screen ; let ret = crate :: icalls :: icallptr_void_rid_rect2_i64 (method_bind , self . this . sys () . as_ptr () , viewport , rect , screen) ; } } # [doc = "Creates an empty viewport and adds it to the VisualServer. It can be accessed with the RID that is returned. This RID will be used in all `viewport_*` VisualServer functions.\nOnce finished with your RID, you will want to free the RID using the VisualServer's [method free_rid] static method."] # [doc = ""] # [inline] pub fn viewport_create (& self) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_create ; let ret = crate :: icalls :: icallptr_rid (method_bind , self . this . sys () . as_ptr ()) ; Rid :: from_sys (ret) } } # [doc = "Detaches the viewport from the screen."] # [doc = ""] # [inline] pub fn viewport_detach (& self , viewport : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_detach ; let ret = crate :: icalls :: icallptr_void_rid (method_bind , self . this . sys () . as_ptr () , viewport) ; } } # [doc = "Returns a viewport's render information. For options, see the [enum ViewportRenderInfo] constants."] # [doc = ""] # [inline] pub fn viewport_get_render_info (& self , viewport : Rid , info : i64) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_get_render_info ; let ret = crate :: icalls :: icallptr_i64_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , info) ; ret as _ } } # [doc = "Returns the viewport's last rendered frame."] # [doc = ""] # [inline] pub fn viewport_get_texture (& self , viewport : Rid) -> Rid { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_get_texture ; let ret = crate :: icalls :: icallptr_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport) ; Rid :: from_sys (ret) } } # [doc = "Detaches a viewport from a canvas and vice versa."] # [doc = ""] # [inline] pub fn viewport_remove_canvas (& self , viewport : Rid , canvas : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_remove_canvas ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , canvas) ; } } # [doc = "If `true`, sets the viewport active, else sets it inactive."] # [doc = ""] # [inline] pub fn viewport_set_active (& self , viewport : Rid , active : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_active ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , active) ; } } # [doc = "Sets the stacking order for a viewport's canvas.\n`layer` is the actual canvas layer, while `sublayer` specifies the stacking order of the canvas among those in the same layer."] # [doc = ""] # [inline] pub fn viewport_set_canvas_stacking (& self , viewport : Rid , canvas : Rid , layer : i64 , sublayer : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_canvas_stacking ; let ret = crate :: icalls :: icallptr_void_rid_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , viewport , canvas , layer , sublayer) ; } } # [doc = "Sets the transformation of a viewport's canvas."] # [doc = ""] # [inline] pub fn viewport_set_canvas_transform (& self , viewport : Rid , canvas : Rid , offset : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_canvas_transform ; let ret = crate :: icalls :: icallptr_void_rid_rid_trans2D (method_bind , self . this . sys () . as_ptr () , viewport , canvas , offset) ; } } # [doc = "Sets the clear mode of a viewport. See [enum ViewportClearMode] for options."] # [doc = ""] # [inline] pub fn viewport_set_clear_mode (& self , viewport : Rid , clear_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_clear_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , clear_mode) ; } } # [doc = "Sets the debug draw mode of a viewport. See [enum ViewportDebugDraw] for options."] # [doc = ""] # [inline] pub fn viewport_set_debug_draw (& self , viewport : Rid , draw : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_debug_draw ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , draw) ; } } # [doc = "If `true`, a viewport's 3D rendering is disabled."] # [doc = ""] # [inline] pub fn viewport_set_disable_3d (& self , viewport : Rid , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_disable_3d ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , disabled) ; } } # [doc = "If `true`, rendering of a viewport's environment is disabled."] # [doc = ""] # [inline] pub fn viewport_set_disable_environment (& self , viewport : Rid , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_disable_environment ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , disabled) ; } } # [doc = "Sets the viewport's global transformation matrix."] # [doc = ""] # [inline] pub fn viewport_set_global_canvas_transform (& self , viewport : Rid , transform : Transform2D) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_global_canvas_transform ; let ret = crate :: icalls :: icallptr_void_rid_trans2D (method_bind , self . this . sys () . as_ptr () , viewport , transform) ; } } # [doc = "If `true`, the viewport renders to hdr."] # [doc = ""] # [inline] pub fn viewport_set_hdr (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_hdr ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } # [doc = "If `true`, the viewport's canvas is not rendered."] # [doc = ""] # [inline] pub fn viewport_set_hide_canvas (& self , viewport : Rid , hidden : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_hide_canvas ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , hidden) ; } } # [doc = "Currently unimplemented in Godot 3.x."] # [doc = ""] # [inline] pub fn viewport_set_hide_scenario (& self , viewport : Rid , hidden : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_hide_scenario ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , hidden) ; } } # [doc = "Sets the anti-aliasing mode. See [enum ViewportMSAA] for options."] # [doc = ""] # [inline] pub fn viewport_set_msaa (& self , viewport : Rid , msaa : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_msaa ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , msaa) ; } } # [doc = "Sets the viewport's parent to another viewport."] # [doc = ""] # [inline] pub fn viewport_set_parent_viewport (& self , viewport : Rid , parent_viewport : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_parent_viewport ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , parent_viewport) ; } } # [doc = "If `true`, render the contents of the viewport directly to screen. This allows a low-level optimization where you can skip drawing a viewport to the root viewport. While this optimization can result in a significant increase in speed (especially on older devices), it comes at a cost of usability. When this is enabled, you cannot read from the viewport or from the `SCREEN_TEXTURE`. You also lose the benefit of certain window settings, such as the various stretch modes. Another consequence to be aware of is that in 2D the rendering happens in window coordinates, so if you have a viewport that is double the size of the window, and you set this, then only the portion that fits within the window will be drawn, no automatic scaling is possible, even if your game scene is significantly larger than the window size."] # [doc = ""] # [inline] pub fn viewport_set_render_direct_to_screen (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_render_direct_to_screen ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } # [doc = "Sets a viewport's scenario.\nThe scenario contains information about the [enum ScenarioDebugMode], environment information, reflection atlas etc."] # [doc = ""] # [inline] pub fn viewport_set_scenario (& self , viewport : Rid , scenario : Rid) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_scenario ; let ret = crate :: icalls :: icallptr_void_rid_rid (method_bind , self . this . sys () . as_ptr () , viewport , scenario) ; } } # [doc = "Sets the shadow atlas quadrant's subdivision."] # [doc = ""] # [inline] pub fn viewport_set_shadow_atlas_quadrant_subdivision (& self , viewport : Rid , quadrant : i64 , subdivision : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_shadow_atlas_quadrant_subdivision ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , viewport , quadrant , subdivision) ; } } # [doc = "Sets the size of the shadow atlas's images (used for omni and spot lights). The value will be rounded up to the nearest power of 2."] # [doc = ""] # [inline] pub fn viewport_set_shadow_atlas_size (& self , viewport : Rid , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_shadow_atlas_size ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , size) ; } } # [doc = "Sets the viewport's width and height."] # [doc = ""] # [inline] pub fn viewport_set_size (& self , viewport : Rid , width : i64 , height : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_size ; let ret = crate :: icalls :: icallptr_void_rid_i64_i64 (method_bind , self . this . sys () . as_ptr () , viewport , width , height) ; } } # [doc = "If `true`, the viewport renders its background as transparent."] # [doc = ""] # [inline] pub fn viewport_set_transparent_background (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_transparent_background ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } # [doc = "Sets when the viewport should be updated. See [enum ViewportUpdateMode] constants for options."] # [doc = ""] # [inline] pub fn viewport_set_update_mode (& self , viewport : Rid , update_mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_update_mode ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , update_mode) ; } } # [doc = "Sets the viewport's 2D/3D mode. See [enum ViewportUsage] constants for options."] # [doc = ""] # [inline] pub fn viewport_set_usage (& self , viewport : Rid , usage : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_usage ; let ret = crate :: icalls :: icallptr_void_rid_i64 (method_bind , self . this . sys () . as_ptr () , viewport , usage) ; } } # [doc = "If `true`, the viewport uses augmented or virtual reality technologies. See [ARVRInterface]."] # [doc = ""] # [inline] pub fn viewport_set_use_arvr (& self , viewport : Rid , use_arvr : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_use_arvr ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , use_arvr) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn viewport_set_use_debanding (& self , viewport : Rid , debanding : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_use_debanding ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , debanding) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn viewport_set_use_fxaa (& self , viewport : Rid , fxaa : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_use_fxaa ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , fxaa) ; } } # [doc = "If `true`, the viewport's rendering is flipped vertically."] # [doc = ""] # [inline] pub fn viewport_set_vflip (& self , viewport : Rid , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualServerMethodTable :: get (get_api ()) . viewport_set_vflip ; let ret = crate :: icalls :: icallptr_void_rid_bool (method_bind , self . this . sys () . as_ptr () , viewport , enabled) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualServer { } unsafe impl GodotObject for VisualServer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "VisualServer" } } impl std :: ops :: Deref for VisualServer { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualServer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualServer { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualServerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub black_bars_set_images : * mut sys :: godot_method_bind , pub black_bars_set_margins : * mut sys :: godot_method_bind , pub camera_create : * mut sys :: godot_method_bind , pub camera_set_cull_mask : * mut sys :: godot_method_bind , pub camera_set_environment : * mut sys :: godot_method_bind , pub camera_set_frustum : * mut sys :: godot_method_bind , pub camera_set_orthogonal : * mut sys :: godot_method_bind , pub camera_set_perspective : * mut sys :: godot_method_bind , pub camera_set_transform : * mut sys :: godot_method_bind , pub camera_set_use_vertical_aspect : * mut sys :: godot_method_bind , pub canvas_create : * mut sys :: godot_method_bind , pub canvas_item_add_circle : * mut sys :: godot_method_bind , pub canvas_item_add_clip_ignore : * mut sys :: godot_method_bind , pub canvas_item_add_line : * mut sys :: godot_method_bind , pub canvas_item_add_mesh : * mut sys :: godot_method_bind , pub canvas_item_add_multimesh : * mut sys :: godot_method_bind , pub canvas_item_add_nine_patch : * mut sys :: godot_method_bind , pub canvas_item_add_particles : * mut sys :: godot_method_bind , pub canvas_item_add_polygon : * mut sys :: godot_method_bind , pub canvas_item_add_polyline : * mut sys :: godot_method_bind , pub canvas_item_add_primitive : * mut sys :: godot_method_bind , pub canvas_item_add_rect : * mut sys :: godot_method_bind , pub canvas_item_add_set_transform : * mut sys :: godot_method_bind , pub canvas_item_add_texture_rect : * mut sys :: godot_method_bind , pub canvas_item_add_texture_rect_region : * mut sys :: godot_method_bind , pub canvas_item_add_triangle_array : * mut sys :: godot_method_bind , pub canvas_item_clear : * mut sys :: godot_method_bind , pub canvas_item_create : * mut sys :: godot_method_bind , pub canvas_item_set_clip : * mut sys :: godot_method_bind , pub canvas_item_set_copy_to_backbuffer : * mut sys :: godot_method_bind , pub canvas_item_set_custom_rect : * mut sys :: godot_method_bind , pub canvas_item_set_distance_field_mode : * mut sys :: godot_method_bind , pub canvas_item_set_draw_behind_parent : * mut sys :: godot_method_bind , pub canvas_item_set_draw_index : * mut sys :: godot_method_bind , pub canvas_item_set_light_mask : * mut sys :: godot_method_bind , pub canvas_item_set_material : * mut sys :: godot_method_bind , pub canvas_item_set_modulate : * mut sys :: godot_method_bind , pub canvas_item_set_parent : * mut sys :: godot_method_bind , pub canvas_item_set_self_modulate : * mut sys :: godot_method_bind , pub canvas_item_set_sort_children_by_y : * mut sys :: godot_method_bind , pub canvas_item_set_transform : * mut sys :: godot_method_bind , pub canvas_item_set_use_parent_material : * mut sys :: godot_method_bind , pub canvas_item_set_visible : * mut sys :: godot_method_bind , pub canvas_item_set_z_as_relative_to_parent : * mut sys :: godot_method_bind , pub canvas_item_set_z_index : * mut sys :: godot_method_bind , pub canvas_light_attach_to_canvas : * mut sys :: godot_method_bind , pub canvas_light_create : * mut sys :: godot_method_bind , pub canvas_light_occluder_attach_to_canvas : * mut sys :: godot_method_bind , pub canvas_light_occluder_create : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_enabled : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_light_mask : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_polygon : * mut sys :: godot_method_bind , pub canvas_light_occluder_set_transform : * mut sys :: godot_method_bind , pub canvas_light_set_color : * mut sys :: godot_method_bind , pub canvas_light_set_enabled : * mut sys :: godot_method_bind , pub canvas_light_set_energy : * mut sys :: godot_method_bind , pub canvas_light_set_height : * mut sys :: godot_method_bind , pub canvas_light_set_item_cull_mask : * mut sys :: godot_method_bind , pub canvas_light_set_item_shadow_cull_mask : * mut sys :: godot_method_bind , pub canvas_light_set_layer_range : * mut sys :: godot_method_bind , pub canvas_light_set_mode : * mut sys :: godot_method_bind , pub canvas_light_set_scale : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_buffer_size : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_color : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_enabled : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_filter : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_gradient_length : * mut sys :: godot_method_bind , pub canvas_light_set_shadow_smooth : * mut sys :: godot_method_bind , pub canvas_light_set_texture : * mut sys :: godot_method_bind , pub canvas_light_set_texture_offset : * mut sys :: godot_method_bind , pub canvas_light_set_transform : * mut sys :: godot_method_bind , pub canvas_light_set_z_range : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_create : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_set_cull_mode : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_set_shape : * mut sys :: godot_method_bind , pub canvas_occluder_polygon_set_shape_as_lines : * mut sys :: godot_method_bind , pub canvas_set_item_mirroring : * mut sys :: godot_method_bind , pub canvas_set_modulate : * mut sys :: godot_method_bind , pub directional_light_create : * mut sys :: godot_method_bind , pub draw : * mut sys :: godot_method_bind , pub environment_create : * mut sys :: godot_method_bind , pub environment_set_adjustment : * mut sys :: godot_method_bind , pub environment_set_ambient_light : * mut sys :: godot_method_bind , pub environment_set_background : * mut sys :: godot_method_bind , pub environment_set_bg_color : * mut sys :: godot_method_bind , pub environment_set_bg_energy : * mut sys :: godot_method_bind , pub environment_set_canvas_max_layer : * mut sys :: godot_method_bind , pub environment_set_dof_blur_far : * mut sys :: godot_method_bind , pub environment_set_dof_blur_near : * mut sys :: godot_method_bind , pub environment_set_fog : * mut sys :: godot_method_bind , pub environment_set_fog_depth : * mut sys :: godot_method_bind , pub environment_set_fog_height : * mut sys :: godot_method_bind , pub environment_set_glow : * mut sys :: godot_method_bind , pub environment_set_sky : * mut sys :: godot_method_bind , pub environment_set_sky_custom_fov : * mut sys :: godot_method_bind , pub environment_set_sky_orientation : * mut sys :: godot_method_bind , pub environment_set_ssao : * mut sys :: godot_method_bind , pub environment_set_ssr : * mut sys :: godot_method_bind , pub environment_set_tonemap : * mut sys :: godot_method_bind , pub finish : * mut sys :: godot_method_bind , pub force_draw : * mut sys :: godot_method_bind , pub force_sync : * mut sys :: godot_method_bind , pub free_rid : * mut sys :: godot_method_bind , pub get_render_info : * mut sys :: godot_method_bind , pub get_test_cube : * mut sys :: godot_method_bind , pub get_test_texture : * mut sys :: godot_method_bind , pub get_video_adapter_name : * mut sys :: godot_method_bind , pub get_video_adapter_vendor : * mut sys :: godot_method_bind , pub get_white_texture : * mut sys :: godot_method_bind , pub gi_probe_create : * mut sys :: godot_method_bind , pub gi_probe_get_bias : * mut sys :: godot_method_bind , pub gi_probe_get_bounds : * mut sys :: godot_method_bind , pub gi_probe_get_cell_size : * mut sys :: godot_method_bind , pub gi_probe_get_dynamic_data : * mut sys :: godot_method_bind , pub gi_probe_get_dynamic_range : * mut sys :: godot_method_bind , pub gi_probe_get_energy : * mut sys :: godot_method_bind , pub gi_probe_get_normal_bias : * mut sys :: godot_method_bind , pub gi_probe_get_propagation : * mut sys :: godot_method_bind , pub gi_probe_get_to_cell_xform : * mut sys :: godot_method_bind , pub gi_probe_is_compressed : * mut sys :: godot_method_bind , pub gi_probe_is_interior : * mut sys :: godot_method_bind , pub gi_probe_set_bias : * mut sys :: godot_method_bind , pub gi_probe_set_bounds : * mut sys :: godot_method_bind , pub gi_probe_set_cell_size : * mut sys :: godot_method_bind , pub gi_probe_set_compress : * mut sys :: godot_method_bind , pub gi_probe_set_dynamic_data : * mut sys :: godot_method_bind , pub gi_probe_set_dynamic_range : * mut sys :: godot_method_bind , pub gi_probe_set_energy : * mut sys :: godot_method_bind , pub gi_probe_set_interior : * mut sys :: godot_method_bind , pub gi_probe_set_normal_bias : * mut sys :: godot_method_bind , pub gi_probe_set_propagation : * mut sys :: godot_method_bind , pub gi_probe_set_to_cell_xform : * mut sys :: godot_method_bind , pub has_changed : * mut sys :: godot_method_bind , pub has_feature : * mut sys :: godot_method_bind , pub has_os_feature : * mut sys :: godot_method_bind , pub immediate_begin : * mut sys :: godot_method_bind , pub immediate_clear : * mut sys :: godot_method_bind , pub immediate_color : * mut sys :: godot_method_bind , pub immediate_create : * mut sys :: godot_method_bind , pub immediate_end : * mut sys :: godot_method_bind , pub immediate_get_material : * mut sys :: godot_method_bind , pub immediate_normal : * mut sys :: godot_method_bind , pub immediate_set_material : * mut sys :: godot_method_bind , pub immediate_tangent : * mut sys :: godot_method_bind , pub immediate_uv : * mut sys :: godot_method_bind , pub immediate_uv2 : * mut sys :: godot_method_bind , pub immediate_vertex : * mut sys :: godot_method_bind , pub immediate_vertex_2d : * mut sys :: godot_method_bind , pub init : * mut sys :: godot_method_bind , pub instance_attach_object_instance_id : * mut sys :: godot_method_bind , pub instance_attach_skeleton : * mut sys :: godot_method_bind , pub instance_create : * mut sys :: godot_method_bind , pub instance_create2 : * mut sys :: godot_method_bind , pub instance_geometry_set_as_instance_lod : * mut sys :: godot_method_bind , pub instance_geometry_set_cast_shadows_setting : * mut sys :: godot_method_bind , pub instance_geometry_set_draw_range : * mut sys :: godot_method_bind , pub instance_geometry_set_flag : * mut sys :: godot_method_bind , pub instance_geometry_set_material_override : * mut sys :: godot_method_bind , pub instance_set_base : * mut sys :: godot_method_bind , pub instance_set_blend_shape_weight : * mut sys :: godot_method_bind , pub instance_set_custom_aabb : * mut sys :: godot_method_bind , pub instance_set_exterior : * mut sys :: godot_method_bind , pub instance_set_extra_visibility_margin : * mut sys :: godot_method_bind , pub instance_set_layer_mask : * mut sys :: godot_method_bind , pub instance_set_scenario : * mut sys :: godot_method_bind , pub instance_set_surface_material : * mut sys :: godot_method_bind , pub instance_set_transform : * mut sys :: godot_method_bind , pub instance_set_use_lightmap : * mut sys :: godot_method_bind , pub instance_set_visible : * mut sys :: godot_method_bind , pub instances_cull_aabb : * mut sys :: godot_method_bind , pub instances_cull_convex : * mut sys :: godot_method_bind , pub instances_cull_ray : * mut sys :: godot_method_bind , pub is_render_loop_enabled : * mut sys :: godot_method_bind , pub light_directional_set_blend_splits : * mut sys :: godot_method_bind , pub light_directional_set_shadow_depth_range_mode : * mut sys :: godot_method_bind , pub light_directional_set_shadow_mode : * mut sys :: godot_method_bind , pub light_omni_set_shadow_detail : * mut sys :: godot_method_bind , pub light_omni_set_shadow_mode : * mut sys :: godot_method_bind , pub light_set_bake_mode : * mut sys :: godot_method_bind , pub light_set_color : * mut sys :: godot_method_bind , pub light_set_cull_mask : * mut sys :: godot_method_bind , pub light_set_negative : * mut sys :: godot_method_bind , pub light_set_param : * mut sys :: godot_method_bind , pub light_set_projector : * mut sys :: godot_method_bind , pub light_set_reverse_cull_face_mode : * mut sys :: godot_method_bind , pub light_set_shadow : * mut sys :: godot_method_bind , pub light_set_shadow_color : * mut sys :: godot_method_bind , pub light_set_use_gi : * mut sys :: godot_method_bind , pub lightmap_capture_create : * mut sys :: godot_method_bind , pub lightmap_capture_get_bounds : * mut sys :: godot_method_bind , pub lightmap_capture_get_energy : * mut sys :: godot_method_bind , pub lightmap_capture_get_octree : * mut sys :: godot_method_bind , pub lightmap_capture_get_octree_cell_subdiv : * mut sys :: godot_method_bind , pub lightmap_capture_get_octree_cell_transform : * mut sys :: godot_method_bind , pub lightmap_capture_is_interior : * mut sys :: godot_method_bind , pub lightmap_capture_set_bounds : * mut sys :: godot_method_bind , pub lightmap_capture_set_energy : * mut sys :: godot_method_bind , pub lightmap_capture_set_interior : * mut sys :: godot_method_bind , pub lightmap_capture_set_octree : * mut sys :: godot_method_bind , pub lightmap_capture_set_octree_cell_subdiv : * mut sys :: godot_method_bind , pub lightmap_capture_set_octree_cell_transform : * mut sys :: godot_method_bind , pub make_sphere_mesh : * mut sys :: godot_method_bind , pub material_create : * mut sys :: godot_method_bind , pub material_get_param : * mut sys :: godot_method_bind , pub material_get_param_default : * mut sys :: godot_method_bind , pub material_get_shader : * mut sys :: godot_method_bind , pub material_set_line_width : * mut sys :: godot_method_bind , pub material_set_next_pass : * mut sys :: godot_method_bind , pub material_set_param : * mut sys :: godot_method_bind , pub material_set_render_priority : * mut sys :: godot_method_bind , pub material_set_shader : * mut sys :: godot_method_bind , pub mesh_add_surface_from_arrays : * mut sys :: godot_method_bind , pub mesh_clear : * mut sys :: godot_method_bind , pub mesh_create : * mut sys :: godot_method_bind , pub mesh_get_blend_shape_count : * mut sys :: godot_method_bind , pub mesh_get_blend_shape_mode : * mut sys :: godot_method_bind , pub mesh_get_custom_aabb : * mut sys :: godot_method_bind , pub mesh_get_surface_count : * mut sys :: godot_method_bind , pub mesh_remove_surface : * mut sys :: godot_method_bind , pub mesh_set_blend_shape_count : * mut sys :: godot_method_bind , pub mesh_set_blend_shape_mode : * mut sys :: godot_method_bind , pub mesh_set_custom_aabb : * mut sys :: godot_method_bind , pub mesh_surface_get_aabb : * mut sys :: godot_method_bind , pub mesh_surface_get_array : * mut sys :: godot_method_bind , pub mesh_surface_get_array_index_len : * mut sys :: godot_method_bind , pub mesh_surface_get_array_len : * mut sys :: godot_method_bind , pub mesh_surface_get_arrays : * mut sys :: godot_method_bind , pub mesh_surface_get_blend_shape_arrays : * mut sys :: godot_method_bind , pub mesh_surface_get_format : * mut sys :: godot_method_bind , pub mesh_surface_get_format_offset : * mut sys :: godot_method_bind , pub mesh_surface_get_format_stride : * mut sys :: godot_method_bind , pub mesh_surface_get_index_array : * mut sys :: godot_method_bind , pub mesh_surface_get_material : * mut sys :: godot_method_bind , pub mesh_surface_get_primitive_type : * mut sys :: godot_method_bind , pub mesh_surface_get_skeleton_aabb : * mut sys :: godot_method_bind , pub mesh_surface_set_material : * mut sys :: godot_method_bind , pub mesh_surface_update_region : * mut sys :: godot_method_bind , pub multimesh_allocate : * mut sys :: godot_method_bind , pub multimesh_create : * mut sys :: godot_method_bind , pub multimesh_get_aabb : * mut sys :: godot_method_bind , pub multimesh_get_instance_count : * mut sys :: godot_method_bind , pub multimesh_get_mesh : * mut sys :: godot_method_bind , pub multimesh_get_visible_instances : * mut sys :: godot_method_bind , pub multimesh_instance_get_color : * mut sys :: godot_method_bind , pub multimesh_instance_get_custom_data : * mut sys :: godot_method_bind , pub multimesh_instance_get_transform : * mut sys :: godot_method_bind , pub multimesh_instance_get_transform_2d : * mut sys :: godot_method_bind , pub multimesh_instance_set_color : * mut sys :: godot_method_bind , pub multimesh_instance_set_custom_data : * mut sys :: godot_method_bind , pub multimesh_instance_set_transform : * mut sys :: godot_method_bind , pub multimesh_instance_set_transform_2d : * mut sys :: godot_method_bind , pub multimesh_set_as_bulk_array : * mut sys :: godot_method_bind , pub multimesh_set_mesh : * mut sys :: godot_method_bind , pub multimesh_set_visible_instances : * mut sys :: godot_method_bind , pub omni_light_create : * mut sys :: godot_method_bind , pub particles_create : * mut sys :: godot_method_bind , pub particles_get_current_aabb : * mut sys :: godot_method_bind , pub particles_get_emitting : * mut sys :: godot_method_bind , pub particles_is_inactive : * mut sys :: godot_method_bind , pub particles_request_process : * mut sys :: godot_method_bind , pub particles_restart : * mut sys :: godot_method_bind , pub particles_set_amount : * mut sys :: godot_method_bind , pub particles_set_custom_aabb : * mut sys :: godot_method_bind , pub particles_set_draw_order : * mut sys :: godot_method_bind , pub particles_set_draw_pass_mesh : * mut sys :: godot_method_bind , pub particles_set_draw_passes : * mut sys :: godot_method_bind , pub particles_set_emission_transform : * mut sys :: godot_method_bind , pub particles_set_emitting : * mut sys :: godot_method_bind , pub particles_set_explosiveness_ratio : * mut sys :: godot_method_bind , pub particles_set_fixed_fps : * mut sys :: godot_method_bind , pub particles_set_fractional_delta : * mut sys :: godot_method_bind , pub particles_set_lifetime : * mut sys :: godot_method_bind , pub particles_set_one_shot : * mut sys :: godot_method_bind , pub particles_set_pre_process_time : * mut sys :: godot_method_bind , pub particles_set_process_material : * mut sys :: godot_method_bind , pub particles_set_randomness_ratio : * mut sys :: godot_method_bind , pub particles_set_speed_scale : * mut sys :: godot_method_bind , pub particles_set_use_local_coordinates : * mut sys :: godot_method_bind , pub reflection_probe_create : * mut sys :: godot_method_bind , pub reflection_probe_set_as_interior : * mut sys :: godot_method_bind , pub reflection_probe_set_cull_mask : * mut sys :: godot_method_bind , pub reflection_probe_set_enable_box_projection : * mut sys :: godot_method_bind , pub reflection_probe_set_enable_shadows : * mut sys :: godot_method_bind , pub reflection_probe_set_extents : * mut sys :: godot_method_bind , pub reflection_probe_set_intensity : * mut sys :: godot_method_bind , pub reflection_probe_set_interior_ambient : * mut sys :: godot_method_bind , pub reflection_probe_set_interior_ambient_energy : * mut sys :: godot_method_bind , pub reflection_probe_set_interior_ambient_probe_contribution : * mut sys :: godot_method_bind , pub reflection_probe_set_max_distance : * mut sys :: godot_method_bind , pub reflection_probe_set_origin_offset : * mut sys :: godot_method_bind , pub reflection_probe_set_update_mode : * mut sys :: godot_method_bind , pub request_frame_drawn_callback : * mut sys :: godot_method_bind , pub scenario_create : * mut sys :: godot_method_bind , pub scenario_set_debug : * mut sys :: godot_method_bind , pub scenario_set_environment : * mut sys :: godot_method_bind , pub scenario_set_fallback_environment : * mut sys :: godot_method_bind , pub scenario_set_reflection_atlas_size : * mut sys :: godot_method_bind , pub set_boot_image : * mut sys :: godot_method_bind , pub set_debug_generate_wireframes : * mut sys :: godot_method_bind , pub set_default_clear_color : * mut sys :: godot_method_bind , pub set_render_loop_enabled : * mut sys :: godot_method_bind , pub set_shader_time_scale : * mut sys :: godot_method_bind , pub shader_create : * mut sys :: godot_method_bind , pub shader_get_code : * mut sys :: godot_method_bind , pub shader_get_default_texture_param : * mut sys :: godot_method_bind , pub shader_get_param_list : * mut sys :: godot_method_bind , pub shader_set_code : * mut sys :: godot_method_bind , pub shader_set_default_texture_param : * mut sys :: godot_method_bind , pub skeleton_allocate : * mut sys :: godot_method_bind , pub skeleton_bone_get_transform : * mut sys :: godot_method_bind , pub skeleton_bone_get_transform_2d : * mut sys :: godot_method_bind , pub skeleton_bone_set_transform : * mut sys :: godot_method_bind , pub skeleton_bone_set_transform_2d : * mut sys :: godot_method_bind , pub skeleton_create : * mut sys :: godot_method_bind , pub skeleton_get_bone_count : * mut sys :: godot_method_bind , pub sky_create : * mut sys :: godot_method_bind , pub sky_set_texture : * mut sys :: godot_method_bind , pub spot_light_create : * mut sys :: godot_method_bind , pub sync : * mut sys :: godot_method_bind , pub texture_allocate : * mut sys :: godot_method_bind , pub texture_bind : * mut sys :: godot_method_bind , pub texture_create : * mut sys :: godot_method_bind , pub texture_create_from_image : * mut sys :: godot_method_bind , pub texture_debug_usage : * mut sys :: godot_method_bind , pub texture_get_data : * mut sys :: godot_method_bind , pub texture_get_depth : * mut sys :: godot_method_bind , pub texture_get_flags : * mut sys :: godot_method_bind , pub texture_get_format : * mut sys :: godot_method_bind , pub texture_get_height : * mut sys :: godot_method_bind , pub texture_get_path : * mut sys :: godot_method_bind , pub texture_get_texid : * mut sys :: godot_method_bind , pub texture_get_type : * mut sys :: godot_method_bind , pub texture_get_width : * mut sys :: godot_method_bind , pub texture_set_data : * mut sys :: godot_method_bind , pub texture_set_data_partial : * mut sys :: godot_method_bind , pub texture_set_flags : * mut sys :: godot_method_bind , pub texture_set_path : * mut sys :: godot_method_bind , pub texture_set_shrink_all_x2_on_set_data : * mut sys :: godot_method_bind , pub texture_set_size_override : * mut sys :: godot_method_bind , pub textures_keep_original : * mut sys :: godot_method_bind , pub viewport_attach_camera : * mut sys :: godot_method_bind , pub viewport_attach_canvas : * mut sys :: godot_method_bind , pub viewport_attach_to_screen : * mut sys :: godot_method_bind , pub viewport_create : * mut sys :: godot_method_bind , pub viewport_detach : * mut sys :: godot_method_bind , pub viewport_get_render_info : * mut sys :: godot_method_bind , pub viewport_get_texture : * mut sys :: godot_method_bind , pub viewport_remove_canvas : * mut sys :: godot_method_bind , pub viewport_set_active : * mut sys :: godot_method_bind , pub viewport_set_canvas_stacking : * mut sys :: godot_method_bind , pub viewport_set_canvas_transform : * mut sys :: godot_method_bind , pub viewport_set_clear_mode : * mut sys :: godot_method_bind , pub viewport_set_debug_draw : * mut sys :: godot_method_bind , pub viewport_set_disable_3d : * mut sys :: godot_method_bind , pub viewport_set_disable_environment : * mut sys :: godot_method_bind , pub viewport_set_global_canvas_transform : * mut sys :: godot_method_bind , pub viewport_set_hdr : * mut sys :: godot_method_bind , pub viewport_set_hide_canvas : * mut sys :: godot_method_bind , pub viewport_set_hide_scenario : * mut sys :: godot_method_bind , pub viewport_set_msaa : * mut sys :: godot_method_bind , pub viewport_set_parent_viewport : * mut sys :: godot_method_bind , pub viewport_set_render_direct_to_screen : * mut sys :: godot_method_bind , pub viewport_set_scenario : * mut sys :: godot_method_bind , pub viewport_set_shadow_atlas_quadrant_subdivision : * mut sys :: godot_method_bind , pub viewport_set_shadow_atlas_size : * mut sys :: godot_method_bind , pub viewport_set_size : * mut sys :: godot_method_bind , pub viewport_set_transparent_background : * mut sys :: godot_method_bind , pub viewport_set_update_mode : * mut sys :: godot_method_bind , pub viewport_set_usage : * mut sys :: godot_method_bind , pub viewport_set_use_arvr : * mut sys :: godot_method_bind , pub viewport_set_use_debanding : * mut sys :: godot_method_bind , pub viewport_set_use_fxaa : * mut sys :: godot_method_bind , pub viewport_set_vflip : * mut sys :: godot_method_bind } impl VisualServerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualServerMethodTable = VisualServerMethodTable { class_constructor : None , black_bars_set_images : 0 as * mut sys :: godot_method_bind , black_bars_set_margins : 0 as * mut sys :: godot_method_bind , camera_create : 0 as * mut sys :: godot_method_bind , camera_set_cull_mask : 0 as * mut sys :: godot_method_bind , camera_set_environment : 0 as * mut sys :: godot_method_bind , camera_set_frustum : 0 as * mut sys :: godot_method_bind , camera_set_orthogonal : 0 as * mut sys :: godot_method_bind , camera_set_perspective : 0 as * mut sys :: godot_method_bind , camera_set_transform : 0 as * mut sys :: godot_method_bind , camera_set_use_vertical_aspect : 0 as * mut sys :: godot_method_bind , canvas_create : 0 as * mut sys :: godot_method_bind , canvas_item_add_circle : 0 as * mut sys :: godot_method_bind , canvas_item_add_clip_ignore : 0 as * mut sys :: godot_method_bind , canvas_item_add_line : 0 as * mut sys :: godot_method_bind , canvas_item_add_mesh : 0 as * mut sys :: godot_method_bind , canvas_item_add_multimesh : 0 as * mut sys :: godot_method_bind , canvas_item_add_nine_patch : 0 as * mut sys :: godot_method_bind , canvas_item_add_particles : 0 as * mut sys :: godot_method_bind , canvas_item_add_polygon : 0 as * mut sys :: godot_method_bind , canvas_item_add_polyline : 0 as * mut sys :: godot_method_bind , canvas_item_add_primitive : 0 as * mut sys :: godot_method_bind , canvas_item_add_rect : 0 as * mut sys :: godot_method_bind , canvas_item_add_set_transform : 0 as * mut sys :: godot_method_bind , canvas_item_add_texture_rect : 0 as * mut sys :: godot_method_bind , canvas_item_add_texture_rect_region : 0 as * mut sys :: godot_method_bind , canvas_item_add_triangle_array : 0 as * mut sys :: godot_method_bind , canvas_item_clear : 0 as * mut sys :: godot_method_bind , canvas_item_create : 0 as * mut sys :: godot_method_bind , canvas_item_set_clip : 0 as * mut sys :: godot_method_bind , canvas_item_set_copy_to_backbuffer : 0 as * mut sys :: godot_method_bind , canvas_item_set_custom_rect : 0 as * mut sys :: godot_method_bind , canvas_item_set_distance_field_mode : 0 as * mut sys :: godot_method_bind , canvas_item_set_draw_behind_parent : 0 as * mut sys :: godot_method_bind , canvas_item_set_draw_index : 0 as * mut sys :: godot_method_bind , canvas_item_set_light_mask : 0 as * mut sys :: godot_method_bind , canvas_item_set_material : 0 as * mut sys :: godot_method_bind , canvas_item_set_modulate : 0 as * mut sys :: godot_method_bind , canvas_item_set_parent : 0 as * mut sys :: godot_method_bind , canvas_item_set_self_modulate : 0 as * mut sys :: godot_method_bind , canvas_item_set_sort_children_by_y : 0 as * mut sys :: godot_method_bind , canvas_item_set_transform : 0 as * mut sys :: godot_method_bind , canvas_item_set_use_parent_material : 0 as * mut sys :: godot_method_bind , canvas_item_set_visible : 0 as * mut sys :: godot_method_bind , canvas_item_set_z_as_relative_to_parent : 0 as * mut sys :: godot_method_bind , canvas_item_set_z_index : 0 as * mut sys :: godot_method_bind , canvas_light_attach_to_canvas : 0 as * mut sys :: godot_method_bind , canvas_light_create : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_attach_to_canvas : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_create : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_enabled : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_light_mask : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_polygon : 0 as * mut sys :: godot_method_bind , canvas_light_occluder_set_transform : 0 as * mut sys :: godot_method_bind , canvas_light_set_color : 0 as * mut sys :: godot_method_bind , canvas_light_set_enabled : 0 as * mut sys :: godot_method_bind , canvas_light_set_energy : 0 as * mut sys :: godot_method_bind , canvas_light_set_height : 0 as * mut sys :: godot_method_bind , canvas_light_set_item_cull_mask : 0 as * mut sys :: godot_method_bind , canvas_light_set_item_shadow_cull_mask : 0 as * mut sys :: godot_method_bind , canvas_light_set_layer_range : 0 as * mut sys :: godot_method_bind , canvas_light_set_mode : 0 as * mut sys :: godot_method_bind , canvas_light_set_scale : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_buffer_size : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_color : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_enabled : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_filter : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_gradient_length : 0 as * mut sys :: godot_method_bind , canvas_light_set_shadow_smooth : 0 as * mut sys :: godot_method_bind , canvas_light_set_texture : 0 as * mut sys :: godot_method_bind , canvas_light_set_texture_offset : 0 as * mut sys :: godot_method_bind , canvas_light_set_transform : 0 as * mut sys :: godot_method_bind , canvas_light_set_z_range : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_create : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_set_cull_mode : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_set_shape : 0 as * mut sys :: godot_method_bind , canvas_occluder_polygon_set_shape_as_lines : 0 as * mut sys :: godot_method_bind , canvas_set_item_mirroring : 0 as * mut sys :: godot_method_bind , canvas_set_modulate : 0 as * mut sys :: godot_method_bind , directional_light_create : 0 as * mut sys :: godot_method_bind , draw : 0 as * mut sys :: godot_method_bind , environment_create : 0 as * mut sys :: godot_method_bind , environment_set_adjustment : 0 as * mut sys :: godot_method_bind , environment_set_ambient_light : 0 as * mut sys :: godot_method_bind , environment_set_background : 0 as * mut sys :: godot_method_bind , environment_set_bg_color : 0 as * mut sys :: godot_method_bind , environment_set_bg_energy : 0 as * mut sys :: godot_method_bind , environment_set_canvas_max_layer : 0 as * mut sys :: godot_method_bind , environment_set_dof_blur_far : 0 as * mut sys :: godot_method_bind , environment_set_dof_blur_near : 0 as * mut sys :: godot_method_bind , environment_set_fog : 0 as * mut sys :: godot_method_bind , environment_set_fog_depth : 0 as * mut sys :: godot_method_bind , environment_set_fog_height : 0 as * mut sys :: godot_method_bind , environment_set_glow : 0 as * mut sys :: godot_method_bind , environment_set_sky : 0 as * mut sys :: godot_method_bind , environment_set_sky_custom_fov : 0 as * mut sys :: godot_method_bind , environment_set_sky_orientation : 0 as * mut sys :: godot_method_bind , environment_set_ssao : 0 as * mut sys :: godot_method_bind , environment_set_ssr : 0 as * mut sys :: godot_method_bind , environment_set_tonemap : 0 as * mut sys :: godot_method_bind , finish : 0 as * mut sys :: godot_method_bind , force_draw : 0 as * mut sys :: godot_method_bind , force_sync : 0 as * mut sys :: godot_method_bind , free_rid : 0 as * mut sys :: godot_method_bind , get_render_info : 0 as * mut sys :: godot_method_bind , get_test_cube : 0 as * mut sys :: godot_method_bind , get_test_texture : 0 as * mut sys :: godot_method_bind , get_video_adapter_name : 0 as * mut sys :: godot_method_bind , get_video_adapter_vendor : 0 as * mut sys :: godot_method_bind , get_white_texture : 0 as * mut sys :: godot_method_bind , gi_probe_create : 0 as * mut sys :: godot_method_bind , gi_probe_get_bias : 0 as * mut sys :: godot_method_bind , gi_probe_get_bounds : 0 as * mut sys :: godot_method_bind , gi_probe_get_cell_size : 0 as * mut sys :: godot_method_bind , gi_probe_get_dynamic_data : 0 as * mut sys :: godot_method_bind , gi_probe_get_dynamic_range : 0 as * mut sys :: godot_method_bind , gi_probe_get_energy : 0 as * mut sys :: godot_method_bind , gi_probe_get_normal_bias : 0 as * mut sys :: godot_method_bind , gi_probe_get_propagation : 0 as * mut sys :: godot_method_bind , gi_probe_get_to_cell_xform : 0 as * mut sys :: godot_method_bind , gi_probe_is_compressed : 0 as * mut sys :: godot_method_bind , gi_probe_is_interior : 0 as * mut sys :: godot_method_bind , gi_probe_set_bias : 0 as * mut sys :: godot_method_bind , gi_probe_set_bounds : 0 as * mut sys :: godot_method_bind , gi_probe_set_cell_size : 0 as * mut sys :: godot_method_bind , gi_probe_set_compress : 0 as * mut sys :: godot_method_bind , gi_probe_set_dynamic_data : 0 as * mut sys :: godot_method_bind , gi_probe_set_dynamic_range : 0 as * mut sys :: godot_method_bind , gi_probe_set_energy : 0 as * mut sys :: godot_method_bind , gi_probe_set_interior : 0 as * mut sys :: godot_method_bind , gi_probe_set_normal_bias : 0 as * mut sys :: godot_method_bind , gi_probe_set_propagation : 0 as * mut sys :: godot_method_bind , gi_probe_set_to_cell_xform : 0 as * mut sys :: godot_method_bind , has_changed : 0 as * mut sys :: godot_method_bind , has_feature : 0 as * mut sys :: godot_method_bind , has_os_feature : 0 as * mut sys :: godot_method_bind , immediate_begin : 0 as * mut sys :: godot_method_bind , immediate_clear : 0 as * mut sys :: godot_method_bind , immediate_color : 0 as * mut sys :: godot_method_bind , immediate_create : 0 as * mut sys :: godot_method_bind , immediate_end : 0 as * mut sys :: godot_method_bind , immediate_get_material : 0 as * mut sys :: godot_method_bind , immediate_normal : 0 as * mut sys :: godot_method_bind , immediate_set_material : 0 as * mut sys :: godot_method_bind , immediate_tangent : 0 as * mut sys :: godot_method_bind , immediate_uv : 0 as * mut sys :: godot_method_bind , immediate_uv2 : 0 as * mut sys :: godot_method_bind , immediate_vertex : 0 as * mut sys :: godot_method_bind , immediate_vertex_2d : 0 as * mut sys :: godot_method_bind , init : 0 as * mut sys :: godot_method_bind , instance_attach_object_instance_id : 0 as * mut sys :: godot_method_bind , instance_attach_skeleton : 0 as * mut sys :: godot_method_bind , instance_create : 0 as * mut sys :: godot_method_bind , instance_create2 : 0 as * mut sys :: godot_method_bind , instance_geometry_set_as_instance_lod : 0 as * mut sys :: godot_method_bind , instance_geometry_set_cast_shadows_setting : 0 as * mut sys :: godot_method_bind , instance_geometry_set_draw_range : 0 as * mut sys :: godot_method_bind , instance_geometry_set_flag : 0 as * mut sys :: godot_method_bind , instance_geometry_set_material_override : 0 as * mut sys :: godot_method_bind , instance_set_base : 0 as * mut sys :: godot_method_bind , instance_set_blend_shape_weight : 0 as * mut sys :: godot_method_bind , instance_set_custom_aabb : 0 as * mut sys :: godot_method_bind , instance_set_exterior : 0 as * mut sys :: godot_method_bind , instance_set_extra_visibility_margin : 0 as * mut sys :: godot_method_bind , instance_set_layer_mask : 0 as * mut sys :: godot_method_bind , instance_set_scenario : 0 as * mut sys :: godot_method_bind , instance_set_surface_material : 0 as * mut sys :: godot_method_bind , instance_set_transform : 0 as * mut sys :: godot_method_bind , instance_set_use_lightmap : 0 as * mut sys :: godot_method_bind , instance_set_visible : 0 as * mut sys :: godot_method_bind , instances_cull_aabb : 0 as * mut sys :: godot_method_bind , instances_cull_convex : 0 as * mut sys :: godot_method_bind , instances_cull_ray : 0 as * mut sys :: godot_method_bind , is_render_loop_enabled : 0 as * mut sys :: godot_method_bind , light_directional_set_blend_splits : 0 as * mut sys :: godot_method_bind , light_directional_set_shadow_depth_range_mode : 0 as * mut sys :: godot_method_bind , light_directional_set_shadow_mode : 0 as * mut sys :: godot_method_bind , light_omni_set_shadow_detail : 0 as * mut sys :: godot_method_bind , light_omni_set_shadow_mode : 0 as * mut sys :: godot_method_bind , light_set_bake_mode : 0 as * mut sys :: godot_method_bind , light_set_color : 0 as * mut sys :: godot_method_bind , light_set_cull_mask : 0 as * mut sys :: godot_method_bind , light_set_negative : 0 as * mut sys :: godot_method_bind , light_set_param : 0 as * mut sys :: godot_method_bind , light_set_projector : 0 as * mut sys :: godot_method_bind , light_set_reverse_cull_face_mode : 0 as * mut sys :: godot_method_bind , light_set_shadow : 0 as * mut sys :: godot_method_bind , light_set_shadow_color : 0 as * mut sys :: godot_method_bind , light_set_use_gi : 0 as * mut sys :: godot_method_bind , lightmap_capture_create : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_bounds : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_energy : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_octree : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_octree_cell_subdiv : 0 as * mut sys :: godot_method_bind , lightmap_capture_get_octree_cell_transform : 0 as * mut sys :: godot_method_bind , lightmap_capture_is_interior : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_bounds : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_energy : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_interior : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_octree : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_octree_cell_subdiv : 0 as * mut sys :: godot_method_bind , lightmap_capture_set_octree_cell_transform : 0 as * mut sys :: godot_method_bind , make_sphere_mesh : 0 as * mut sys :: godot_method_bind , material_create : 0 as * mut sys :: godot_method_bind , material_get_param : 0 as * mut sys :: godot_method_bind , material_get_param_default : 0 as * mut sys :: godot_method_bind , material_get_shader : 0 as * mut sys :: godot_method_bind , material_set_line_width : 0 as * mut sys :: godot_method_bind , material_set_next_pass : 0 as * mut sys :: godot_method_bind , material_set_param : 0 as * mut sys :: godot_method_bind , material_set_render_priority : 0 as * mut sys :: godot_method_bind , material_set_shader : 0 as * mut sys :: godot_method_bind , mesh_add_surface_from_arrays : 0 as * mut sys :: godot_method_bind , mesh_clear : 0 as * mut sys :: godot_method_bind , mesh_create : 0 as * mut sys :: godot_method_bind , mesh_get_blend_shape_count : 0 as * mut sys :: godot_method_bind , mesh_get_blend_shape_mode : 0 as * mut sys :: godot_method_bind , mesh_get_custom_aabb : 0 as * mut sys :: godot_method_bind , mesh_get_surface_count : 0 as * mut sys :: godot_method_bind , mesh_remove_surface : 0 as * mut sys :: godot_method_bind , mesh_set_blend_shape_count : 0 as * mut sys :: godot_method_bind , mesh_set_blend_shape_mode : 0 as * mut sys :: godot_method_bind , mesh_set_custom_aabb : 0 as * mut sys :: godot_method_bind , mesh_surface_get_aabb : 0 as * mut sys :: godot_method_bind , mesh_surface_get_array : 0 as * mut sys :: godot_method_bind , mesh_surface_get_array_index_len : 0 as * mut sys :: godot_method_bind , mesh_surface_get_array_len : 0 as * mut sys :: godot_method_bind , mesh_surface_get_arrays : 0 as * mut sys :: godot_method_bind , mesh_surface_get_blend_shape_arrays : 0 as * mut sys :: godot_method_bind , mesh_surface_get_format : 0 as * mut sys :: godot_method_bind , mesh_surface_get_format_offset : 0 as * mut sys :: godot_method_bind , mesh_surface_get_format_stride : 0 as * mut sys :: godot_method_bind , mesh_surface_get_index_array : 0 as * mut sys :: godot_method_bind , mesh_surface_get_material : 0 as * mut sys :: godot_method_bind , mesh_surface_get_primitive_type : 0 as * mut sys :: godot_method_bind , mesh_surface_get_skeleton_aabb : 0 as * mut sys :: godot_method_bind , mesh_surface_set_material : 0 as * mut sys :: godot_method_bind , mesh_surface_update_region : 0 as * mut sys :: godot_method_bind , multimesh_allocate : 0 as * mut sys :: godot_method_bind , multimesh_create : 0 as * mut sys :: godot_method_bind , multimesh_get_aabb : 0 as * mut sys :: godot_method_bind , multimesh_get_instance_count : 0 as * mut sys :: godot_method_bind , multimesh_get_mesh : 0 as * mut sys :: godot_method_bind , multimesh_get_visible_instances : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_color : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_custom_data : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_transform : 0 as * mut sys :: godot_method_bind , multimesh_instance_get_transform_2d : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_color : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_custom_data : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_transform : 0 as * mut sys :: godot_method_bind , multimesh_instance_set_transform_2d : 0 as * mut sys :: godot_method_bind , multimesh_set_as_bulk_array : 0 as * mut sys :: godot_method_bind , multimesh_set_mesh : 0 as * mut sys :: godot_method_bind , multimesh_set_visible_instances : 0 as * mut sys :: godot_method_bind , omni_light_create : 0 as * mut sys :: godot_method_bind , particles_create : 0 as * mut sys :: godot_method_bind , particles_get_current_aabb : 0 as * mut sys :: godot_method_bind , particles_get_emitting : 0 as * mut sys :: godot_method_bind , particles_is_inactive : 0 as * mut sys :: godot_method_bind , particles_request_process : 0 as * mut sys :: godot_method_bind , particles_restart : 0 as * mut sys :: godot_method_bind , particles_set_amount : 0 as * mut sys :: godot_method_bind , particles_set_custom_aabb : 0 as * mut sys :: godot_method_bind , particles_set_draw_order : 0 as * mut sys :: godot_method_bind , particles_set_draw_pass_mesh : 0 as * mut sys :: godot_method_bind , particles_set_draw_passes : 0 as * mut sys :: godot_method_bind , particles_set_emission_transform : 0 as * mut sys :: godot_method_bind , particles_set_emitting : 0 as * mut sys :: godot_method_bind , particles_set_explosiveness_ratio : 0 as * mut sys :: godot_method_bind , particles_set_fixed_fps : 0 as * mut sys :: godot_method_bind , particles_set_fractional_delta : 0 as * mut sys :: godot_method_bind , particles_set_lifetime : 0 as * mut sys :: godot_method_bind , particles_set_one_shot : 0 as * mut sys :: godot_method_bind , particles_set_pre_process_time : 0 as * mut sys :: godot_method_bind , particles_set_process_material : 0 as * mut sys :: godot_method_bind , particles_set_randomness_ratio : 0 as * mut sys :: godot_method_bind , particles_set_speed_scale : 0 as * mut sys :: godot_method_bind , particles_set_use_local_coordinates : 0 as * mut sys :: godot_method_bind , reflection_probe_create : 0 as * mut sys :: godot_method_bind , reflection_probe_set_as_interior : 0 as * mut sys :: godot_method_bind , reflection_probe_set_cull_mask : 0 as * mut sys :: godot_method_bind , reflection_probe_set_enable_box_projection : 0 as * mut sys :: godot_method_bind , reflection_probe_set_enable_shadows : 0 as * mut sys :: godot_method_bind , reflection_probe_set_extents : 0 as * mut sys :: godot_method_bind , reflection_probe_set_intensity : 0 as * mut sys :: godot_method_bind , reflection_probe_set_interior_ambient : 0 as * mut sys :: godot_method_bind , reflection_probe_set_interior_ambient_energy : 0 as * mut sys :: godot_method_bind , reflection_probe_set_interior_ambient_probe_contribution : 0 as * mut sys :: godot_method_bind , reflection_probe_set_max_distance : 0 as * mut sys :: godot_method_bind , reflection_probe_set_origin_offset : 0 as * mut sys :: godot_method_bind , reflection_probe_set_update_mode : 0 as * mut sys :: godot_method_bind , request_frame_drawn_callback : 0 as * mut sys :: godot_method_bind , scenario_create : 0 as * mut sys :: godot_method_bind , scenario_set_debug : 0 as * mut sys :: godot_method_bind , scenario_set_environment : 0 as * mut sys :: godot_method_bind , scenario_set_fallback_environment : 0 as * mut sys :: godot_method_bind , scenario_set_reflection_atlas_size : 0 as * mut sys :: godot_method_bind , set_boot_image : 0 as * mut sys :: godot_method_bind , set_debug_generate_wireframes : 0 as * mut sys :: godot_method_bind , set_default_clear_color : 0 as * mut sys :: godot_method_bind , set_render_loop_enabled : 0 as * mut sys :: godot_method_bind , set_shader_time_scale : 0 as * mut sys :: godot_method_bind , shader_create : 0 as * mut sys :: godot_method_bind , shader_get_code : 0 as * mut sys :: godot_method_bind , shader_get_default_texture_param : 0 as * mut sys :: godot_method_bind , shader_get_param_list : 0 as * mut sys :: godot_method_bind , shader_set_code : 0 as * mut sys :: godot_method_bind , shader_set_default_texture_param : 0 as * mut sys :: godot_method_bind , skeleton_allocate : 0 as * mut sys :: godot_method_bind , skeleton_bone_get_transform : 0 as * mut sys :: godot_method_bind , skeleton_bone_get_transform_2d : 0 as * mut sys :: godot_method_bind , skeleton_bone_set_transform : 0 as * mut sys :: godot_method_bind , skeleton_bone_set_transform_2d : 0 as * mut sys :: godot_method_bind , skeleton_create : 0 as * mut sys :: godot_method_bind , skeleton_get_bone_count : 0 as * mut sys :: godot_method_bind , sky_create : 0 as * mut sys :: godot_method_bind , sky_set_texture : 0 as * mut sys :: godot_method_bind , spot_light_create : 0 as * mut sys :: godot_method_bind , sync : 0 as * mut sys :: godot_method_bind , texture_allocate : 0 as * mut sys :: godot_method_bind , texture_bind : 0 as * mut sys :: godot_method_bind , texture_create : 0 as * mut sys :: godot_method_bind , texture_create_from_image : 0 as * mut sys :: godot_method_bind , texture_debug_usage : 0 as * mut sys :: godot_method_bind , texture_get_data : 0 as * mut sys :: godot_method_bind , texture_get_depth : 0 as * mut sys :: godot_method_bind , texture_get_flags : 0 as * mut sys :: godot_method_bind , texture_get_format : 0 as * mut sys :: godot_method_bind , texture_get_height : 0 as * mut sys :: godot_method_bind , texture_get_path : 0 as * mut sys :: godot_method_bind , texture_get_texid : 0 as * mut sys :: godot_method_bind , texture_get_type : 0 as * mut sys :: godot_method_bind , texture_get_width : 0 as * mut sys :: godot_method_bind , texture_set_data : 0 as * mut sys :: godot_method_bind , texture_set_data_partial : 0 as * mut sys :: godot_method_bind , texture_set_flags : 0 as * mut sys :: godot_method_bind , texture_set_path : 0 as * mut sys :: godot_method_bind , texture_set_shrink_all_x2_on_set_data : 0 as * mut sys :: godot_method_bind , texture_set_size_override : 0 as * mut sys :: godot_method_bind , textures_keep_original : 0 as * mut sys :: godot_method_bind , viewport_attach_camera : 0 as * mut sys :: godot_method_bind , viewport_attach_canvas : 0 as * mut sys :: godot_method_bind , viewport_attach_to_screen : 0 as * mut sys :: godot_method_bind , viewport_create : 0 as * mut sys :: godot_method_bind , viewport_detach : 0 as * mut sys :: godot_method_bind , viewport_get_render_info : 0 as * mut sys :: godot_method_bind , viewport_get_texture : 0 as * mut sys :: godot_method_bind , viewport_remove_canvas : 0 as * mut sys :: godot_method_bind , viewport_set_active : 0 as * mut sys :: godot_method_bind , viewport_set_canvas_stacking : 0 as * mut sys :: godot_method_bind , viewport_set_canvas_transform : 0 as * mut sys :: godot_method_bind , viewport_set_clear_mode : 0 as * mut sys :: godot_method_bind , viewport_set_debug_draw : 0 as * mut sys :: godot_method_bind , viewport_set_disable_3d : 0 as * mut sys :: godot_method_bind , viewport_set_disable_environment : 0 as * mut sys :: godot_method_bind , viewport_set_global_canvas_transform : 0 as * mut sys :: godot_method_bind , viewport_set_hdr : 0 as * mut sys :: godot_method_bind , viewport_set_hide_canvas : 0 as * mut sys :: godot_method_bind , viewport_set_hide_scenario : 0 as * mut sys :: godot_method_bind , viewport_set_msaa : 0 as * mut sys :: godot_method_bind , viewport_set_parent_viewport : 0 as * mut sys :: godot_method_bind , viewport_set_render_direct_to_screen : 0 as * mut sys :: godot_method_bind , viewport_set_scenario : 0 as * mut sys :: godot_method_bind , viewport_set_shadow_atlas_quadrant_subdivision : 0 as * mut sys :: godot_method_bind , viewport_set_shadow_atlas_size : 0 as * mut sys :: godot_method_bind , viewport_set_size : 0 as * mut sys :: godot_method_bind , viewport_set_transparent_background : 0 as * mut sys :: godot_method_bind , viewport_set_update_mode : 0 as * mut sys :: godot_method_bind , viewport_set_usage : 0 as * mut sys :: godot_method_bind , viewport_set_use_arvr : 0 as * mut sys :: godot_method_bind , viewport_set_use_debanding : 0 as * mut sys :: godot_method_bind , viewport_set_use_fxaa : 0 as * mut sys :: godot_method_bind , viewport_set_vflip : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualServerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualServer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . black_bars_set_images = (gd_api . godot_method_bind_get_method) (class_name , "black_bars_set_images\0" . as_ptr () as * const c_char) ; table . black_bars_set_margins = (gd_api . godot_method_bind_get_method) (class_name , "black_bars_set_margins\0" . as_ptr () as * const c_char) ; table . camera_create = (gd_api . godot_method_bind_get_method) (class_name , "camera_create\0" . as_ptr () as * const c_char) ; table . camera_set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_cull_mask\0" . as_ptr () as * const c_char) ; table . camera_set_environment = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_environment\0" . as_ptr () as * const c_char) ; table . camera_set_frustum = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_frustum\0" . as_ptr () as * const c_char) ; table . camera_set_orthogonal = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_orthogonal\0" . as_ptr () as * const c_char) ; table . camera_set_perspective = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_perspective\0" . as_ptr () as * const c_char) ; table . camera_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_transform\0" . as_ptr () as * const c_char) ; table . camera_set_use_vertical_aspect = (gd_api . godot_method_bind_get_method) (class_name , "camera_set_use_vertical_aspect\0" . as_ptr () as * const c_char) ; table . canvas_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_create\0" . as_ptr () as * const c_char) ; table . canvas_item_add_circle = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_circle\0" . as_ptr () as * const c_char) ; table . canvas_item_add_clip_ignore = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_clip_ignore\0" . as_ptr () as * const c_char) ; table . canvas_item_add_line = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_line\0" . as_ptr () as * const c_char) ; table . canvas_item_add_mesh = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_mesh\0" . as_ptr () as * const c_char) ; table . canvas_item_add_multimesh = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_multimesh\0" . as_ptr () as * const c_char) ; table . canvas_item_add_nine_patch = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_nine_patch\0" . as_ptr () as * const c_char) ; table . canvas_item_add_particles = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_particles\0" . as_ptr () as * const c_char) ; table . canvas_item_add_polygon = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_polygon\0" . as_ptr () as * const c_char) ; table . canvas_item_add_polyline = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_polyline\0" . as_ptr () as * const c_char) ; table . canvas_item_add_primitive = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_primitive\0" . as_ptr () as * const c_char) ; table . canvas_item_add_rect = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_rect\0" . as_ptr () as * const c_char) ; table . canvas_item_add_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_item_add_texture_rect = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_texture_rect\0" . as_ptr () as * const c_char) ; table . canvas_item_add_texture_rect_region = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_texture_rect_region\0" . as_ptr () as * const c_char) ; table . canvas_item_add_triangle_array = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_add_triangle_array\0" . as_ptr () as * const c_char) ; table . canvas_item_clear = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_clear\0" . as_ptr () as * const c_char) ; table . canvas_item_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_create\0" . as_ptr () as * const c_char) ; table . canvas_item_set_clip = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_clip\0" . as_ptr () as * const c_char) ; table . canvas_item_set_copy_to_backbuffer = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_copy_to_backbuffer\0" . as_ptr () as * const c_char) ; table . canvas_item_set_custom_rect = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_custom_rect\0" . as_ptr () as * const c_char) ; table . canvas_item_set_distance_field_mode = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_distance_field_mode\0" . as_ptr () as * const c_char) ; table . canvas_item_set_draw_behind_parent = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_draw_behind_parent\0" . as_ptr () as * const c_char) ; table . canvas_item_set_draw_index = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_draw_index\0" . as_ptr () as * const c_char) ; table . canvas_item_set_light_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_light_mask\0" . as_ptr () as * const c_char) ; table . canvas_item_set_material = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_material\0" . as_ptr () as * const c_char) ; table . canvas_item_set_modulate = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_modulate\0" . as_ptr () as * const c_char) ; table . canvas_item_set_parent = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_parent\0" . as_ptr () as * const c_char) ; table . canvas_item_set_self_modulate = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_self_modulate\0" . as_ptr () as * const c_char) ; table . canvas_item_set_sort_children_by_y = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_sort_children_by_y\0" . as_ptr () as * const c_char) ; table . canvas_item_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_item_set_use_parent_material = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_use_parent_material\0" . as_ptr () as * const c_char) ; table . canvas_item_set_visible = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_visible\0" . as_ptr () as * const c_char) ; table . canvas_item_set_z_as_relative_to_parent = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_z_as_relative_to_parent\0" . as_ptr () as * const c_char) ; table . canvas_item_set_z_index = (gd_api . godot_method_bind_get_method) (class_name , "canvas_item_set_z_index\0" . as_ptr () as * const c_char) ; table . canvas_light_attach_to_canvas = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_attach_to_canvas\0" . as_ptr () as * const c_char) ; table . canvas_light_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_create\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_attach_to_canvas = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_attach_to_canvas\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_create\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_enabled\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_light_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_light_mask\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_polygon = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_polygon\0" . as_ptr () as * const c_char) ; table . canvas_light_occluder_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_occluder_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_light_set_color = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_color\0" . as_ptr () as * const c_char) ; table . canvas_light_set_enabled = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_enabled\0" . as_ptr () as * const c_char) ; table . canvas_light_set_energy = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_energy\0" . as_ptr () as * const c_char) ; table . canvas_light_set_height = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_height\0" . as_ptr () as * const c_char) ; table . canvas_light_set_item_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_item_cull_mask\0" . as_ptr () as * const c_char) ; table . canvas_light_set_item_shadow_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_item_shadow_cull_mask\0" . as_ptr () as * const c_char) ; table . canvas_light_set_layer_range = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_layer_range\0" . as_ptr () as * const c_char) ; table . canvas_light_set_mode = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_mode\0" . as_ptr () as * const c_char) ; table . canvas_light_set_scale = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_scale\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_buffer_size = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_buffer_size\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_color = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_color\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_enabled = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_enabled\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_filter = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_filter\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_gradient_length = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_gradient_length\0" . as_ptr () as * const c_char) ; table . canvas_light_set_shadow_smooth = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_shadow_smooth\0" . as_ptr () as * const c_char) ; table . canvas_light_set_texture = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_texture\0" . as_ptr () as * const c_char) ; table . canvas_light_set_texture_offset = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_texture_offset\0" . as_ptr () as * const c_char) ; table . canvas_light_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_transform\0" . as_ptr () as * const c_char) ; table . canvas_light_set_z_range = (gd_api . godot_method_bind_get_method) (class_name , "canvas_light_set_z_range\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_create = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_create\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_set_cull_mode = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_set_cull_mode\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_set_shape = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_set_shape\0" . as_ptr () as * const c_char) ; table . canvas_occluder_polygon_set_shape_as_lines = (gd_api . godot_method_bind_get_method) (class_name , "canvas_occluder_polygon_set_shape_as_lines\0" . as_ptr () as * const c_char) ; table . canvas_set_item_mirroring = (gd_api . godot_method_bind_get_method) (class_name , "canvas_set_item_mirroring\0" . as_ptr () as * const c_char) ; table . canvas_set_modulate = (gd_api . godot_method_bind_get_method) (class_name , "canvas_set_modulate\0" . as_ptr () as * const c_char) ; table . directional_light_create = (gd_api . godot_method_bind_get_method) (class_name , "directional_light_create\0" . as_ptr () as * const c_char) ; table . draw = (gd_api . godot_method_bind_get_method) (class_name , "draw\0" . as_ptr () as * const c_char) ; table . environment_create = (gd_api . godot_method_bind_get_method) (class_name , "environment_create\0" . as_ptr () as * const c_char) ; table . environment_set_adjustment = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_adjustment\0" . as_ptr () as * const c_char) ; table . environment_set_ambient_light = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_ambient_light\0" . as_ptr () as * const c_char) ; table . environment_set_background = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_background\0" . as_ptr () as * const c_char) ; table . environment_set_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_bg_color\0" . as_ptr () as * const c_char) ; table . environment_set_bg_energy = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_bg_energy\0" . as_ptr () as * const c_char) ; table . environment_set_canvas_max_layer = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_canvas_max_layer\0" . as_ptr () as * const c_char) ; table . environment_set_dof_blur_far = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_dof_blur_far\0" . as_ptr () as * const c_char) ; table . environment_set_dof_blur_near = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_dof_blur_near\0" . as_ptr () as * const c_char) ; table . environment_set_fog = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_fog\0" . as_ptr () as * const c_char) ; table . environment_set_fog_depth = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_fog_depth\0" . as_ptr () as * const c_char) ; table . environment_set_fog_height = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_fog_height\0" . as_ptr () as * const c_char) ; table . environment_set_glow = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_glow\0" . as_ptr () as * const c_char) ; table . environment_set_sky = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_sky\0" . as_ptr () as * const c_char) ; table . environment_set_sky_custom_fov = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_sky_custom_fov\0" . as_ptr () as * const c_char) ; table . environment_set_sky_orientation = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_sky_orientation\0" . as_ptr () as * const c_char) ; table . environment_set_ssao = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_ssao\0" . as_ptr () as * const c_char) ; table . environment_set_ssr = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_ssr\0" . as_ptr () as * const c_char) ; table . environment_set_tonemap = (gd_api . godot_method_bind_get_method) (class_name , "environment_set_tonemap\0" . as_ptr () as * const c_char) ; table . finish = (gd_api . godot_method_bind_get_method) (class_name , "finish\0" . as_ptr () as * const c_char) ; table . force_draw = (gd_api . godot_method_bind_get_method) (class_name , "force_draw\0" . as_ptr () as * const c_char) ; table . force_sync = (gd_api . godot_method_bind_get_method) (class_name , "force_sync\0" . as_ptr () as * const c_char) ; table . free_rid = (gd_api . godot_method_bind_get_method) (class_name , "free_rid\0" . as_ptr () as * const c_char) ; table . get_render_info = (gd_api . godot_method_bind_get_method) (class_name , "get_render_info\0" . as_ptr () as * const c_char) ; table . get_test_cube = (gd_api . godot_method_bind_get_method) (class_name , "get_test_cube\0" . as_ptr () as * const c_char) ; table . get_test_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_test_texture\0" . as_ptr () as * const c_char) ; table . get_video_adapter_name = (gd_api . godot_method_bind_get_method) (class_name , "get_video_adapter_name\0" . as_ptr () as * const c_char) ; table . get_video_adapter_vendor = (gd_api . godot_method_bind_get_method) (class_name , "get_video_adapter_vendor\0" . as_ptr () as * const c_char) ; table . get_white_texture = (gd_api . godot_method_bind_get_method) (class_name , "get_white_texture\0" . as_ptr () as * const c_char) ; table . gi_probe_create = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_create\0" . as_ptr () as * const c_char) ; table . gi_probe_get_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_get_bounds = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_bounds\0" . as_ptr () as * const c_char) ; table . gi_probe_get_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_cell_size\0" . as_ptr () as * const c_char) ; table . gi_probe_get_dynamic_data = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_dynamic_data\0" . as_ptr () as * const c_char) ; table . gi_probe_get_dynamic_range = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_dynamic_range\0" . as_ptr () as * const c_char) ; table . gi_probe_get_energy = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_energy\0" . as_ptr () as * const c_char) ; table . gi_probe_get_normal_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_normal_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_get_propagation = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_propagation\0" . as_ptr () as * const c_char) ; table . gi_probe_get_to_cell_xform = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_get_to_cell_xform\0" . as_ptr () as * const c_char) ; table . gi_probe_is_compressed = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_is_compressed\0" . as_ptr () as * const c_char) ; table . gi_probe_is_interior = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_is_interior\0" . as_ptr () as * const c_char) ; table . gi_probe_set_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_set_bounds = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_bounds\0" . as_ptr () as * const c_char) ; table . gi_probe_set_cell_size = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_cell_size\0" . as_ptr () as * const c_char) ; table . gi_probe_set_compress = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_compress\0" . as_ptr () as * const c_char) ; table . gi_probe_set_dynamic_data = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_dynamic_data\0" . as_ptr () as * const c_char) ; table . gi_probe_set_dynamic_range = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_dynamic_range\0" . as_ptr () as * const c_char) ; table . gi_probe_set_energy = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_energy\0" . as_ptr () as * const c_char) ; table . gi_probe_set_interior = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_interior\0" . as_ptr () as * const c_char) ; table . gi_probe_set_normal_bias = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_normal_bias\0" . as_ptr () as * const c_char) ; table . gi_probe_set_propagation = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_propagation\0" . as_ptr () as * const c_char) ; table . gi_probe_set_to_cell_xform = (gd_api . godot_method_bind_get_method) (class_name , "gi_probe_set_to_cell_xform\0" . as_ptr () as * const c_char) ; table . has_changed = (gd_api . godot_method_bind_get_method) (class_name , "has_changed\0" . as_ptr () as * const c_char) ; table . has_feature = (gd_api . godot_method_bind_get_method) (class_name , "has_feature\0" . as_ptr () as * const c_char) ; table . has_os_feature = (gd_api . godot_method_bind_get_method) (class_name , "has_os_feature\0" . as_ptr () as * const c_char) ; table . immediate_begin = (gd_api . godot_method_bind_get_method) (class_name , "immediate_begin\0" . as_ptr () as * const c_char) ; table . immediate_clear = (gd_api . godot_method_bind_get_method) (class_name , "immediate_clear\0" . as_ptr () as * const c_char) ; table . immediate_color = (gd_api . godot_method_bind_get_method) (class_name , "immediate_color\0" . as_ptr () as * const c_char) ; table . immediate_create = (gd_api . godot_method_bind_get_method) (class_name , "immediate_create\0" . as_ptr () as * const c_char) ; table . immediate_end = (gd_api . godot_method_bind_get_method) (class_name , "immediate_end\0" . as_ptr () as * const c_char) ; table . immediate_get_material = (gd_api . godot_method_bind_get_method) (class_name , "immediate_get_material\0" . as_ptr () as * const c_char) ; table . immediate_normal = (gd_api . godot_method_bind_get_method) (class_name , "immediate_normal\0" . as_ptr () as * const c_char) ; table . immediate_set_material = (gd_api . godot_method_bind_get_method) (class_name , "immediate_set_material\0" . as_ptr () as * const c_char) ; table . immediate_tangent = (gd_api . godot_method_bind_get_method) (class_name , "immediate_tangent\0" . as_ptr () as * const c_char) ; table . immediate_uv = (gd_api . godot_method_bind_get_method) (class_name , "immediate_uv\0" . as_ptr () as * const c_char) ; table . immediate_uv2 = (gd_api . godot_method_bind_get_method) (class_name , "immediate_uv2\0" . as_ptr () as * const c_char) ; table . immediate_vertex = (gd_api . godot_method_bind_get_method) (class_name , "immediate_vertex\0" . as_ptr () as * const c_char) ; table . immediate_vertex_2d = (gd_api . godot_method_bind_get_method) (class_name , "immediate_vertex_2d\0" . as_ptr () as * const c_char) ; table . init = (gd_api . godot_method_bind_get_method) (class_name , "init\0" . as_ptr () as * const c_char) ; table . instance_attach_object_instance_id = (gd_api . godot_method_bind_get_method) (class_name , "instance_attach_object_instance_id\0" . as_ptr () as * const c_char) ; table . instance_attach_skeleton = (gd_api . godot_method_bind_get_method) (class_name , "instance_attach_skeleton\0" . as_ptr () as * const c_char) ; table . instance_create = (gd_api . godot_method_bind_get_method) (class_name , "instance_create\0" . as_ptr () as * const c_char) ; table . instance_create2 = (gd_api . godot_method_bind_get_method) (class_name , "instance_create2\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_as_instance_lod = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_as_instance_lod\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_cast_shadows_setting = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_cast_shadows_setting\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_draw_range = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_draw_range\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_flag = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_flag\0" . as_ptr () as * const c_char) ; table . instance_geometry_set_material_override = (gd_api . godot_method_bind_get_method) (class_name , "instance_geometry_set_material_override\0" . as_ptr () as * const c_char) ; table . instance_set_base = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_base\0" . as_ptr () as * const c_char) ; table . instance_set_blend_shape_weight = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_blend_shape_weight\0" . as_ptr () as * const c_char) ; table . instance_set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_custom_aabb\0" . as_ptr () as * const c_char) ; table . instance_set_exterior = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_exterior\0" . as_ptr () as * const c_char) ; table . instance_set_extra_visibility_margin = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_extra_visibility_margin\0" . as_ptr () as * const c_char) ; table . instance_set_layer_mask = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_layer_mask\0" . as_ptr () as * const c_char) ; table . instance_set_scenario = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_scenario\0" . as_ptr () as * const c_char) ; table . instance_set_surface_material = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_surface_material\0" . as_ptr () as * const c_char) ; table . instance_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_transform\0" . as_ptr () as * const c_char) ; table . instance_set_use_lightmap = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_use_lightmap\0" . as_ptr () as * const c_char) ; table . instance_set_visible = (gd_api . godot_method_bind_get_method) (class_name , "instance_set_visible\0" . as_ptr () as * const c_char) ; table . instances_cull_aabb = (gd_api . godot_method_bind_get_method) (class_name , "instances_cull_aabb\0" . as_ptr () as * const c_char) ; table . instances_cull_convex = (gd_api . godot_method_bind_get_method) (class_name , "instances_cull_convex\0" . as_ptr () as * const c_char) ; table . instances_cull_ray = (gd_api . godot_method_bind_get_method) (class_name , "instances_cull_ray\0" . as_ptr () as * const c_char) ; table . is_render_loop_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_render_loop_enabled\0" . as_ptr () as * const c_char) ; table . light_directional_set_blend_splits = (gd_api . godot_method_bind_get_method) (class_name , "light_directional_set_blend_splits\0" . as_ptr () as * const c_char) ; table . light_directional_set_shadow_depth_range_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_directional_set_shadow_depth_range_mode\0" . as_ptr () as * const c_char) ; table . light_directional_set_shadow_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_directional_set_shadow_mode\0" . as_ptr () as * const c_char) ; table . light_omni_set_shadow_detail = (gd_api . godot_method_bind_get_method) (class_name , "light_omni_set_shadow_detail\0" . as_ptr () as * const c_char) ; table . light_omni_set_shadow_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_omni_set_shadow_mode\0" . as_ptr () as * const c_char) ; table . light_set_bake_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_set_bake_mode\0" . as_ptr () as * const c_char) ; table . light_set_color = (gd_api . godot_method_bind_get_method) (class_name , "light_set_color\0" . as_ptr () as * const c_char) ; table . light_set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "light_set_cull_mask\0" . as_ptr () as * const c_char) ; table . light_set_negative = (gd_api . godot_method_bind_get_method) (class_name , "light_set_negative\0" . as_ptr () as * const c_char) ; table . light_set_param = (gd_api . godot_method_bind_get_method) (class_name , "light_set_param\0" . as_ptr () as * const c_char) ; table . light_set_projector = (gd_api . godot_method_bind_get_method) (class_name , "light_set_projector\0" . as_ptr () as * const c_char) ; table . light_set_reverse_cull_face_mode = (gd_api . godot_method_bind_get_method) (class_name , "light_set_reverse_cull_face_mode\0" . as_ptr () as * const c_char) ; table . light_set_shadow = (gd_api . godot_method_bind_get_method) (class_name , "light_set_shadow\0" . as_ptr () as * const c_char) ; table . light_set_shadow_color = (gd_api . godot_method_bind_get_method) (class_name , "light_set_shadow_color\0" . as_ptr () as * const c_char) ; table . light_set_use_gi = (gd_api . godot_method_bind_get_method) (class_name , "light_set_use_gi\0" . as_ptr () as * const c_char) ; table . lightmap_capture_create = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_create\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_bounds = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_bounds\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_energy = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_energy\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_octree = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_octree\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_octree_cell_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_octree_cell_subdiv\0" . as_ptr () as * const c_char) ; table . lightmap_capture_get_octree_cell_transform = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_get_octree_cell_transform\0" . as_ptr () as * const c_char) ; table . lightmap_capture_is_interior = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_is_interior\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_bounds = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_bounds\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_energy = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_energy\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_interior = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_interior\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_octree = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_octree\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_octree_cell_subdiv = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_octree_cell_subdiv\0" . as_ptr () as * const c_char) ; table . lightmap_capture_set_octree_cell_transform = (gd_api . godot_method_bind_get_method) (class_name , "lightmap_capture_set_octree_cell_transform\0" . as_ptr () as * const c_char) ; table . make_sphere_mesh = (gd_api . godot_method_bind_get_method) (class_name , "make_sphere_mesh\0" . as_ptr () as * const c_char) ; table . material_create = (gd_api . godot_method_bind_get_method) (class_name , "material_create\0" . as_ptr () as * const c_char) ; table . material_get_param = (gd_api . godot_method_bind_get_method) (class_name , "material_get_param\0" . as_ptr () as * const c_char) ; table . material_get_param_default = (gd_api . godot_method_bind_get_method) (class_name , "material_get_param_default\0" . as_ptr () as * const c_char) ; table . material_get_shader = (gd_api . godot_method_bind_get_method) (class_name , "material_get_shader\0" . as_ptr () as * const c_char) ; table . material_set_line_width = (gd_api . godot_method_bind_get_method) (class_name , "material_set_line_width\0" . as_ptr () as * const c_char) ; table . material_set_next_pass = (gd_api . godot_method_bind_get_method) (class_name , "material_set_next_pass\0" . as_ptr () as * const c_char) ; table . material_set_param = (gd_api . godot_method_bind_get_method) (class_name , "material_set_param\0" . as_ptr () as * const c_char) ; table . material_set_render_priority = (gd_api . godot_method_bind_get_method) (class_name , "material_set_render_priority\0" . as_ptr () as * const c_char) ; table . material_set_shader = (gd_api . godot_method_bind_get_method) (class_name , "material_set_shader\0" . as_ptr () as * const c_char) ; table . mesh_add_surface_from_arrays = (gd_api . godot_method_bind_get_method) (class_name , "mesh_add_surface_from_arrays\0" . as_ptr () as * const c_char) ; table . mesh_clear = (gd_api . godot_method_bind_get_method) (class_name , "mesh_clear\0" . as_ptr () as * const c_char) ; table . mesh_create = (gd_api . godot_method_bind_get_method) (class_name , "mesh_create\0" . as_ptr () as * const c_char) ; table . mesh_get_blend_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_blend_shape_count\0" . as_ptr () as * const c_char) ; table . mesh_get_blend_shape_mode = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_blend_shape_mode\0" . as_ptr () as * const c_char) ; table . mesh_get_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_custom_aabb\0" . as_ptr () as * const c_char) ; table . mesh_get_surface_count = (gd_api . godot_method_bind_get_method) (class_name , "mesh_get_surface_count\0" . as_ptr () as * const c_char) ; table . mesh_remove_surface = (gd_api . godot_method_bind_get_method) (class_name , "mesh_remove_surface\0" . as_ptr () as * const c_char) ; table . mesh_set_blend_shape_count = (gd_api . godot_method_bind_get_method) (class_name , "mesh_set_blend_shape_count\0" . as_ptr () as * const c_char) ; table . mesh_set_blend_shape_mode = (gd_api . godot_method_bind_get_method) (class_name , "mesh_set_blend_shape_mode\0" . as_ptr () as * const c_char) ; table . mesh_set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_set_custom_aabb\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_aabb\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_array = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_array\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_array_index_len = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_array_index_len\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_array_len = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_array_len\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_arrays = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_arrays\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_blend_shape_arrays = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_blend_shape_arrays\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_format = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_format\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_format_offset = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_format_offset\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_format_stride = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_format_stride\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_index_array = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_index_array\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_material = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_material\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_primitive_type = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_primitive_type\0" . as_ptr () as * const c_char) ; table . mesh_surface_get_skeleton_aabb = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_get_skeleton_aabb\0" . as_ptr () as * const c_char) ; table . mesh_surface_set_material = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_set_material\0" . as_ptr () as * const c_char) ; table . mesh_surface_update_region = (gd_api . godot_method_bind_get_method) (class_name , "mesh_surface_update_region\0" . as_ptr () as * const c_char) ; table . multimesh_allocate = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_allocate\0" . as_ptr () as * const c_char) ; table . multimesh_create = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_create\0" . as_ptr () as * const c_char) ; table . multimesh_get_aabb = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_aabb\0" . as_ptr () as * const c_char) ; table . multimesh_get_instance_count = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_instance_count\0" . as_ptr () as * const c_char) ; table . multimesh_get_mesh = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_mesh\0" . as_ptr () as * const c_char) ; table . multimesh_get_visible_instances = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_get_visible_instances\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_color = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_color\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_custom_data = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_custom_data\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_transform = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_transform\0" . as_ptr () as * const c_char) ; table . multimesh_instance_get_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_get_transform_2d\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_color = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_color\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_custom_data = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_custom_data\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_transform\0" . as_ptr () as * const c_char) ; table . multimesh_instance_set_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_instance_set_transform_2d\0" . as_ptr () as * const c_char) ; table . multimesh_set_as_bulk_array = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_set_as_bulk_array\0" . as_ptr () as * const c_char) ; table . multimesh_set_mesh = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_set_mesh\0" . as_ptr () as * const c_char) ; table . multimesh_set_visible_instances = (gd_api . godot_method_bind_get_method) (class_name , "multimesh_set_visible_instances\0" . as_ptr () as * const c_char) ; table . omni_light_create = (gd_api . godot_method_bind_get_method) (class_name , "omni_light_create\0" . as_ptr () as * const c_char) ; table . particles_create = (gd_api . godot_method_bind_get_method) (class_name , "particles_create\0" . as_ptr () as * const c_char) ; table . particles_get_current_aabb = (gd_api . godot_method_bind_get_method) (class_name , "particles_get_current_aabb\0" . as_ptr () as * const c_char) ; table . particles_get_emitting = (gd_api . godot_method_bind_get_method) (class_name , "particles_get_emitting\0" . as_ptr () as * const c_char) ; table . particles_is_inactive = (gd_api . godot_method_bind_get_method) (class_name , "particles_is_inactive\0" . as_ptr () as * const c_char) ; table . particles_request_process = (gd_api . godot_method_bind_get_method) (class_name , "particles_request_process\0" . as_ptr () as * const c_char) ; table . particles_restart = (gd_api . godot_method_bind_get_method) (class_name , "particles_restart\0" . as_ptr () as * const c_char) ; table . particles_set_amount = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_amount\0" . as_ptr () as * const c_char) ; table . particles_set_custom_aabb = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_custom_aabb\0" . as_ptr () as * const c_char) ; table . particles_set_draw_order = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_draw_order\0" . as_ptr () as * const c_char) ; table . particles_set_draw_pass_mesh = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_draw_pass_mesh\0" . as_ptr () as * const c_char) ; table . particles_set_draw_passes = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_draw_passes\0" . as_ptr () as * const c_char) ; table . particles_set_emission_transform = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_emission_transform\0" . as_ptr () as * const c_char) ; table . particles_set_emitting = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_emitting\0" . as_ptr () as * const c_char) ; table . particles_set_explosiveness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_explosiveness_ratio\0" . as_ptr () as * const c_char) ; table . particles_set_fixed_fps = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_fixed_fps\0" . as_ptr () as * const c_char) ; table . particles_set_fractional_delta = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_fractional_delta\0" . as_ptr () as * const c_char) ; table . particles_set_lifetime = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_lifetime\0" . as_ptr () as * const c_char) ; table . particles_set_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_one_shot\0" . as_ptr () as * const c_char) ; table . particles_set_pre_process_time = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_pre_process_time\0" . as_ptr () as * const c_char) ; table . particles_set_process_material = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_process_material\0" . as_ptr () as * const c_char) ; table . particles_set_randomness_ratio = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_randomness_ratio\0" . as_ptr () as * const c_char) ; table . particles_set_speed_scale = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_speed_scale\0" . as_ptr () as * const c_char) ; table . particles_set_use_local_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "particles_set_use_local_coordinates\0" . as_ptr () as * const c_char) ; table . reflection_probe_create = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_create\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_as_interior = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_as_interior\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_cull_mask = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_cull_mask\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_enable_box_projection = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_enable_box_projection\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_enable_shadows = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_enable_shadows\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_extents = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_extents\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_intensity = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_intensity\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_interior_ambient = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_interior_ambient\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_interior_ambient_energy = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_interior_ambient_energy\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_interior_ambient_probe_contribution = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_interior_ambient_probe_contribution\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_max_distance = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_max_distance\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_origin_offset = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_origin_offset\0" . as_ptr () as * const c_char) ; table . reflection_probe_set_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "reflection_probe_set_update_mode\0" . as_ptr () as * const c_char) ; table . request_frame_drawn_callback = (gd_api . godot_method_bind_get_method) (class_name , "request_frame_drawn_callback\0" . as_ptr () as * const c_char) ; table . scenario_create = (gd_api . godot_method_bind_get_method) (class_name , "scenario_create\0" . as_ptr () as * const c_char) ; table . scenario_set_debug = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_debug\0" . as_ptr () as * const c_char) ; table . scenario_set_environment = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_environment\0" . as_ptr () as * const c_char) ; table . scenario_set_fallback_environment = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_fallback_environment\0" . as_ptr () as * const c_char) ; table . scenario_set_reflection_atlas_size = (gd_api . godot_method_bind_get_method) (class_name , "scenario_set_reflection_atlas_size\0" . as_ptr () as * const c_char) ; table . set_boot_image = (gd_api . godot_method_bind_get_method) (class_name , "set_boot_image\0" . as_ptr () as * const c_char) ; table . set_debug_generate_wireframes = (gd_api . godot_method_bind_get_method) (class_name , "set_debug_generate_wireframes\0" . as_ptr () as * const c_char) ; table . set_default_clear_color = (gd_api . godot_method_bind_get_method) (class_name , "set_default_clear_color\0" . as_ptr () as * const c_char) ; table . set_render_loop_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_render_loop_enabled\0" . as_ptr () as * const c_char) ; table . set_shader_time_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_shader_time_scale\0" . as_ptr () as * const c_char) ; table . shader_create = (gd_api . godot_method_bind_get_method) (class_name , "shader_create\0" . as_ptr () as * const c_char) ; table . shader_get_code = (gd_api . godot_method_bind_get_method) (class_name , "shader_get_code\0" . as_ptr () as * const c_char) ; table . shader_get_default_texture_param = (gd_api . godot_method_bind_get_method) (class_name , "shader_get_default_texture_param\0" . as_ptr () as * const c_char) ; table . shader_get_param_list = (gd_api . godot_method_bind_get_method) (class_name , "shader_get_param_list\0" . as_ptr () as * const c_char) ; table . shader_set_code = (gd_api . godot_method_bind_get_method) (class_name , "shader_set_code\0" . as_ptr () as * const c_char) ; table . shader_set_default_texture_param = (gd_api . godot_method_bind_get_method) (class_name , "shader_set_default_texture_param\0" . as_ptr () as * const c_char) ; table . skeleton_allocate = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_allocate\0" . as_ptr () as * const c_char) ; table . skeleton_bone_get_transform = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_get_transform\0" . as_ptr () as * const c_char) ; table . skeleton_bone_get_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_get_transform_2d\0" . as_ptr () as * const c_char) ; table . skeleton_bone_set_transform = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_set_transform\0" . as_ptr () as * const c_char) ; table . skeleton_bone_set_transform_2d = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_bone_set_transform_2d\0" . as_ptr () as * const c_char) ; table . skeleton_create = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_create\0" . as_ptr () as * const c_char) ; table . skeleton_get_bone_count = (gd_api . godot_method_bind_get_method) (class_name , "skeleton_get_bone_count\0" . as_ptr () as * const c_char) ; table . sky_create = (gd_api . godot_method_bind_get_method) (class_name , "sky_create\0" . as_ptr () as * const c_char) ; table . sky_set_texture = (gd_api . godot_method_bind_get_method) (class_name , "sky_set_texture\0" . as_ptr () as * const c_char) ; table . spot_light_create = (gd_api . godot_method_bind_get_method) (class_name , "spot_light_create\0" . as_ptr () as * const c_char) ; table . sync = (gd_api . godot_method_bind_get_method) (class_name , "sync\0" . as_ptr () as * const c_char) ; table . texture_allocate = (gd_api . godot_method_bind_get_method) (class_name , "texture_allocate\0" . as_ptr () as * const c_char) ; table . texture_bind = (gd_api . godot_method_bind_get_method) (class_name , "texture_bind\0" . as_ptr () as * const c_char) ; table . texture_create = (gd_api . godot_method_bind_get_method) (class_name , "texture_create\0" . as_ptr () as * const c_char) ; table . texture_create_from_image = (gd_api . godot_method_bind_get_method) (class_name , "texture_create_from_image\0" . as_ptr () as * const c_char) ; table . texture_debug_usage = (gd_api . godot_method_bind_get_method) (class_name , "texture_debug_usage\0" . as_ptr () as * const c_char) ; table . texture_get_data = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_data\0" . as_ptr () as * const c_char) ; table . texture_get_depth = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_depth\0" . as_ptr () as * const c_char) ; table . texture_get_flags = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_flags\0" . as_ptr () as * const c_char) ; table . texture_get_format = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_format\0" . as_ptr () as * const c_char) ; table . texture_get_height = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_height\0" . as_ptr () as * const c_char) ; table . texture_get_path = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_path\0" . as_ptr () as * const c_char) ; table . texture_get_texid = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_texid\0" . as_ptr () as * const c_char) ; table . texture_get_type = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_type\0" . as_ptr () as * const c_char) ; table . texture_get_width = (gd_api . godot_method_bind_get_method) (class_name , "texture_get_width\0" . as_ptr () as * const c_char) ; table . texture_set_data = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_data\0" . as_ptr () as * const c_char) ; table . texture_set_data_partial = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_data_partial\0" . as_ptr () as * const c_char) ; table . texture_set_flags = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_flags\0" . as_ptr () as * const c_char) ; table . texture_set_path = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_path\0" . as_ptr () as * const c_char) ; table . texture_set_shrink_all_x2_on_set_data = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_shrink_all_x2_on_set_data\0" . as_ptr () as * const c_char) ; table . texture_set_size_override = (gd_api . godot_method_bind_get_method) (class_name , "texture_set_size_override\0" . as_ptr () as * const c_char) ; table . textures_keep_original = (gd_api . godot_method_bind_get_method) (class_name , "textures_keep_original\0" . as_ptr () as * const c_char) ; table . viewport_attach_camera = (gd_api . godot_method_bind_get_method) (class_name , "viewport_attach_camera\0" . as_ptr () as * const c_char) ; table . viewport_attach_canvas = (gd_api . godot_method_bind_get_method) (class_name , "viewport_attach_canvas\0" . as_ptr () as * const c_char) ; table . viewport_attach_to_screen = (gd_api . godot_method_bind_get_method) (class_name , "viewport_attach_to_screen\0" . as_ptr () as * const c_char) ; table . viewport_create = (gd_api . godot_method_bind_get_method) (class_name , "viewport_create\0" . as_ptr () as * const c_char) ; table . viewport_detach = (gd_api . godot_method_bind_get_method) (class_name , "viewport_detach\0" . as_ptr () as * const c_char) ; table . viewport_get_render_info = (gd_api . godot_method_bind_get_method) (class_name , "viewport_get_render_info\0" . as_ptr () as * const c_char) ; table . viewport_get_texture = (gd_api . godot_method_bind_get_method) (class_name , "viewport_get_texture\0" . as_ptr () as * const c_char) ; table . viewport_remove_canvas = (gd_api . godot_method_bind_get_method) (class_name , "viewport_remove_canvas\0" . as_ptr () as * const c_char) ; table . viewport_set_active = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_active\0" . as_ptr () as * const c_char) ; table . viewport_set_canvas_stacking = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_canvas_stacking\0" . as_ptr () as * const c_char) ; table . viewport_set_canvas_transform = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_canvas_transform\0" . as_ptr () as * const c_char) ; table . viewport_set_clear_mode = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_clear_mode\0" . as_ptr () as * const c_char) ; table . viewport_set_debug_draw = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_debug_draw\0" . as_ptr () as * const c_char) ; table . viewport_set_disable_3d = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_disable_3d\0" . as_ptr () as * const c_char) ; table . viewport_set_disable_environment = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_disable_environment\0" . as_ptr () as * const c_char) ; table . viewport_set_global_canvas_transform = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_global_canvas_transform\0" . as_ptr () as * const c_char) ; table . viewport_set_hdr = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_hdr\0" . as_ptr () as * const c_char) ; table . viewport_set_hide_canvas = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_hide_canvas\0" . as_ptr () as * const c_char) ; table . viewport_set_hide_scenario = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_hide_scenario\0" . as_ptr () as * const c_char) ; table . viewport_set_msaa = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_msaa\0" . as_ptr () as * const c_char) ; table . viewport_set_parent_viewport = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_parent_viewport\0" . as_ptr () as * const c_char) ; table . viewport_set_render_direct_to_screen = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_render_direct_to_screen\0" . as_ptr () as * const c_char) ; table . viewport_set_scenario = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_scenario\0" . as_ptr () as * const c_char) ; table . viewport_set_shadow_atlas_quadrant_subdivision = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_shadow_atlas_quadrant_subdivision\0" . as_ptr () as * const c_char) ; table . viewport_set_shadow_atlas_size = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_shadow_atlas_size\0" . as_ptr () as * const c_char) ; table . viewport_set_size = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_size\0" . as_ptr () as * const c_char) ; table . viewport_set_transparent_background = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_transparent_background\0" . as_ptr () as * const c_char) ; table . viewport_set_update_mode = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_update_mode\0" . as_ptr () as * const c_char) ; table . viewport_set_usage = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_usage\0" . as_ptr () as * const c_char) ; table . viewport_set_use_arvr = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_use_arvr\0" . as_ptr () as * const c_char) ; table . viewport_set_use_debanding = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_use_debanding\0" . as_ptr () as * const c_char) ; table . viewport_set_use_fxaa = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_use_fxaa\0" . as_ptr () as * const c_char) ; table . viewport_set_vflip = (gd_api . godot_method_bind_get_method) (class_name , "viewport_set_vflip\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:610:69283 [INFO] [stdout] | [INFO] [stdout] 610 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Node` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_node.html) in the Godot 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`Node` 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\nNode 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 Node { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct DuplicateFlags (pub i64) ; impl DuplicateFlags { pub const SIGNALS : DuplicateFlags = DuplicateFlags (1i64) ; pub const GROUPS : DuplicateFlags = DuplicateFlags (2i64) ; pub const SCRIPTS : DuplicateFlags = DuplicateFlags (4i64) ; pub const USE_INSTANCING : DuplicateFlags = DuplicateFlags (8i64) ; } impl From < i64 > for DuplicateFlags { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < DuplicateFlags > for i64 { # [inline] fn from (v : DuplicateFlags) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PauseMode (pub i64) ; impl PauseMode { pub const INHERIT : PauseMode = PauseMode (0i64) ; pub const STOP : PauseMode = PauseMode (1i64) ; pub const PROCESS : PauseMode = PauseMode (2i64) ; } impl From < i64 > for PauseMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PauseMode > for i64 { # [inline] fn from (v : PauseMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Node { pub const DUPLICATE_GROUPS : i64 = 2i64 ; pub const DUPLICATE_SCRIPTS : i64 = 4i64 ; pub const DUPLICATE_SIGNALS : i64 = 1i64 ; pub const DUPLICATE_USE_INSTANCING : i64 = 8i64 ; pub const NOTIFICATION_APP_PAUSED : i64 = 1015i64 ; pub const NOTIFICATION_APP_RESUMED : i64 = 1014i64 ; pub const NOTIFICATION_CRASH : i64 = 1012i64 ; pub const NOTIFICATION_DRAG_BEGIN : i64 = 21i64 ; pub const NOTIFICATION_DRAG_END : i64 = 22i64 ; pub const NOTIFICATION_ENTER_TREE : i64 = 10i64 ; pub const NOTIFICATION_EXIT_TREE : i64 = 11i64 ; pub const NOTIFICATION_INSTANCED : i64 = 20i64 ; pub const NOTIFICATION_INTERNAL_PHYSICS_PROCESS : i64 = 26i64 ; pub const NOTIFICATION_INTERNAL_PROCESS : i64 = 25i64 ; pub const NOTIFICATION_MOVED_IN_PARENT : i64 = 12i64 ; pub const NOTIFICATION_OS_IME_UPDATE : i64 = 1013i64 ; pub const NOTIFICATION_OS_MEMORY_WARNING : i64 = 1009i64 ; pub const NOTIFICATION_PARENTED : i64 = 18i64 ; pub const NOTIFICATION_PATH_CHANGED : i64 = 23i64 ; pub const NOTIFICATION_PAUSED : i64 = 14i64 ; pub const NOTIFICATION_PHYSICS_PROCESS : i64 = 16i64 ; pub const NOTIFICATION_POST_ENTER_TREE : i64 = 27i64 ; pub const NOTIFICATION_PROCESS : i64 = 17i64 ; pub const NOTIFICATION_READY : i64 = 13i64 ; pub const NOTIFICATION_TRANSLATION_CHANGED : i64 = 1010i64 ; pub const NOTIFICATION_UNPARENTED : i64 = 19i64 ; pub const NOTIFICATION_UNPAUSED : i64 = 15i64 ; pub const NOTIFICATION_WM_ABOUT : i64 = 1011i64 ; pub const NOTIFICATION_WM_FOCUS_IN : i64 = 1004i64 ; pub const NOTIFICATION_WM_FOCUS_OUT : i64 = 1005i64 ; pub const NOTIFICATION_WM_GO_BACK_REQUEST : i64 = 1007i64 ; pub const NOTIFICATION_WM_MOUSE_ENTER : i64 = 1002i64 ; pub const NOTIFICATION_WM_MOUSE_EXIT : i64 = 1003i64 ; pub const NOTIFICATION_WM_QUIT_REQUEST : i64 = 1006i64 ; pub const NOTIFICATION_WM_UNFOCUS_REQUEST : i64 = 1008i64 ; pub const PAUSE_MODE_INHERIT : i64 = 0i64 ; pub const PAUSE_MODE_PROCESS : i64 = 2i64 ; pub const PAUSE_MODE_STOP : i64 = 1i64 ; } impl Node { # [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 = NodeMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nAdds a child node. Nodes can have any number of children, but every child must have a unique name. Child nodes are automatically deleted when the parent node is deleted, so an entire scene can be removed by deleting its topmost node.\nIf `legible_unique_name` is `true`, the child node will have an human-readable name based on the name of the node being instanced instead of its type.\n**Note:** If the child node already has a parent, the function will fail. Use [method remove_child] first to remove the node from its current parent. For example:\n```gdscript\nif child_node.get_parent():\n child_node.get_parent().remove_child(child_node)\nadd_child(child_node)\n```\n**Note:** If you want a child to be persisted to a [PackedScene], you must set [member owner] in addition to calling [method add_child]. This is typically relevant for [url=https://godot.readthedocs.io/en/latest/tutorials/misc/running_code_in_the_editor.html]tool scripts[/url] and [url=https://godot.readthedocs.io/en/latest/tutorials/plugins/editor/index.html]editor plugins[/url]. If [method add_child] is called without setting [member owner], the newly added [Node] will not be visible in the scene tree, though it will be visible in the 2D/3D view.\n# Default Arguments\n* `legible_unique_name` - `false`"] # [doc = ""] # [inline] pub fn add_child (& self , node : impl AsArg < crate :: generated :: node :: Node > , legible_unique_name : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . add_child ; let ret = crate :: icalls :: icallptr_void_obj_bool (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr () , legible_unique_name) ; } } # [doc = "Adds `child_node` as a child. The child is placed below the given `node` in the list of children.\nIf `legible_unique_name` is `true`, the child node will have an human-readable name based on the name of the node being instanced instead of its type.\n# Default Arguments\n* `legible_unique_name` - `false`"] # [doc = ""] # [inline] pub fn add_child_below_node (& self , node : impl AsArg < crate :: generated :: node :: Node > , child_node : impl AsArg < crate :: generated :: node :: Node > , legible_unique_name : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . add_child_below_node ; let ret = crate :: icalls :: icallptr_void_obj_obj_bool (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr () , child_node . as_arg_ptr () , legible_unique_name) ; } } # [doc = "Adds the node to a group. Groups are helpers to name and organize a subset of nodes, for example \"enemies\" or \"collectables\". A node can be in any number of groups. Nodes can be assigned a group at any time, but will not be added until they are inside the scene tree (see [method is_inside_tree]). See notes in the description, and the group methods in [SceneTree].\nThe `persistent` option is used when packing node to [PackedScene] and saving to file. Non-persistent groups aren't stored.\n# Default Arguments\n* `persistent` - `false`"] # [doc = ""] # [inline] pub fn add_to_group (& self , group : impl Into < GodotString > , persistent : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . add_to_group ; let ret = crate :: icalls :: icallptr_void_str_bool (method_bind , self . this . sys () . as_ptr () , group . into () , persistent) ; } } # [doc = "Returns `true` if the node can process while the scene tree is paused (see [member pause_mode]). Always returns `true` if the scene tree is not paused, and `false` if the node is not in the tree."] # [doc = ""] # [inline] pub fn can_process (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . can_process ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Duplicates the node, returning a new node.\nYou can fine-tune the behavior using the `flags` (see [enum DuplicateFlags]).\n**Note:** It will not work properly if the node contains a script with constructor arguments (i.e. needs to supply arguments to [method Object._init] method). In that case, the node will be duplicated without a script.\n# Default Arguments\n* `flags` - `15`"] # [doc = ""] # [inline] pub fn duplicate (& self , flags : i64) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . duplicate ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , flags) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Finds a descendant of this node whose name matches `mask` as in [method String.match] (i.e. case-sensitive, but `\"*\"` matches zero or more characters and `\"?\"` matches any single character except `\".\"`).\n**Note:** It does not match against the full path, just against individual node names.\nIf `owned` is `true`, this method only finds nodes whose owner is this node. This is especially important for scenes instantiated through a script, because those scenes don't have an owner.\n**Note:** As this method walks through all the descendants of the node, it is the slowest way to get a reference to another node. Whenever possible, consider using [method get_node] instead. To avoid using [method find_node] too often, consider caching the node reference into a variable.\n# Default Arguments\n* `recursive` - `true`\n* `owned` - `true`"] # [doc = ""] # [inline] pub fn find_node (& self , mask : impl Into < GodotString > , recursive : bool , owned : bool) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . find_node ; let ret = crate :: icalls :: icallptr_obj_str_bool_bool (method_bind , self . this . sys () . as_ptr () , mask . into () , recursive , owned) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Finds the first parent of the current node whose name matches `mask` as in [method String.match] (i.e. case-sensitive, but `\"*\"` matches zero or more characters and `\"?\"` matches any single character except `\".\"`).\n**Note:** It does not match against the full path, just against individual node names.\n**Note:** As this method walks upwards in the scene tree, it can be slow in large, deeply nested scene trees. Whenever possible, consider using [method get_node] instead. To avoid using [method find_parent] too often, consider caching the node reference into a variable."] # [doc = ""] # [inline] pub fn find_parent (& self , mask : impl Into < GodotString >) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . find_parent ; let ret = crate :: icalls :: icallptr_obj_str (method_bind , self . this . sys () . as_ptr () , mask . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns a child node by its index (see [method get_child_count]). This method is often used for iterating all children of a node.\nTo access a child node via its name, use [method get_node]."] # [doc = ""] # [inline] pub fn get_child (& self , idx : i64) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_child ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the number of child nodes."] # [doc = ""] # [inline] pub fn get_child_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_child_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an array of references to node's children."] # [doc = ""] # [inline] pub fn get_children (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_children ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "The override to the default [MultiplayerAPI]. Set to `null` to use the default [SceneTree] one."] # [doc = ""] # [inline] pub fn custom_multiplayer (& self) -> Option < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_custom_multiplayer ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "When a scene is instanced from a file, its topmost node contains the filename from which it was loaded."] # [doc = ""] # [inline] pub fn filename (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_filename ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "Returns an array listing the groups that the node is a member of."] # [doc = ""] # [inline] pub fn get_groups (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_groups ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the node's index, i.e. its position among the siblings of its parent."] # [doc = ""] # [inline] pub fn get_index (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_index ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [MultiplayerAPI] instance associated with this node. Either the [member custom_multiplayer], or the default SceneTree one (if inside tree)."] # [doc = ""] # [inline] pub fn multiplayer (& self) -> Option < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_multiplayer ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: multiplayer_api :: MultiplayerAPI , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The name of the node. This name is unique among the siblings (other child nodes from the same parent). When set to an existing name, the node will be automatically renamed."] # [doc = ""] # [inline] pub fn name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: 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 peer ID of the network master for this node. See [method set_network_master]."] # [doc = ""] # [inline] pub fn get_network_master (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_network_master ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nFetches a node. The [NodePath] can be either a relative path (from the current node) or an absolute path (in the scene tree) to a node. If the path does not exist, a `null instance` is returned and an error is logged. Attempts to access methods on the return value will result in an \"Attempt to call on a null instance.\" error.\n**Note:** Fetching absolute paths only works when the node is inside the scene tree (see [method is_inside_tree]).\n**Example:** Assume your current node is Character and the following tree:\n```gdscript\n/root\n/root/Character\n/root/Character/Sword\n/root/Character/Backpack/Dagger\n/root/MyGame\n/root/Swamp/Alligator\n/root/Swamp/Mosquito\n/root/Swamp/Goblin\n```\nPossible paths are:\n```gdscript\nget_node(\"Sword\")\nget_node(\"Backpack/Dagger\")\nget_node(\"../Swamp/Alligator\")\nget_node(\"/root/MyGame\")\n```"] # [doc = ""] # [inline] pub fn get_node (& self , path : impl Into < NodePath >) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_node ; let ret = crate :: icalls :: icallptr_obj_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nFetches a node and one of its resources as specified by the [NodePath]'s subname (e.g. `Area2D/CollisionShape2D:shape`). If several nested resources are specified in the [NodePath], the last one will be fetched.\nThe return value is an array of size 3: the first index points to the [Node] (or `null` if not found), the second index points to the [Resource] (or `null` if not found), and the third index is the remaining [NodePath], if any.\nFor example, assuming that `Area2D/CollisionShape2D` is a valid node and that its `shape` property has been assigned a [RectangleShape2D] resource, one could have this kind of output:\n```gdscript\nprint(get_node_and_resource(\"Area2D/CollisionShape2D\")) # [[CollisionShape2D:1161], Null, ]\nprint(get_node_and_resource(\"Area2D/CollisionShape2D:shape\")) # [[CollisionShape2D:1161], [RectangleShape2D:1156], ]\nprint(get_node_and_resource(\"Area2D/CollisionShape2D:shape:extents\")) # [[CollisionShape2D:1161], [RectangleShape2D:1156], :extents]\n```"] # [doc = ""] # [inline] pub fn get_node_and_resource (& self , path : impl Into < NodePath >) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_node_and_resource ; let ret = crate :: icalls :: icallvar__nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Similar to [method get_node], but does not log an error if `path` does not point to a valid [Node]."] # [doc = ""] # [inline] pub fn get_node_or_null (& self , path : impl Into < NodePath >) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_node_or_null ; let ret = crate :: icalls :: icallptr_obj_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The node owner. A node can have any other node as owner (as long as it is a valid parent, grandparent, etc. ascending in the tree). When saving a node (using [PackedScene]), all the nodes it owns will be saved with it. This allows for the creation of complex [SceneTree]s, with instancing and subinstancing."] # [doc = ""] # [inline] pub fn owner (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_owner ; 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 parent node of the current node, or a `null instance` if the node lacks a parent."] # [doc = ""] # [inline] pub fn get_parent (& self) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: 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 :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the absolute path of the current node. This only works if the current node is inside the scene tree (see [method is_inside_tree])."] # [doc = ""] # [inline] pub fn get_path (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_path ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "Returns the relative [NodePath] from this node to the specified `node`. Both nodes must be in the same scene or the function will fail."] # [doc = ""] # [inline] pub fn get_path_to (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_path_to ; let ret = crate :: icalls :: icallptr_nodepath_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "Pause mode. How the node will behave if the [SceneTree] is paused."] # [doc = ""] # [inline] pub fn pause_mode (& self) -> crate :: generated :: node :: PauseMode { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_pause_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: node :: PauseMode (ret) } } # [doc = "Returns the time elapsed since the last physics-bound frame (see [method _physics_process]). This is always a constant value in physics processing unless the frames per second is changed via [member Engine.iterations_per_second]."] # [doc = ""] # [inline] pub fn get_physics_process_delta_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_physics_process_delta_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the node's order in the scene tree branch. For example, if called on the first child node the position is `0`."] # [doc = ""] # [inline] pub fn get_position_in_parent (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_position_in_parent ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the time elapsed (in seconds) since the last process callback. This value may vary from frame to frame."] # [doc = ""] # [inline] pub fn get_process_delta_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_process_delta_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The node's priority in the execution order of the enabled processing callbacks (i.e. [constant NOTIFICATION_PROCESS], [constant NOTIFICATION_PHYSICS_PROCESS] and their internal counterparts). Nodes whose process priority value is [i]lower[/i] will have their processing callbacks executed first."] # [doc = ""] # [inline] pub fn process_priority (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_process_priority ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this is an instance load placeholder. See [InstancePlaceholder]."] # [doc = ""] # [inline] pub fn get_scene_instance_load_placeholder (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_scene_instance_load_placeholder ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the [SceneTree] that contains this node."] # [doc = ""] # [inline] pub fn get_tree (& self) -> Option < Ref < crate :: generated :: scene_tree :: SceneTree , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_tree ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: scene_tree :: SceneTree , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns the node's [Viewport]."] # [doc = ""] # [inline] pub fn get_viewport (& self) -> Option < Ref < crate :: generated :: viewport :: Viewport , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . get_viewport ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: viewport :: Viewport , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Returns `true` if the node that the [NodePath] points to exists."] # [doc = ""] # [inline] pub fn has_node (& self , path : impl Into < NodePath >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . has_node ; let ret = crate :: icalls :: icallptr_bool_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ret as _ } } # [doc = "Returns `true` if the [NodePath] points to a valid node and its subname points to a valid resource, e.g. `Area2D/CollisionShape2D:shape`. Properties with a non-[Resource] type (e.g. nodes or primitive math types) are not considered resources."] # [doc = ""] # [inline] pub fn has_node_and_resource (& self , path : impl Into < NodePath >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . has_node_and_resource ; let ret = crate :: icalls :: icallptr_bool_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; ret as _ } } # [doc = "Returns `true` if the given node is a direct or indirect child of the current node."] # [doc = ""] # [inline] pub fn is_a_parent_of (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_a_parent_of ; let ret = crate :: icalls :: icallptr_bool_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the node is folded (collapsed) in the Scene dock."] # [doc = ""] # [inline] pub fn is_displayed_folded (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_displayed_folded ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the given node occurs later in the scene hierarchy than the current node."] # [doc = ""] # [inline] pub fn is_greater_than (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_greater_than ; let ret = crate :: icalls :: icallptr_bool_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; ret as _ } } # [doc = "Returns `true` if this node is in the specified group. See notes in the description, and the group methods in [SceneTree]."] # [doc = ""] # [inline] pub fn is_in_group (& self , group : impl Into < GodotString >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_in_group ; let ret = crate :: icalls :: icallptr_bool_str (method_bind , self . this . sys () . as_ptr () , group . into ()) ; ret as _ } } # [doc = "Returns `true` if this node is currently inside a [SceneTree]."] # [doc = ""] # [inline] pub fn is_inside_tree (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_inside_tree ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the local system is the master of this node."] # [doc = ""] # [inline] pub fn is_network_master (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_network_master ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if physics processing is enabled (see [method set_physics_process])."] # [doc = ""] # [inline] pub fn is_physics_processing (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_physics_processing ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if internal physics processing is enabled (see [method set_physics_process_internal])."] # [doc = ""] # [inline] pub fn is_physics_processing_internal (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_physics_processing_internal ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if processing is enabled (see [method set_process])."] # [doc = ""] # [inline] pub fn is_processing (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_processing ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the node is processing input (see [method set_process_input])."] # [doc = ""] # [inline] pub fn is_processing_input (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_processing_input ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if internal processing is enabled (see [method set_process_internal])."] # [doc = ""] # [inline] pub fn is_processing_internal (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_processing_internal ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the node is processing unhandled input (see [method set_process_unhandled_input])."] # [doc = ""] # [inline] pub fn is_processing_unhandled_input (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_processing_unhandled_input ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the node is processing unhandled key input (see [method set_process_unhandled_key_input])."] # [doc = ""] # [inline] pub fn is_processing_unhandled_key_input (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . is_processing_unhandled_key_input ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Moves a child node to a different position (order) among the other children. Since calls, signals, etc are performed by tree order, changing the order of children nodes may be useful."] # [doc = ""] # [inline] pub fn move_child (& self , child_node : impl AsArg < crate :: generated :: node :: Node > , to_position : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . move_child ; let ret = crate :: icalls :: icallptr_void_obj_i64 (method_bind , self . this . sys () . as_ptr () , child_node . as_arg_ptr () , to_position) ; } } # [doc = "Prints all stray nodes (nodes outside the [SceneTree]). Used for debugging. Works only in debug builds."] # [doc = ""] # [inline] pub fn print_stray_nodes (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . print_stray_nodes ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nPrints the tree to stdout. Used mainly for debugging purposes. This version displays the path relative to the current node, and is good for copy/pasting into the [method get_node] function.\n**Example output:**\n```gdscript\nTheGame\nTheGame/Menu\nTheGame/Menu/Label\nTheGame/Menu/Camera2D\nTheGame/SplashScreen\nTheGame/SplashScreen/Camera2D\n```"] # [doc = ""] # [inline] pub fn print_tree (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . print_tree ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nSimilar to [method print_tree], this prints the tree to stdout. This version displays a more graphical representation similar to what is displayed in the scene inspector. It is useful for inspecting larger trees.\n**Example output:**\n```gdscript\n ┖╴TheGame\n ┠╴Menu\n ┃ ┠╴Label\n ┃ ┖╴Camera2D\n ┖╴SplashScreen\n ┖╴Camera2D\n```"] # [doc = ""] # [inline] pub fn print_tree_pretty (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . print_tree_pretty ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Calls the given method (if present) with the arguments given in `args` on this node and recursively on all its children. If the `parent_first` argument is `true`, the method will be called on the current node first, then on all its children. If `parent_first` is `false`, the children will be called first.\n# Default Arguments\n* `args` - `[ ]`\n* `parent_first` - `false`"] # [doc = ""] # [inline] pub fn propagate_call (& self , method : impl Into < GodotString > , args : VariantArray , parent_first : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . propagate_call ; let ret = crate :: icalls :: icallptr_void_str_arr_bool (method_bind , self . this . sys () . as_ptr () , method . into () , args , parent_first) ; } } # [doc = "Notifies the current node and all its children recursively by calling [method Object.notification] on all of them."] # [doc = ""] # [inline] pub fn propagate_notification (& self , what : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . propagate_notification ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , what) ; } } # [doc = "Queues a node for deletion at the end of the current frame. When deleted, all of its child nodes will be deleted as well. This method ensures it's safe to delete the node, contrary to [method Object.free]. Use [method Object.is_queued_for_deletion] to check whether a node will be deleted at the end of the frame."] # [doc = ""] # [inline] pub fn queue_free (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . queue_free ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Moves this node to the bottom of parent node's children hierarchy. This is often useful in GUIs ([Control] nodes), because their order of drawing depends on their order in the tree, i.e. the further they are on the node list, the higher they are drawn. After using `raise`, a Control will be drawn on top of their siblings."] # [doc = ""] # [inline] pub fn raise (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . raise ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes a node and sets all its children as children of the parent node (if it exists). All event subscriptions that pass by the removed node will be unsubscribed."] # [doc = ""] # [inline] pub fn remove_and_skip (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . remove_and_skip ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Removes a child node. The node is NOT deleted and must be deleted manually."] # [doc = ""] # [inline] pub fn remove_child (& self , node : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . remove_child ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr ()) ; } } # [doc = "Removes a node from a group. See notes in the description, and the group methods in [SceneTree]."] # [doc = ""] # [inline] pub fn remove_from_group (& self , group : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . remove_from_group ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , group . into ()) ; } } # [doc = "Replaces a node in a scene by the given one. Subscriptions that pass through this node will be lost.\n# Default Arguments\n* `keep_data` - `false`"] # [doc = ""] # [inline] pub fn replace_by (& self , node : impl AsArg < crate :: generated :: node :: Node > , keep_data : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . replace_by ; let ret = crate :: icalls :: icallptr_void_obj_bool (method_bind , self . this . sys () . as_ptr () , node . as_arg_ptr () , keep_data) ; } } # [doc = "Requests that `_ready` be called again. Note that the method won't be called immediately, but is scheduled for when the node is added to the scene tree again (see [method _ready]). `_ready` is called only for the node which requested it, which means that you need to request ready for each child if you want them to call `_ready` too (in which case, `_ready` will be called in the same order as it would normally)."] # [doc = ""] # [inline] pub fn request_ready (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . request_ready ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Sends a remote procedure call request for the given `method` to peers on the network (and locally), optionally sending all additional arguments as arguments to the method called by the RPC. The call request will only be received by nodes with the same [NodePath], including the exact same node name. Behaviour depends on the RPC configuration for the given method, see [method rpc_config]. Methods are not exposed to RPCs by default. See also [method rset] and [method rset_config] for properties. Returns an empty [Variant].\n**Note:** You can only safely use RPCs on clients after you received the `connected_to_server` signal from the [SceneTree]. You also need to keep track of the connection state, either by the [SceneTree] signals like `server_disconnected` or by checking `SceneTree.network_peer.get_connection_status() == CONNECTION_CONNECTED`."] # [doc = ""] # [inline] pub fn rpc (& self , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rpc ; let ret = crate :: icalls :: icallvarargs__str (method_bind , self . this . sys () . as_ptr () , method . into () , varargs) ; ret } } # [doc = "Changes the RPC mode for the given `method` to the given `mode`. See [enum MultiplayerAPI.RPCMode]. An alternative is annotating methods and properties with the corresponding keywords (`remote`, `master`, `puppet`, `remotesync`, `mastersync`, `puppetsync`). By default, methods are not exposed to networking (and RPCs). See also [method rset] and [method rset_config] for properties."] # [doc = ""] # [inline] pub fn rpc_config (& self , method : impl Into < GodotString > , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rpc_config ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , method . into () , mode) ; } } # [doc = "Sends a [method rpc] to a specific peer identified by `peer_id` (see [method NetworkedMultiplayerPeer.set_target_peer]). Returns an empty [Variant]."] # [doc = ""] # [inline] pub fn rpc_id (& self , peer_id : i64 , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rpc_id ; let ret = crate :: icalls :: icallvarargs__i64_str (method_bind , self . this . sys () . as_ptr () , peer_id , method . into () , varargs) ; ret } } # [doc = "Sends a [method rpc] using an unreliable protocol. Returns an empty [Variant]."] # [doc = ""] # [inline] pub fn rpc_unreliable (& self , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rpc_unreliable ; let ret = crate :: icalls :: icallvarargs__str (method_bind , self . this . sys () . as_ptr () , method . into () , varargs) ; ret } } # [doc = "Sends a [method rpc] to a specific peer identified by `peer_id` using an unreliable protocol (see [method NetworkedMultiplayerPeer.set_target_peer]). Returns an empty [Variant]."] # [doc = ""] # [inline] pub fn rpc_unreliable_id (& self , peer_id : i64 , method : impl Into < GodotString > , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rpc_unreliable_id ; let ret = crate :: icalls :: icallvarargs__i64_str (method_bind , self . this . sys () . as_ptr () , peer_id , method . into () , varargs) ; ret } } # [doc = "Remotely changes a property's value on other peers (and locally). Behaviour depends on the RPC configuration for the given property, see [method rset_config]. See also [method rpc] for RPCs for methods, most information applies to this method as well."] # [doc = ""] # [inline] pub fn rset (& self , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rset ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Changes the RPC mode for the given `property` to the given `mode`. See [enum MultiplayerAPI.RPCMode]. An alternative is annotating methods and properties with the corresponding keywords (`remote`, `master`, `puppet`, `remotesync`, `mastersync`, `puppetsync`). By default, properties are not exposed to networking (and RPCs). See also [method rpc] and [method rpc_config] for methods."] # [doc = ""] # [inline] pub fn rset_config (& self , property : impl Into < GodotString > , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rset_config ; let ret = crate :: icalls :: icallptr_void_str_i64 (method_bind , self . this . sys () . as_ptr () , property . into () , mode) ; } } # [doc = "Remotely changes the property's value on a specific peer identified by `peer_id` (see [method NetworkedMultiplayerPeer.set_target_peer])."] # [doc = ""] # [inline] pub fn rset_id (& self , peer_id : i64 , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rset_id ; let ret = crate :: icalls :: icallptr_void_i64_str_var (method_bind , self . this . sys () . as_ptr () , peer_id , property . into () , value . owned_to_variant ()) ; } } # [doc = "Remotely changes the property's value on other peers (and locally) using an unreliable protocol."] # [doc = ""] # [inline] pub fn rset_unreliable (& self , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rset_unreliable ; let ret = crate :: icalls :: icallptr_void_str_var (method_bind , self . this . sys () . as_ptr () , property . into () , value . owned_to_variant ()) ; } } # [doc = "Remotely changes property's value on a specific peer identified by `peer_id` using an unreliable protocol (see [method NetworkedMultiplayerPeer.set_target_peer])."] # [doc = ""] # [inline] pub fn rset_unreliable_id (& self , peer_id : i64 , property : impl Into < GodotString > , value : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . rset_unreliable_id ; let ret = crate :: icalls :: icallptr_void_i64_str_var (method_bind , self . this . sys () . as_ptr () , peer_id , property . into () , value . owned_to_variant ()) ; } } # [doc = "The override to the default [MultiplayerAPI]. Set to `null` to use the default [SceneTree] one."] # [doc = ""] # [inline] pub fn set_custom_multiplayer (& self , api : impl AsArg < crate :: generated :: multiplayer_api :: MultiplayerAPI >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_custom_multiplayer ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , api . as_arg_ptr ()) ; } } # [doc = "Sets the folded state of the node in the Scene dock."] # [doc = ""] # [inline] pub fn set_display_folded (& self , fold : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_display_folded ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , fold) ; } } # [doc = "When a scene is instanced from a file, its topmost node contains the filename from which it was loaded."] # [doc = ""] # [inline] pub fn set_filename (& self , filename : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_filename ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , filename . into ()) ; } } # [doc = "The name of the node. This name is unique among the siblings (other child nodes from the same parent). When set to an existing name, the node will be automatically renamed."] # [doc = ""] # [inline] pub fn set_name (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } # [doc = "Sets the node's network master to the peer with the given peer ID. The network master is the peer that has authority over the node on the network. Useful in conjunction with the `master` and `puppet` keywords. Inherited from the parent node by default, which ultimately defaults to peer ID 1 (the server). If `recursive`, the given peer is recursively set as the master for all children of this node.\n# Default Arguments\n* `recursive` - `true`"] # [doc = ""] # [inline] pub fn set_network_master (& self , id : i64 , recursive : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_network_master ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , id , recursive) ; } } # [doc = "The node owner. A node can have any other node as owner (as long as it is a valid parent, grandparent, etc. ascending in the tree). When saving a node (using [PackedScene]), all the nodes it owns will be saved with it. This allows for the creation of complex [SceneTree]s, with instancing and subinstancing."] # [doc = ""] # [inline] pub fn set_owner (& self , owner : impl AsArg < crate :: generated :: node :: Node >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_owner ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , owner . as_arg_ptr ()) ; } } # [doc = "Pause mode. How the node will behave if the [SceneTree] is paused."] # [doc = ""] # [inline] pub fn set_pause_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_pause_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Enables or disables physics (i.e. fixed framerate) processing. When a node is being processed, it will receive a [constant NOTIFICATION_PHYSICS_PROCESS] at a fixed (usually 60 FPS, see [member Engine.iterations_per_second] to change) interval (and the [method _physics_process] callback will be called if exists). Enabled automatically if [method _physics_process] is overridden. Any calls to this before [method _ready] will be ignored."] # [doc = ""] # [inline] pub fn set_physics_process (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_physics_process ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Enables or disables internal physics for this node. Internal physics processing happens in isolation from the normal [method _physics_process] calls and is used by some nodes internally to guarantee proper functioning even if the node is paused or physics processing is disabled for scripting ([method set_physics_process]). Only useful for advanced uses to manipulate built-in nodes' behaviour."] # [doc = ""] # [inline] pub fn set_physics_process_internal (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_physics_process_internal ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Enables or disables processing. When a node is being processed, it will receive a [constant NOTIFICATION_PROCESS] on every drawn frame (and the [method _process] callback will be called if exists). Enabled automatically if [method _process] is overridden. Any calls to this before [method _ready] will be ignored."] # [doc = ""] # [inline] pub fn set_process (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_process ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Enables or disables input processing. This is not required for GUI controls! Enabled automatically if [method _input] is overridden. Any calls to this before [method _ready] will be ignored."] # [doc = ""] # [inline] pub fn set_process_input (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_process_input ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Enables or disabled internal processing for this node. Internal processing happens in isolation from the normal [method _process] calls and is used by some nodes internally to guarantee proper functioning even if the node is paused or processing is disabled for scripting ([method set_process]). Only useful for advanced uses to manipulate built-in nodes' behaviour."] # [doc = ""] # [inline] pub fn set_process_internal (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_process_internal ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The node's priority in the execution order of the enabled processing callbacks (i.e. [constant NOTIFICATION_PROCESS], [constant NOTIFICATION_PHYSICS_PROCESS] and their internal counterparts). Nodes whose process priority value is [i]lower[/i] will have their processing callbacks executed first."] # [doc = ""] # [inline] pub fn set_process_priority (& self , priority : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_process_priority ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , priority) ; } } # [doc = "Enables unhandled input processing. This is not required for GUI controls! It enables the node to receive all input that was not previously handled (usually by a [Control]). Enabled automatically if [method _unhandled_input] is overridden. Any calls to this before [method _ready] will be ignored."] # [doc = ""] # [inline] pub fn set_process_unhandled_input (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_process_unhandled_input ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Enables unhandled key input processing. Enabled automatically if [method _unhandled_key_input] is overridden. Any calls to this before [method _ready] will be ignored."] # [doc = ""] # [inline] pub fn set_process_unhandled_key_input (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_process_unhandled_key_input ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Sets whether this is an instance load placeholder. See [InstancePlaceholder]."] # [doc = ""] # [inline] pub fn set_scene_instance_load_placeholder (& self , load_placeholder : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . set_scene_instance_load_placeholder ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , load_placeholder) ; } } # [doc = "Updates the warning displayed for this node in the Scene Dock.\nUse [method _get_configuration_warning] to setup the warning message to display."] # [doc = ""] # [inline] pub fn update_configuration_warning (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NodeMethodTable :: get (get_api ()) . update_configuration_warning ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Node { } unsafe impl GodotObject for Node { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Node" } } impl QueueFree for Node { # [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 Node { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Node { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for Node { } impl Instanciable for Node { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Node :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct NodeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_child : * mut sys :: godot_method_bind , pub add_child_below_node : * mut sys :: godot_method_bind , pub add_to_group : * mut sys :: godot_method_bind , pub can_process : * mut sys :: godot_method_bind , pub duplicate : * mut sys :: godot_method_bind , pub find_node : * mut sys :: godot_method_bind , pub find_parent : * mut sys :: godot_method_bind , pub get_child : * mut sys :: godot_method_bind , pub get_child_count : * mut sys :: godot_method_bind , pub get_children : * mut sys :: godot_method_bind , pub get_custom_multiplayer : * mut sys :: godot_method_bind , pub get_filename : * mut sys :: godot_method_bind , pub get_groups : * mut sys :: godot_method_bind , pub get_index : * mut sys :: godot_method_bind , pub get_multiplayer : * mut sys :: godot_method_bind , pub get_name : * mut sys :: godot_method_bind , pub get_network_master : * mut sys :: godot_method_bind , pub get_node : * mut sys :: godot_method_bind , pub get_node_and_resource : * mut sys :: godot_method_bind , pub get_node_or_null : * mut sys :: godot_method_bind , pub get_owner : * mut sys :: godot_method_bind , pub get_parent : * mut sys :: godot_method_bind , pub get_path : * mut sys :: godot_method_bind , pub get_path_to : * mut sys :: godot_method_bind , pub get_pause_mode : * mut sys :: godot_method_bind , pub get_physics_process_delta_time : * mut sys :: godot_method_bind , pub get_position_in_parent : * mut sys :: godot_method_bind , pub get_process_delta_time : * mut sys :: godot_method_bind , pub get_process_priority : * mut sys :: godot_method_bind , pub get_scene_instance_load_placeholder : * mut sys :: godot_method_bind , pub get_tree : * mut sys :: godot_method_bind , pub get_viewport : * mut sys :: godot_method_bind , pub has_node : * mut sys :: godot_method_bind , pub has_node_and_resource : * mut sys :: godot_method_bind , pub is_a_parent_of : * mut sys :: godot_method_bind , pub is_displayed_folded : * mut sys :: godot_method_bind , pub is_greater_than : * mut sys :: godot_method_bind , pub is_in_group : * mut sys :: godot_method_bind , pub is_inside_tree : * mut sys :: godot_method_bind , pub is_network_master : * mut sys :: godot_method_bind , pub is_physics_processing : * mut sys :: godot_method_bind , pub is_physics_processing_internal : * mut sys :: godot_method_bind , pub is_processing : * mut sys :: godot_method_bind , pub is_processing_input : * mut sys :: godot_method_bind , pub is_processing_internal : * mut sys :: godot_method_bind , pub is_processing_unhandled_input : * mut sys :: godot_method_bind , pub is_processing_unhandled_key_input : * mut sys :: godot_method_bind , pub move_child : * mut sys :: godot_method_bind , pub print_stray_nodes : * mut sys :: godot_method_bind , pub print_tree : * mut sys :: godot_method_bind , pub print_tree_pretty : * mut sys :: godot_method_bind , pub propagate_call : * mut sys :: godot_method_bind , pub propagate_notification : * mut sys :: godot_method_bind , pub queue_free : * mut sys :: godot_method_bind , pub raise : * mut sys :: godot_method_bind , pub remove_and_skip : * mut sys :: godot_method_bind , pub remove_child : * mut sys :: godot_method_bind , pub remove_from_group : * mut sys :: godot_method_bind , pub replace_by : * mut sys :: godot_method_bind , pub request_ready : * mut sys :: godot_method_bind , pub rpc : * mut sys :: godot_method_bind , pub rpc_config : * mut sys :: godot_method_bind , pub rpc_id : * mut sys :: godot_method_bind , pub rpc_unreliable : * mut sys :: godot_method_bind , pub rpc_unreliable_id : * mut sys :: godot_method_bind , pub rset : * mut sys :: godot_method_bind , pub rset_config : * mut sys :: godot_method_bind , pub rset_id : * mut sys :: godot_method_bind , pub rset_unreliable : * mut sys :: godot_method_bind , pub rset_unreliable_id : * mut sys :: godot_method_bind , pub set_custom_multiplayer : * mut sys :: godot_method_bind , pub set_display_folded : * mut sys :: godot_method_bind , pub set_filename : * mut sys :: godot_method_bind , pub set_name : * mut sys :: godot_method_bind , pub set_network_master : * mut sys :: godot_method_bind , pub set_owner : * mut sys :: godot_method_bind , pub set_pause_mode : * mut sys :: godot_method_bind , pub set_physics_process : * mut sys :: godot_method_bind , pub set_physics_process_internal : * mut sys :: godot_method_bind , pub set_process : * mut sys :: godot_method_bind , pub set_process_input : * mut sys :: godot_method_bind , pub set_process_internal : * mut sys :: godot_method_bind , pub set_process_priority : * mut sys :: godot_method_bind , pub set_process_unhandled_input : * mut sys :: godot_method_bind , pub set_process_unhandled_key_input : * mut sys :: godot_method_bind , pub set_scene_instance_load_placeholder : * mut sys :: godot_method_bind , pub update_configuration_warning : * mut sys :: godot_method_bind } impl NodeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : NodeMethodTable = NodeMethodTable { class_constructor : None , add_child : 0 as * mut sys :: godot_method_bind , add_child_below_node : 0 as * mut sys :: godot_method_bind , add_to_group : 0 as * mut sys :: godot_method_bind , can_process : 0 as * mut sys :: godot_method_bind , duplicate : 0 as * mut sys :: godot_method_bind , find_node : 0 as * mut sys :: godot_method_bind , find_parent : 0 as * mut sys :: godot_method_bind , get_child : 0 as * mut sys :: godot_method_bind , get_child_count : 0 as * mut sys :: godot_method_bind , get_children : 0 as * mut sys :: godot_method_bind , get_custom_multiplayer : 0 as * mut sys :: godot_method_bind , get_filename : 0 as * mut sys :: godot_method_bind , get_groups : 0 as * mut sys :: godot_method_bind , get_index : 0 as * mut sys :: godot_method_bind , get_multiplayer : 0 as * mut sys :: godot_method_bind , get_name : 0 as * mut sys :: godot_method_bind , get_network_master : 0 as * mut sys :: godot_method_bind , get_node : 0 as * mut sys :: godot_method_bind , get_node_and_resource : 0 as * mut sys :: godot_method_bind , get_node_or_null : 0 as * mut sys :: godot_method_bind , get_owner : 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_path_to : 0 as * mut sys :: godot_method_bind , get_pause_mode : 0 as * mut sys :: godot_method_bind , get_physics_process_delta_time : 0 as * mut sys :: godot_method_bind , get_position_in_parent : 0 as * mut sys :: godot_method_bind , get_process_delta_time : 0 as * mut sys :: godot_method_bind , get_process_priority : 0 as * mut sys :: godot_method_bind , get_scene_instance_load_placeholder : 0 as * mut sys :: godot_method_bind , get_tree : 0 as * mut sys :: godot_method_bind , get_viewport : 0 as * mut sys :: godot_method_bind , has_node : 0 as * mut sys :: godot_method_bind , has_node_and_resource : 0 as * mut sys :: godot_method_bind , is_a_parent_of : 0 as * mut sys :: godot_method_bind , is_displayed_folded : 0 as * mut sys :: godot_method_bind , is_greater_than : 0 as * mut sys :: godot_method_bind , is_in_group : 0 as * mut sys :: godot_method_bind , is_inside_tree : 0 as * mut sys :: godot_method_bind , is_network_master : 0 as * mut sys :: godot_method_bind , is_physics_processing : 0 as * mut sys :: godot_method_bind , is_physics_processing_internal : 0 as * mut sys :: godot_method_bind , is_processing : 0 as * mut sys :: godot_method_bind , is_processing_input : 0 as * mut sys :: godot_method_bind , is_processing_internal : 0 as * mut sys :: godot_method_bind , is_processing_unhandled_input : 0 as * mut sys :: godot_method_bind , is_processing_unhandled_key_input : 0 as * mut sys :: godot_method_bind , move_child : 0 as * mut sys :: godot_method_bind , print_stray_nodes : 0 as * mut sys :: godot_method_bind , print_tree : 0 as * mut sys :: godot_method_bind , print_tree_pretty : 0 as * mut sys :: godot_method_bind , propagate_call : 0 as * mut sys :: godot_method_bind , propagate_notification : 0 as * mut sys :: godot_method_bind , queue_free : 0 as * mut sys :: godot_method_bind , raise : 0 as * mut sys :: godot_method_bind , remove_and_skip : 0 as * mut sys :: godot_method_bind , remove_child : 0 as * mut sys :: godot_method_bind , remove_from_group : 0 as * mut sys :: godot_method_bind , replace_by : 0 as * mut sys :: godot_method_bind , request_ready : 0 as * mut sys :: godot_method_bind , rpc : 0 as * mut sys :: godot_method_bind , rpc_config : 0 as * mut sys :: godot_method_bind , rpc_id : 0 as * mut sys :: godot_method_bind , rpc_unreliable : 0 as * mut sys :: godot_method_bind , rpc_unreliable_id : 0 as * mut sys :: godot_method_bind , rset : 0 as * mut sys :: godot_method_bind , rset_config : 0 as * mut sys :: godot_method_bind , rset_id : 0 as * mut sys :: godot_method_bind , rset_unreliable : 0 as * mut sys :: godot_method_bind , rset_unreliable_id : 0 as * mut sys :: godot_method_bind , set_custom_multiplayer : 0 as * mut sys :: godot_method_bind , set_display_folded : 0 as * mut sys :: godot_method_bind , set_filename : 0 as * mut sys :: godot_method_bind , set_name : 0 as * mut sys :: godot_method_bind , set_network_master : 0 as * mut sys :: godot_method_bind , set_owner : 0 as * mut sys :: godot_method_bind , set_pause_mode : 0 as * mut sys :: godot_method_bind , set_physics_process : 0 as * mut sys :: godot_method_bind , set_physics_process_internal : 0 as * mut sys :: godot_method_bind , set_process : 0 as * mut sys :: godot_method_bind , set_process_input : 0 as * mut sys :: godot_method_bind , set_process_internal : 0 as * mut sys :: godot_method_bind , set_process_priority : 0 as * mut sys :: godot_method_bind , set_process_unhandled_input : 0 as * mut sys :: godot_method_bind , set_process_unhandled_key_input : 0 as * mut sys :: godot_method_bind , set_scene_instance_load_placeholder : 0 as * mut sys :: godot_method_bind , update_configuration_warning : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { NodeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Node\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_child = (gd_api . godot_method_bind_get_method) (class_name , "add_child\0" . as_ptr () as * const c_char) ; table . add_child_below_node = (gd_api . godot_method_bind_get_method) (class_name , "add_child_below_node\0" . as_ptr () as * const c_char) ; table . add_to_group = (gd_api . godot_method_bind_get_method) (class_name , "add_to_group\0" . as_ptr () as * const c_char) ; table . can_process = (gd_api . godot_method_bind_get_method) (class_name , "can_process\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 . find_node = (gd_api . godot_method_bind_get_method) (class_name , "find_node\0" . as_ptr () as * const c_char) ; table . find_parent = (gd_api . godot_method_bind_get_method) (class_name , "find_parent\0" . as_ptr () as * const c_char) ; table . get_child = (gd_api . godot_method_bind_get_method) (class_name , "get_child\0" . as_ptr () as * const c_char) ; table . get_child_count = (gd_api . godot_method_bind_get_method) (class_name , "get_child_count\0" . as_ptr () as * const c_char) ; table . get_children = (gd_api . godot_method_bind_get_method) (class_name , "get_children\0" . as_ptr () as * const c_char) ; table . get_custom_multiplayer = (gd_api . godot_method_bind_get_method) (class_name , "get_custom_multiplayer\0" . as_ptr () as * const c_char) ; table . get_filename = (gd_api . godot_method_bind_get_method) (class_name , "get_filename\0" . as_ptr () as * const c_char) ; table . get_groups = (gd_api . godot_method_bind_get_method) (class_name , "get_groups\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_multiplayer = (gd_api . godot_method_bind_get_method) (class_name , "get_multiplayer\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_network_master = (gd_api . godot_method_bind_get_method) (class_name , "get_network_master\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_and_resource = (gd_api . godot_method_bind_get_method) (class_name , "get_node_and_resource\0" . as_ptr () as * const c_char) ; table . get_node_or_null = (gd_api . godot_method_bind_get_method) (class_name , "get_node_or_null\0" . as_ptr () as * const c_char) ; table . get_owner = (gd_api . godot_method_bind_get_method) (class_name , "get_owner\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_path_to = (gd_api . godot_method_bind_get_method) (class_name , "get_path_to\0" . as_ptr () as * const c_char) ; table . get_pause_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_pause_mode\0" . as_ptr () as * const c_char) ; table . get_physics_process_delta_time = (gd_api . godot_method_bind_get_method) (class_name , "get_physics_process_delta_time\0" . as_ptr () as * const c_char) ; table . get_position_in_parent = (gd_api . godot_method_bind_get_method) (class_name , "get_position_in_parent\0" . as_ptr () as * const c_char) ; table . get_process_delta_time = (gd_api . godot_method_bind_get_method) (class_name , "get_process_delta_time\0" . as_ptr () as * const c_char) ; table . get_process_priority = (gd_api . godot_method_bind_get_method) (class_name , "get_process_priority\0" . as_ptr () as * const c_char) ; table . get_scene_instance_load_placeholder = (gd_api . godot_method_bind_get_method) (class_name , "get_scene_instance_load_placeholder\0" . as_ptr () as * const c_char) ; table . get_tree = (gd_api . godot_method_bind_get_method) (class_name , "get_tree\0" . as_ptr () as * const c_char) ; table . get_viewport = (gd_api . godot_method_bind_get_method) (class_name , "get_viewport\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_node_and_resource = (gd_api . godot_method_bind_get_method) (class_name , "has_node_and_resource\0" . as_ptr () as * const c_char) ; table . is_a_parent_of = (gd_api . godot_method_bind_get_method) (class_name , "is_a_parent_of\0" . as_ptr () as * const c_char) ; table . is_displayed_folded = (gd_api . godot_method_bind_get_method) (class_name , "is_displayed_folded\0" . as_ptr () as * const c_char) ; table . is_greater_than = (gd_api . godot_method_bind_get_method) (class_name , "is_greater_than\0" . as_ptr () as * const c_char) ; table . is_in_group = (gd_api . godot_method_bind_get_method) (class_name , "is_in_group\0" . as_ptr () as * const c_char) ; table . is_inside_tree = (gd_api . godot_method_bind_get_method) (class_name , "is_inside_tree\0" . as_ptr () as * const c_char) ; table . is_network_master = (gd_api . godot_method_bind_get_method) (class_name , "is_network_master\0" . as_ptr () as * const c_char) ; table . is_physics_processing = (gd_api . godot_method_bind_get_method) (class_name , "is_physics_processing\0" . as_ptr () as * const c_char) ; table . is_physics_processing_internal = (gd_api . godot_method_bind_get_method) (class_name , "is_physics_processing_internal\0" . as_ptr () as * const c_char) ; table . is_processing = (gd_api . godot_method_bind_get_method) (class_name , "is_processing\0" . as_ptr () as * const c_char) ; table . is_processing_input = (gd_api . godot_method_bind_get_method) (class_name , "is_processing_input\0" . as_ptr () as * const c_char) ; table . is_processing_internal = (gd_api . godot_method_bind_get_method) (class_name , "is_processing_internal\0" . as_ptr () as * const c_char) ; table . is_processing_unhandled_input = (gd_api . godot_method_bind_get_method) (class_name , "is_processing_unhandled_input\0" . as_ptr () as * const c_char) ; table . is_processing_unhandled_key_input = (gd_api . godot_method_bind_get_method) (class_name , "is_processing_unhandled_key_input\0" . as_ptr () as * const c_char) ; table . move_child = (gd_api . godot_method_bind_get_method) (class_name , "move_child\0" . as_ptr () as * const c_char) ; table . print_stray_nodes = (gd_api . godot_method_bind_get_method) (class_name , "print_stray_nodes\0" . as_ptr () as * const c_char) ; table . print_tree = (gd_api . godot_method_bind_get_method) (class_name , "print_tree\0" . as_ptr () as * const c_char) ; table . print_tree_pretty = (gd_api . godot_method_bind_get_method) (class_name , "print_tree_pretty\0" . as_ptr () as * const c_char) ; table . propagate_call = (gd_api . godot_method_bind_get_method) (class_name , "propagate_call\0" . as_ptr () as * const c_char) ; table . propagate_notification = (gd_api . godot_method_bind_get_method) (class_name , "propagate_notification\0" . as_ptr () as * const c_char) ; table . queue_free = (gd_api . godot_method_bind_get_method) (class_name , "queue_free\0" . as_ptr () as * const c_char) ; table . raise = (gd_api . godot_method_bind_get_method) (class_name , "raise\0" . as_ptr () as * const c_char) ; table . remove_and_skip = (gd_api . godot_method_bind_get_method) (class_name , "remove_and_skip\0" . as_ptr () as * const c_char) ; table . remove_child = (gd_api . godot_method_bind_get_method) (class_name , "remove_child\0" . as_ptr () as * const c_char) ; table . remove_from_group = (gd_api . godot_method_bind_get_method) (class_name , "remove_from_group\0" . as_ptr () as * const c_char) ; table . replace_by = (gd_api . godot_method_bind_get_method) (class_name , "replace_by\0" . as_ptr () as * const c_char) ; table . request_ready = (gd_api . godot_method_bind_get_method) (class_name , "request_ready\0" . as_ptr () as * const c_char) ; table . rpc = (gd_api . godot_method_bind_get_method) (class_name , "rpc\0" . as_ptr () as * const c_char) ; table . rpc_config = (gd_api . godot_method_bind_get_method) (class_name , "rpc_config\0" . as_ptr () as * const c_char) ; table . rpc_id = (gd_api . godot_method_bind_get_method) (class_name , "rpc_id\0" . as_ptr () as * const c_char) ; table . rpc_unreliable = (gd_api . godot_method_bind_get_method) (class_name , "rpc_unreliable\0" . as_ptr () as * const c_char) ; table . rpc_unreliable_id = (gd_api . godot_method_bind_get_method) (class_name , "rpc_unreliable_id\0" . as_ptr () as * const c_char) ; table . rset = (gd_api . godot_method_bind_get_method) (class_name , "rset\0" . as_ptr () as * const c_char) ; table . rset_config = (gd_api . godot_method_bind_get_method) (class_name , "rset_config\0" . as_ptr () as * const c_char) ; table . rset_id = (gd_api . godot_method_bind_get_method) (class_name , "rset_id\0" . as_ptr () as * const c_char) ; table . rset_unreliable = (gd_api . godot_method_bind_get_method) (class_name , "rset_unreliable\0" . as_ptr () as * const c_char) ; table . rset_unreliable_id = (gd_api . godot_method_bind_get_method) (class_name , "rset_unreliable_id\0" . as_ptr () as * const c_char) ; table . set_custom_multiplayer = (gd_api . godot_method_bind_get_method) (class_name , "set_custom_multiplayer\0" . as_ptr () as * const c_char) ; table . set_display_folded = (gd_api . godot_method_bind_get_method) (class_name , "set_display_folded\0" . as_ptr () as * const c_char) ; table . set_filename = (gd_api . godot_method_bind_get_method) (class_name , "set_filename\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_network_master = (gd_api . godot_method_bind_get_method) (class_name , "set_network_master\0" . as_ptr () as * const c_char) ; table . set_owner = (gd_api . godot_method_bind_get_method) (class_name , "set_owner\0" . as_ptr () as * const c_char) ; table . set_pause_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_pause_mode\0" . as_ptr () as * const c_char) ; table . set_physics_process = (gd_api . godot_method_bind_get_method) (class_name , "set_physics_process\0" . as_ptr () as * const c_char) ; table . set_physics_process_internal = (gd_api . godot_method_bind_get_method) (class_name , "set_physics_process_internal\0" . as_ptr () as * const c_char) ; table . set_process = (gd_api . godot_method_bind_get_method) (class_name , "set_process\0" . as_ptr () as * const c_char) ; table . set_process_input = (gd_api . godot_method_bind_get_method) (class_name , "set_process_input\0" . as_ptr () as * const c_char) ; table . set_process_internal = (gd_api . godot_method_bind_get_method) (class_name , "set_process_internal\0" . as_ptr () as * const c_char) ; table . set_process_priority = (gd_api . godot_method_bind_get_method) (class_name , "set_process_priority\0" . as_ptr () as * const c_char) ; table . set_process_unhandled_input = (gd_api . godot_method_bind_get_method) (class_name , "set_process_unhandled_input\0" . as_ptr () as * const c_char) ; table . set_process_unhandled_key_input = (gd_api . godot_method_bind_get_method) (class_name , "set_process_unhandled_key_input\0" . as_ptr () as * const c_char) ; table . set_scene_instance_load_placeholder = (gd_api . godot_method_bind_get_method) (class_name , "set_scene_instance_load_placeholder\0" . as_ptr () as * const c_char) ; table . update_configuration_warning = (gd_api . godot_method_bind_get_method) (class_name , "update_configuration_warning\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:616:35317 [INFO] [stdout] | [INFO] [stdout] 616 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 singleton class Geometry` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_geometry.html) 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\nGeometry 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 Geometry { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PolyBooleanOperation (pub i64) ; impl PolyBooleanOperation { pub const UNION : PolyBooleanOperation = PolyBooleanOperation (0i64) ; pub const DIFFERENCE : PolyBooleanOperation = PolyBooleanOperation (1i64) ; pub const INTERSECTION : PolyBooleanOperation = PolyBooleanOperation (2i64) ; pub const XOR : PolyBooleanOperation = PolyBooleanOperation (3i64) ; } impl From < i64 > for PolyBooleanOperation { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PolyBooleanOperation > for i64 { # [inline] fn from (v : PolyBooleanOperation) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PolyEndType (pub i64) ; impl PolyEndType { pub const POLYGON : PolyEndType = PolyEndType (0i64) ; pub const JOINED : PolyEndType = PolyEndType (1i64) ; pub const BUTT : PolyEndType = PolyEndType (2i64) ; pub const SQUARE : PolyEndType = PolyEndType (3i64) ; pub const ROUND : PolyEndType = PolyEndType (4i64) ; } impl From < i64 > for PolyEndType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PolyEndType > for i64 { # [inline] fn from (v : PolyEndType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PolyJoinType (pub i64) ; impl PolyJoinType { pub const SQUARE : PolyJoinType = PolyJoinType (0i64) ; pub const ROUND : PolyJoinType = PolyJoinType (1i64) ; pub const MITER : PolyJoinType = PolyJoinType (2i64) ; } impl From < i64 > for PolyJoinType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PolyJoinType > for i64 { # [inline] fn from (v : PolyJoinType) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Geometry { pub const END_BUTT : i64 = 2i64 ; pub const END_JOINED : i64 = 1i64 ; pub const END_POLYGON : i64 = 0i64 ; pub const END_ROUND : i64 = 4i64 ; pub const END_SQUARE : i64 = 3i64 ; pub const JOIN_MITER : i64 = 2i64 ; pub const JOIN_ROUND : i64 = 1i64 ; pub const JOIN_SQUARE : i64 = 0i64 ; pub const OPERATION_DIFFERENCE : i64 = 1i64 ; pub const OPERATION_INTERSECTION : i64 = 2i64 ; pub const OPERATION_UNION : i64 = 0i64 ; pub const OPERATION_XOR : i64 = 3i64 ; } impl Geometry { # [doc = "Returns a reference to the singleton instance."] # [inline] pub fn godot_singleton () -> & 'static Self { unsafe { let this = (get_api () . godot_global_get_singleton) ("Geometry\0" . as_ptr () as * mut _) ; let this = ptr :: NonNull :: new (this) . expect ("singleton should not be null") ; let this = RawObject :: from_sys_ref_unchecked :: < 'static > (this) ; Self :: cast_ref (this) } } # [doc = "Returns an array with 6 [Plane]s that describe the sides of a box centered at the origin. The box size is defined by `extents`, which represents one (positive) corner of the box (i.e. half its actual size)."] # [doc = ""] # [inline] pub fn build_box_planes (& self , extents : Vector3) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . build_box_planes ; let ret = crate :: icalls :: icallvar__vec3 (method_bind , self . this . sys () . as_ptr () , extents) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns an array of [Plane]s closely bounding a faceted capsule centered at the origin with radius `radius` and height `height`. The parameter `sides` defines how many planes will be generated for the side part of the capsule, whereas `lats` gives the number of latitudinal steps at the bottom and top of the capsule. The parameter `axis` describes the axis along which the capsule is oriented (0 for X, 1 for Y, 2 for Z).\n# Default Arguments\n* `axis` - `2`"] # [doc = ""] # [inline] pub fn build_capsule_planes (& self , radius : f64 , height : f64 , sides : i64 , lats : i64 , axis : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . build_capsule_planes ; let ret = crate :: icalls :: icallvar__f64_f64_i64_i64_i64 (method_bind , self . this . sys () . as_ptr () , radius , height , sides , lats , axis) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns an array of [Plane]s closely bounding a faceted cylinder centered at the origin with radius `radius` and height `height`. The parameter `sides` defines how many planes will be generated for the round part of the cylinder. The parameter `axis` describes the axis along which the cylinder is oriented (0 for X, 1 for Y, 2 for Z).\n# Default Arguments\n* `axis` - `2`"] # [doc = ""] # [inline] pub fn build_cylinder_planes (& self , radius : f64 , height : f64 , sides : i64 , axis : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . build_cylinder_planes ; let ret = crate :: icalls :: icallvar__f64_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , radius , height , sides , axis) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Clips the polygon defined by the points in `points` against the `plane` and returns the points of the clipped polygon."] # [doc = ""] # [inline] pub fn clip_polygon (& self , points : Vector3Array , plane : Plane) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . clip_polygon ; let ret = crate :: icalls :: icallptr_vec3arr_vec3arr_plane (method_bind , self . this . sys () . as_ptr () , points , plane) ; Vector3Array :: from_sys (ret) } } # [doc = "Clips `polygon_a` against `polygon_b` and returns an array of clipped polygons. This performs [constant OPERATION_DIFFERENCE] between polygons. Returns an empty array if `polygon_b` completely overlaps `polygon_a`.\nIf `polygon_b` is enclosed by `polygon_a`, returns an outer polygon (boundary) and inner polygon (hole) which could be distiguished by calling [method is_polygon_clockwise]."] # [doc = ""] # [inline] pub fn clip_polygons_2d (& self , polygon_a : Vector2Array , polygon_b : Vector2Array) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . clip_polygons_2d ; let ret = crate :: icalls :: icallvar__vec2arr_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon_a , polygon_b) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Clips `polyline` against `polygon` and returns an array of clipped polylines. This performs [constant OPERATION_DIFFERENCE] between the polyline and the polygon. This operation can be thought of as cutting a line with a closed shape."] # [doc = ""] # [inline] pub fn clip_polyline_with_polygon_2d (& self , polyline : Vector2Array , polygon : Vector2Array) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . clip_polyline_with_polygon_2d ; let ret = crate :: icalls :: icallvar__vec2arr_vec2arr (method_bind , self . this . sys () . as_ptr () , polyline , polygon) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Given an array of [Vector2]s, returns the convex hull as a list of points in counterclockwise order. The last point is the same as the first one."] # [doc = ""] # [inline] pub fn convex_hull_2d (& self , points : Vector2Array) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . convex_hull_2d ; let ret = crate :: icalls :: icallptr_vec2arr_vec2arr (method_bind , self . this . sys () . as_ptr () , points) ; Vector2Array :: from_sys (ret) } } # [doc = "Mutually excludes common area defined by intersection of `polygon_a` and `polygon_b` (see [method intersect_polygons_2d]) and returns an array of excluded polygons. This performs [constant OPERATION_XOR] between polygons. In other words, returns all but common area between polygons.\nThe operation may result in an outer polygon (boundary) and inner polygon (hole) produced which could be distiguished by calling [method is_polygon_clockwise]."] # [doc = ""] # [inline] pub fn exclude_polygons_2d (& self , polygon_a : Vector2Array , polygon_b : Vector2Array) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . exclude_polygons_2d ; let ret = crate :: icalls :: icallvar__vec2arr_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon_a , polygon_b) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the 3D point on the 3D segment (`s1`, `s2`) that is closest to `point`. The returned point will always be inside the specified segment."] # [doc = ""] # [inline] pub fn get_closest_point_to_segment (& self , point : Vector3 , s1 : Vector3 , s2 : Vector3) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . get_closest_point_to_segment ; let ret = crate :: icalls :: icallptr_vec3_vec3_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , point , s1 , s2) ; mem :: transmute (ret) } } # [doc = "Returns the 2D point on the 2D segment (`s1`, `s2`) that is closest to `point`. The returned point will always be inside the specified segment."] # [doc = ""] # [inline] pub fn get_closest_point_to_segment_2d (& self , point : Vector2 , s1 : Vector2 , s2 : Vector2) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . get_closest_point_to_segment_2d ; let ret = crate :: icalls :: icallptr_vec2_vec2_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , point , s1 , s2) ; mem :: transmute (ret) } } # [doc = "Returns the 3D point on the 3D line defined by (`s1`, `s2`) that is closest to `point`. The returned point can be inside the segment (`s1`, `s2`) or outside of it, i.e. somewhere on the line extending from the segment."] # [doc = ""] # [inline] pub fn get_closest_point_to_segment_uncapped (& self , point : Vector3 , s1 : Vector3 , s2 : Vector3) -> Vector3 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . get_closest_point_to_segment_uncapped ; let ret = crate :: icalls :: icallptr_vec3_vec3_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , point , s1 , s2) ; mem :: transmute (ret) } } # [doc = "Returns the 2D point on the 2D line defined by (`s1`, `s2`) that is closest to `point`. The returned point can be inside the segment (`s1`, `s2`) or outside of it, i.e. somewhere on the line extending from the segment."] # [doc = ""] # [inline] pub fn get_closest_point_to_segment_uncapped_2d (& self , point : Vector2 , s1 : Vector2 , s2 : Vector2) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . get_closest_point_to_segment_uncapped_2d ; let ret = crate :: icalls :: icallptr_vec2_vec2_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , point , s1 , s2) ; mem :: transmute (ret) } } # [doc = "Given the two 3D segments (`p1`, `p2`) and (`q1`, `q2`), finds those two points on the two segments that are closest to each other. Returns a [PoolVector3Array] that contains this point on (`p1`, `p2`) as well the accompanying point on (`q1`, `q2`)."] # [doc = ""] # [inline] pub fn get_closest_points_between_segments (& self , p1 : Vector3 , p2 : Vector3 , q1 : Vector3 , q2 : Vector3) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . get_closest_points_between_segments ; let ret = crate :: icalls :: icallptr_vec3arr_vec3_vec3_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , p1 , p2 , q1 , q2) ; Vector3Array :: from_sys (ret) } } # [doc = "Given the two 2D segments (`p1`, `p2`) and (`q1`, `q2`), finds those two points on the two segments that are closest to each other. Returns a [PoolVector2Array] that contains this point on (`p1`, `p2`) as well the accompanying point on (`q1`, `q2`)."] # [doc = ""] # [inline] pub fn get_closest_points_between_segments_2d (& self , p1 : Vector2 , q1 : Vector2 , p2 : Vector2 , q2 : Vector2) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . get_closest_points_between_segments_2d ; let ret = crate :: icalls :: icallptr_vec2arr_vec2_vec2_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , p1 , q1 , p2 , q2) ; Vector2Array :: from_sys (ret) } } # [doc = "Used internally by the engine."] # [doc = ""] # [inline] pub fn get_uv84_normal_bit (& self , normal : Vector3) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . get_uv84_normal_bit ; let ret = crate :: icalls :: icallptr_i64_vec3 (method_bind , self . this . sys () . as_ptr () , normal) ; ret as _ } } # [doc = "Intersects `polygon_a` with `polygon_b` and returns an array of intersected polygons. This performs [constant OPERATION_INTERSECTION] between polygons. In other words, returns common area shared by polygons. Returns an empty array if no intersection occurs.\nThe operation may result in an outer polygon (boundary) and inner polygon (hole) produced which could be distinguished by calling [method is_polygon_clockwise]."] # [doc = ""] # [inline] pub fn intersect_polygons_2d (& self , polygon_a : Vector2Array , polygon_b : Vector2Array) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . intersect_polygons_2d ; let ret = crate :: icalls :: icallvar__vec2arr_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon_a , polygon_b) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Intersects `polyline` with `polygon` and returns an array of intersected polylines. This performs [constant OPERATION_INTERSECTION] between the polyline and the polygon. This operation can be thought of as chopping a line with a closed shape."] # [doc = ""] # [inline] pub fn intersect_polyline_with_polygon_2d (& self , polyline : Vector2Array , polygon : Vector2Array) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . intersect_polyline_with_polygon_2d ; let ret = crate :: icalls :: icallvar__vec2arr_vec2arr (method_bind , self . this . sys () . as_ptr () , polyline , polygon) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns `true` if `point` is inside the circle or if it's located exactly [i]on[/i] the circle's boundary, otherwise returns `false`."] # [doc = ""] # [inline] pub fn is_point_in_circle (& self , point : Vector2 , circle_position : Vector2 , circle_radius : f64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . is_point_in_circle ; let ret = crate :: icalls :: icallptr_bool_vec2_vec2_f64 (method_bind , self . this . sys () . as_ptr () , point , circle_position , circle_radius) ; ret as _ } } # [doc = "Returns `true` if `point` is inside `polygon` or if it's located exactly [i]on[/i] polygon's boundary, otherwise returns `false`."] # [doc = ""] # [inline] pub fn is_point_in_polygon (& self , point : Vector2 , polygon : Vector2Array) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . is_point_in_polygon ; let ret = crate :: icalls :: icallptr_bool_vec2_vec2arr (method_bind , self . this . sys () . as_ptr () , point , polygon) ; ret as _ } } # [doc = "Returns `true` if `polygon`'s vertices are ordered in clockwise order, otherwise returns `false`."] # [doc = ""] # [inline] pub fn is_polygon_clockwise (& self , polygon : Vector2Array) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . is_polygon_clockwise ; let ret = crate :: icalls :: icallptr_bool_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon) ; ret as _ } } # [doc = "Checks if the two lines (`from_a`, `dir_a`) and (`from_b`, `dir_b`) intersect. If yes, return the point of intersection as [Vector2]. If no intersection takes place, returns an empty [Variant].\n**Note:** The lines are specified using direction vectors, not end points."] # [doc = ""] # [inline] pub fn line_intersects_line_2d (& self , from_a : Vector2 , dir_a : Vector2 , from_b : Vector2 , dir_b : Vector2) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . line_intersects_line_2d ; let ret = crate :: icalls :: icallptr_var_vec2_vec2_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , from_a , dir_a , from_b , dir_b) ; Variant :: from_sys (ret) } } # [doc = "Given an array of [Vector2]s representing tiles, builds an atlas. The returned dictionary has two keys: `points` is a vector of [Vector2] that specifies the positions of each tile, `size` contains the overall size of the whole atlas as [Vector2]."] # [doc = ""] # [inline] pub fn make_atlas (& self , sizes : Vector2Array) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . make_atlas ; let ret = crate :: icalls :: icallptr_dict_vec2arr (method_bind , self . this . sys () . as_ptr () , sizes) ; Dictionary :: from_sys (ret) } } # [doc = "Merges (combines) `polygon_a` and `polygon_b` and returns an array of merged polygons. This performs [constant OPERATION_UNION] between polygons.\nThe operation may result in an outer polygon (boundary) and inner polygon (hole) produced which could be distinguished by calling [method is_polygon_clockwise]."] # [doc = ""] # [inline] pub fn merge_polygons_2d (& self , polygon_a : Vector2Array , polygon_b : Vector2Array) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . merge_polygons_2d ; let ret = crate :: icalls :: icallvar__vec2arr_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon_a , polygon_b) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nInflates or deflates `polygon` by `delta` units (pixels). If `delta` is positive, makes the polygon grow outward. If `delta` is negative, shrinks the polygon inward. Returns an array of polygons because inflating/deflating may result in multiple discrete polygons. Returns an empty array if `delta` is negative and the absolute value of it approximately exceeds the minimum bounding rectangle dimensions of the polygon.\nEach polygon's vertices will be rounded as determined by `join_type`, see [enum PolyJoinType].\nThe operation may result in an outer polygon (boundary) and inner polygon (hole) produced which could be distinguished by calling [method is_polygon_clockwise].\n**Note:** To translate the polygon's vertices specifically, use the [method Transform2D.xform] method:\n```gdscript\nvar polygon = PoolVector2Array([Vector2(0, 0), Vector2(100, 0), Vector2(100, 100), Vector2(0, 100)])\nvar offset = Vector2(50, 50)\npolygon = Transform2D(0, offset).xform(polygon)\nprint(polygon) # prints [Vector2(50, 50), Vector2(150, 50), Vector2(150, 150), Vector2(50, 150)]\n```\n# Default Arguments\n* `join_type` - `0`"] # [doc = ""] # [inline] pub fn offset_polygon_2d (& self , polygon : Vector2Array , delta : f64 , join_type : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . offset_polygon_2d ; let ret = crate :: icalls :: icallvar__vec2arr_f64_i64 (method_bind , self . this . sys () . as_ptr () , polygon , delta , join_type) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Inflates or deflates `polyline` by `delta` units (pixels), producing polygons. If `delta` is positive, makes the polyline grow outward. Returns an array of polygons because inflating/deflating may result in multiple discrete polygons. If `delta` is negative, returns an empty array.\nEach polygon's vertices will be rounded as determined by `join_type`, see [enum PolyJoinType].\nEach polygon's endpoints will be rounded as determined by `end_type`, see [enum PolyEndType].\nThe operation may result in an outer polygon (boundary) and inner polygon (hole) produced which could be distinguished by calling [method is_polygon_clockwise].\n# Default Arguments\n* `join_type` - `0`\n* `end_type` - `3`"] # [doc = ""] # [inline] pub fn offset_polyline_2d (& self , polyline : Vector2Array , delta : f64 , join_type : i64 , end_type : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . offset_polyline_2d ; let ret = crate :: icalls :: icallvar__vec2arr_f64_i64_i64 (method_bind , self . this . sys () . as_ptr () , polyline , delta , join_type , end_type) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns if `point` is inside the triangle specified by `a`, `b` and `c`."] # [doc = ""] # [inline] pub fn point_is_inside_triangle (& self , point : Vector2 , a : Vector2 , b : Vector2 , c : Vector2) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . point_is_inside_triangle ; let ret = crate :: icalls :: icallptr_bool_vec2_vec2_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , point , a , b , c) ; ret as _ } } # [doc = "Tests if the 3D ray starting at `from` with the direction of `dir` intersects the triangle specified by `a`, `b` and `c`. If yes, returns the point of intersection as [Vector3]. If no intersection takes place, an empty [Variant] is returned."] # [doc = ""] # [inline] pub fn ray_intersects_triangle (& self , from : Vector3 , dir : Vector3 , a : Vector3 , b : Vector3 , c : Vector3) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . ray_intersects_triangle ; let ret = crate :: icalls :: icallptr_var_vec3_vec3_vec3_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , from , dir , a , b , c) ; Variant :: from_sys (ret) } } # [doc = "Given the 2D segment (`segment_from`, `segment_to`), returns the position on the segment (as a number between 0 and 1) at which the segment hits the circle that is located at position `circle_position` and has radius `circle_radius`. If the segment does not intersect the circle, -1 is returned (this is also the case if the line extending the segment would intersect the circle, but the segment does not)."] # [doc = ""] # [inline] pub fn segment_intersects_circle (& self , segment_from : Vector2 , segment_to : Vector2 , circle_position : Vector2 , circle_radius : f64) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . segment_intersects_circle ; let ret = crate :: icalls :: icallptr_f64_vec2_vec2_vec2_f64 (method_bind , self . this . sys () . as_ptr () , segment_from , segment_to , circle_position , circle_radius) ; ret as _ } } # [doc = "Given a convex hull defined though the [Plane]s in the array `planes`, tests if the segment (`from`, `to`) intersects with that hull. If an intersection is found, returns a [PoolVector3Array] containing the point the intersection and the hull's normal. If no intersecion is found, an the returned array is empty."] # [doc = ""] # [inline] pub fn segment_intersects_convex (& self , from : Vector3 , to : Vector3 , planes : VariantArray) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . segment_intersects_convex ; let ret = crate :: icalls :: icallptr_vec3arr_vec3_vec3_arr (method_bind , self . this . sys () . as_ptr () , from , to , planes) ; Vector3Array :: from_sys (ret) } } # [doc = "Checks if the segment (`from`, `to`) intersects the cylinder with height `height` that is centered at the origin and has radius `radius`. If no, returns an empty [PoolVector3Array]. If an intersection takes place, the returned array contains the point of intersection and the cylinder's normal at the point of intersection."] # [doc = ""] # [inline] pub fn segment_intersects_cylinder (& self , from : Vector3 , to : Vector3 , height : f64 , radius : f64) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . segment_intersects_cylinder ; let ret = crate :: icalls :: icallptr_vec3arr_vec3_vec3_f64_f64 (method_bind , self . this . sys () . as_ptr () , from , to , height , radius) ; Vector3Array :: from_sys (ret) } } # [doc = "Checks if the two segments (`from_a`, `to_a`) and (`from_b`, `to_b`) intersect. If yes, return the point of intersection as [Vector2]. If no intersection takes place, returns an empty [Variant]."] # [doc = ""] # [inline] pub fn segment_intersects_segment_2d (& self , from_a : Vector2 , to_a : Vector2 , from_b : Vector2 , to_b : Vector2) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . segment_intersects_segment_2d ; let ret = crate :: icalls :: icallptr_var_vec2_vec2_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , from_a , to_a , from_b , to_b) ; Variant :: from_sys (ret) } } # [doc = "Checks if the segment (`from`, `to`) intersects the sphere that is located at `sphere_position` and has radius `sphere_radius`. If no, returns an empty [PoolVector3Array]. If yes, returns a [PoolVector3Array] containing the point of intersection and the sphere's normal at the point of intersection."] # [doc = ""] # [inline] pub fn segment_intersects_sphere (& self , from : Vector3 , to : Vector3 , sphere_position : Vector3 , sphere_radius : f64) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . segment_intersects_sphere ; let ret = crate :: icalls :: icallptr_vec3arr_vec3_vec3_vec3_f64 (method_bind , self . this . sys () . as_ptr () , from , to , sphere_position , sphere_radius) ; Vector3Array :: from_sys (ret) } } # [doc = "Tests if the segment (`from`, `to`) intersects the triangle `a`, `b`, `c`. If yes, returns the point of intersection as [Vector3]. If no intersection takes place, an empty [Variant] is returned."] # [doc = ""] # [inline] pub fn segment_intersects_triangle (& self , from : Vector3 , to : Vector3 , a : Vector3 , b : Vector3 , c : Vector3) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . segment_intersects_triangle ; let ret = crate :: icalls :: icallptr_var_vec3_vec3_vec3_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , from , to , a , b , c) ; Variant :: from_sys (ret) } } # [doc = "Triangulates the area specified by discrete set of `points` such that no point is inside the circumcircle of any resulting triangle. Returns a [PoolIntArray] where each triangle consists of three consecutive point indices into `points` (i.e. the returned array will have `n * 3` elements, with `n` being the number of found triangles). If the triangulation did not succeed, an empty [PoolIntArray] is returned."] # [doc = ""] # [inline] pub fn triangulate_delaunay_2d (& self , points : Vector2Array) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . triangulate_delaunay_2d ; let ret = crate :: icalls :: icallptr_i32arr_vec2arr (method_bind , self . this . sys () . as_ptr () , points) ; Int32Array :: from_sys (ret) } } # [doc = "Triangulates the polygon specified by the points in `polygon`. Returns a [PoolIntArray] where each triangle consists of three consecutive point indices into `polygon` (i.e. the returned array will have `n * 3` elements, with `n` being the number of found triangles). If the triangulation did not succeed, an empty [PoolIntArray] is returned."] # [doc = ""] # [inline] pub fn triangulate_polygon (& self , polygon : Vector2Array) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = GeometryMethodTable :: get (get_api ()) . triangulate_polygon ; let ret = crate :: icalls :: icallptr_i32arr_vec2arr (method_bind , self . this . sys () . as_ptr () , polygon) ; Int32Array :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for Geometry { } unsafe impl GodotObject for Geometry { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Geometry" } } impl std :: ops :: Deref for Geometry { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Geometry { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for Geometry { } unsafe impl Send for Geometry { } unsafe impl Sync for Geometry { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GeometryMethodTable { pub class_constructor : sys :: godot_class_constructor , pub build_box_planes : * mut sys :: godot_method_bind , pub build_capsule_planes : * mut sys :: godot_method_bind , pub build_cylinder_planes : * mut sys :: godot_method_bind , pub clip_polygon : * mut sys :: godot_method_bind , pub clip_polygons_2d : * mut sys :: godot_method_bind , pub clip_polyline_with_polygon_2d : * mut sys :: godot_method_bind , pub convex_hull_2d : * mut sys :: godot_method_bind , pub exclude_polygons_2d : * mut sys :: godot_method_bind , pub get_closest_point_to_segment : * mut sys :: godot_method_bind , pub get_closest_point_to_segment_2d : * mut sys :: godot_method_bind , pub get_closest_point_to_segment_uncapped : * mut sys :: godot_method_bind , pub get_closest_point_to_segment_uncapped_2d : * mut sys :: godot_method_bind , pub get_closest_points_between_segments : * mut sys :: godot_method_bind , pub get_closest_points_between_segments_2d : * mut sys :: godot_method_bind , pub get_uv84_normal_bit : * mut sys :: godot_method_bind , pub intersect_polygons_2d : * mut sys :: godot_method_bind , pub intersect_polyline_with_polygon_2d : * mut sys :: godot_method_bind , pub is_point_in_circle : * mut sys :: godot_method_bind , pub is_point_in_polygon : * mut sys :: godot_method_bind , pub is_polygon_clockwise : * mut sys :: godot_method_bind , pub line_intersects_line_2d : * mut sys :: godot_method_bind , pub make_atlas : * mut sys :: godot_method_bind , pub merge_polygons_2d : * mut sys :: godot_method_bind , pub offset_polygon_2d : * mut sys :: godot_method_bind , pub offset_polyline_2d : * mut sys :: godot_method_bind , pub point_is_inside_triangle : * mut sys :: godot_method_bind , pub ray_intersects_triangle : * mut sys :: godot_method_bind , pub segment_intersects_circle : * mut sys :: godot_method_bind , pub segment_intersects_convex : * mut sys :: godot_method_bind , pub segment_intersects_cylinder : * mut sys :: godot_method_bind , pub segment_intersects_segment_2d : * mut sys :: godot_method_bind , pub segment_intersects_sphere : * mut sys :: godot_method_bind , pub segment_intersects_triangle : * mut sys :: godot_method_bind , pub triangulate_delaunay_2d : * mut sys :: godot_method_bind , pub triangulate_polygon : * mut sys :: godot_method_bind } impl GeometryMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GeometryMethodTable = GeometryMethodTable { class_constructor : None , build_box_planes : 0 as * mut sys :: godot_method_bind , build_capsule_planes : 0 as * mut sys :: godot_method_bind , build_cylinder_planes : 0 as * mut sys :: godot_method_bind , clip_polygon : 0 as * mut sys :: godot_method_bind , clip_polygons_2d : 0 as * mut sys :: godot_method_bind , clip_polyline_with_polygon_2d : 0 as * mut sys :: godot_method_bind , convex_hull_2d : 0 as * mut sys :: godot_method_bind , exclude_polygons_2d : 0 as * mut sys :: godot_method_bind , get_closest_point_to_segment : 0 as * mut sys :: godot_method_bind , get_closest_point_to_segment_2d : 0 as * mut sys :: godot_method_bind , get_closest_point_to_segment_uncapped : 0 as * mut sys :: godot_method_bind , get_closest_point_to_segment_uncapped_2d : 0 as * mut sys :: godot_method_bind , get_closest_points_between_segments : 0 as * mut sys :: godot_method_bind , get_closest_points_between_segments_2d : 0 as * mut sys :: godot_method_bind , get_uv84_normal_bit : 0 as * mut sys :: godot_method_bind , intersect_polygons_2d : 0 as * mut sys :: godot_method_bind , intersect_polyline_with_polygon_2d : 0 as * mut sys :: godot_method_bind , is_point_in_circle : 0 as * mut sys :: godot_method_bind , is_point_in_polygon : 0 as * mut sys :: godot_method_bind , is_polygon_clockwise : 0 as * mut sys :: godot_method_bind , line_intersects_line_2d : 0 as * mut sys :: godot_method_bind , make_atlas : 0 as * mut sys :: godot_method_bind , merge_polygons_2d : 0 as * mut sys :: godot_method_bind , offset_polygon_2d : 0 as * mut sys :: godot_method_bind , offset_polyline_2d : 0 as * mut sys :: godot_method_bind , point_is_inside_triangle : 0 as * mut sys :: godot_method_bind , ray_intersects_triangle : 0 as * mut sys :: godot_method_bind , segment_intersects_circle : 0 as * mut sys :: godot_method_bind , segment_intersects_convex : 0 as * mut sys :: godot_method_bind , segment_intersects_cylinder : 0 as * mut sys :: godot_method_bind , segment_intersects_segment_2d : 0 as * mut sys :: godot_method_bind , segment_intersects_sphere : 0 as * mut sys :: godot_method_bind , segment_intersects_triangle : 0 as * mut sys :: godot_method_bind , triangulate_delaunay_2d : 0 as * mut sys :: godot_method_bind , triangulate_polygon : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { GeometryMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "_Geometry\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . build_box_planes = (gd_api . godot_method_bind_get_method) (class_name , "build_box_planes\0" . as_ptr () as * const c_char) ; table . build_capsule_planes = (gd_api . godot_method_bind_get_method) (class_name , "build_capsule_planes\0" . as_ptr () as * const c_char) ; table . build_cylinder_planes = (gd_api . godot_method_bind_get_method) (class_name , "build_cylinder_planes\0" . as_ptr () as * const c_char) ; table . clip_polygon = (gd_api . godot_method_bind_get_method) (class_name , "clip_polygon\0" . as_ptr () as * const c_char) ; table . clip_polygons_2d = (gd_api . godot_method_bind_get_method) (class_name , "clip_polygons_2d\0" . as_ptr () as * const c_char) ; table . clip_polyline_with_polygon_2d = (gd_api . godot_method_bind_get_method) (class_name , "clip_polyline_with_polygon_2d\0" . as_ptr () as * const c_char) ; table . convex_hull_2d = (gd_api . godot_method_bind_get_method) (class_name , "convex_hull_2d\0" . as_ptr () as * const c_char) ; table . exclude_polygons_2d = (gd_api . godot_method_bind_get_method) (class_name , "exclude_polygons_2d\0" . as_ptr () as * const c_char) ; table . get_closest_point_to_segment = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_point_to_segment\0" . as_ptr () as * const c_char) ; table . get_closest_point_to_segment_2d = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_point_to_segment_2d\0" . as_ptr () as * const c_char) ; table . get_closest_point_to_segment_uncapped = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_point_to_segment_uncapped\0" . as_ptr () as * const c_char) ; table . get_closest_point_to_segment_uncapped_2d = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_point_to_segment_uncapped_2d\0" . as_ptr () as * const c_char) ; table . get_closest_points_between_segments = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_points_between_segments\0" . as_ptr () as * const c_char) ; table . get_closest_points_between_segments_2d = (gd_api . godot_method_bind_get_method) (class_name , "get_closest_points_between_segments_2d\0" . as_ptr () as * const c_char) ; table . get_uv84_normal_bit = (gd_api . godot_method_bind_get_method) (class_name , "get_uv84_normal_bit\0" . as_ptr () as * const c_char) ; table . intersect_polygons_2d = (gd_api . godot_method_bind_get_method) (class_name , "intersect_polygons_2d\0" . as_ptr () as * const c_char) ; table . intersect_polyline_with_polygon_2d = (gd_api . godot_method_bind_get_method) (class_name , "intersect_polyline_with_polygon_2d\0" . as_ptr () as * const c_char) ; table . is_point_in_circle = (gd_api . godot_method_bind_get_method) (class_name , "is_point_in_circle\0" . as_ptr () as * const c_char) ; table . is_point_in_polygon = (gd_api . godot_method_bind_get_method) (class_name , "is_point_in_polygon\0" . as_ptr () as * const c_char) ; table . is_polygon_clockwise = (gd_api . godot_method_bind_get_method) (class_name , "is_polygon_clockwise\0" . as_ptr () as * const c_char) ; table . line_intersects_line_2d = (gd_api . godot_method_bind_get_method) (class_name , "line_intersects_line_2d\0" . as_ptr () as * const c_char) ; table . make_atlas = (gd_api . godot_method_bind_get_method) (class_name , "make_atlas\0" . as_ptr () as * const c_char) ; table . merge_polygons_2d = (gd_api . godot_method_bind_get_method) (class_name , "merge_polygons_2d\0" . as_ptr () as * const c_char) ; table . offset_polygon_2d = (gd_api . godot_method_bind_get_method) (class_name , "offset_polygon_2d\0" . as_ptr () as * const c_char) ; table . offset_polyline_2d = (gd_api . godot_method_bind_get_method) (class_name , "offset_polyline_2d\0" . as_ptr () as * const c_char) ; table . point_is_inside_triangle = (gd_api . godot_method_bind_get_method) (class_name , "point_is_inside_triangle\0" . as_ptr () as * const c_char) ; table . ray_intersects_triangle = (gd_api . godot_method_bind_get_method) (class_name , "ray_intersects_triangle\0" . as_ptr () as * const c_char) ; table . segment_intersects_circle = (gd_api . godot_method_bind_get_method) (class_name , "segment_intersects_circle\0" . as_ptr () as * const c_char) ; table . segment_intersects_convex = (gd_api . godot_method_bind_get_method) (class_name , "segment_intersects_convex\0" . as_ptr () as * const c_char) ; table . segment_intersects_cylinder = (gd_api . godot_method_bind_get_method) (class_name , "segment_intersects_cylinder\0" . as_ptr () as * const c_char) ; table . segment_intersects_segment_2d = (gd_api . godot_method_bind_get_method) (class_name , "segment_intersects_segment_2d\0" . as_ptr () as * const c_char) ; table . segment_intersects_sphere = (gd_api . godot_method_bind_get_method) (class_name , "segment_intersects_sphere\0" . as_ptr () as * const c_char) ; table . segment_intersects_triangle = (gd_api . godot_method_bind_get_method) (class_name , "segment_intersects_triangle\0" . as_ptr () as * const c_char) ; table . triangulate_delaunay_2d = (gd_api . godot_method_bind_get_method) (class_name , "triangulate_delaunay_2d\0" . as_ptr () as * const c_char) ; table . triangulate_polygon = (gd_api . godot_method_bind_get_method) (class_name , "triangulate_polygon\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:622:36435 [INFO] [stdout] | [INFO] [stdout] 622 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 RigidBody2D` inherits `PhysicsBody2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_rigidbody2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RigidBody2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRigidBody2D inherits methods from:\n - [PhysicsBody2D](struct.PhysicsBody2D.html)\n - [CollisionObject2D](struct.CollisionObject2D.html)\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RigidBody2D { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct CcdMode (pub i64) ; impl CcdMode { pub const DISABLED : CcdMode = CcdMode (0i64) ; pub const CAST_RAY : CcdMode = CcdMode (1i64) ; pub const CAST_SHAPE : CcdMode = CcdMode (2i64) ; } impl From < i64 > for CcdMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < CcdMode > for i64 { # [inline] fn from (v : CcdMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Mode (pub i64) ; impl Mode { pub const RIGID : Mode = Mode (0i64) ; pub const STATIC : Mode = Mode (1i64) ; pub const CHARACTER : Mode = Mode (2i64) ; pub const KINEMATIC : Mode = Mode (3i64) ; } impl From < i64 > for Mode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Mode > for i64 { # [inline] fn from (v : Mode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl RigidBody2D { pub const CCD_MODE_CAST_RAY : i64 = 1i64 ; pub const CCD_MODE_CAST_SHAPE : i64 = 2i64 ; pub const CCD_MODE_DISABLED : i64 = 0i64 ; pub const MODE_CHARACTER : i64 = 2i64 ; pub const MODE_KINEMATIC : i64 = 3i64 ; pub const MODE_RIGID : i64 = 0i64 ; pub const MODE_STATIC : i64 = 1i64 ; } impl RigidBody2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RigidBody2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds a constant directional force without affecting rotation."] # [doc = ""] # [inline] pub fn add_central_force (& self , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . add_central_force ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , force) ; } } # [doc = "Adds a positioned force to the body. Both the force and the offset from the body origin are in global coordinates."] # [doc = ""] # [inline] pub fn add_force (& self , offset : Vector2 , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . add_force ; let ret = crate :: icalls :: icallptr_void_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , offset , force) ; } } # [doc = "Adds a constant rotational force."] # [doc = ""] # [inline] pub fn add_torque (& self , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . add_torque ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Applies a directional impulse without affecting rotation."] # [doc = ""] # [inline] pub fn apply_central_impulse (& self , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . apply_central_impulse ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , impulse) ; } } # [doc = "Applies a positioned impulse to the body. An impulse is time-independent! Applying an impulse every frame would result in a framerate-dependent force. For this reason it should only be used when simulating one-time impacts (use the \"_force\" functions otherwise). The position uses the rotation of the global coordinate system, but is centered at the object's origin."] # [doc = ""] # [inline] pub fn apply_impulse (& self , offset : Vector2 , impulse : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . apply_impulse ; let ret = crate :: icalls :: icallptr_void_vec2_vec2 (method_bind , self . this . sys () . as_ptr () , offset , impulse) ; } } # [doc = "Applies a rotational impulse to the body."] # [doc = ""] # [inline] pub fn apply_torque_impulse (& self , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . apply_torque_impulse ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Damps the body's [member angular_velocity]. If `-1`, the body will use the **Default Angular Damp** defined in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn angular_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_angular_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn angular_velocity (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_angular_velocity ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's total applied force."] # [doc = ""] # [inline] pub fn applied_force (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_applied_force ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's total applied torque."] # [doc = ""] # [inline] pub fn applied_torque (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_applied_torque ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn bounce (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_bounce ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns a list of the bodies colliding with this one. Requires [member contact_monitor] to be set to `true` and [member contacts_reported] to be set high enough to detect all the collisions.\n**Note:** The result of this test is not immediate after moving objects. For performance, list of collisions is updated once per frame and before the physics step. Consider using signals instead."] # [doc = ""] # [inline] pub fn get_colliding_bodies (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_colliding_bodies ; let ret = crate :: icalls :: icallvar_ (method_bind , self . this . sys () . as_ptr ()) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Continuous collision detection mode.\nContinuous collision detection tries to predict where a moving body will collide instead of moving it and correcting its movement after collision. Continuous collision detection is slower, but more precise and misses fewer collisions with small, fast-moving objects. Raycasting and shapecasting methods are available. See [enum CCDMode] for details."] # [doc = ""] # [inline] pub fn continuous_collision_detection_mode (& self) -> crate :: generated :: rigid_body_2d :: CcdMode { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_continuous_collision_detection_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: rigid_body_2d :: CcdMode (ret) } } # [doc = "The body's friction. Values range from `0` (frictionless) to `1` (maximum friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn friction (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_friction ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Multiplies the gravity applied to the body. The body's gravity is calculated from the **Default Gravity** value in **Project > Project Settings > Physics > 2d** and/or any additional gravity vector applied by [Area2D]s."] # [doc = ""] # [inline] pub fn gravity_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_gravity_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's moment of inertia. This is like mass, but for rotation: it determines how much torque it takes to rotate the body. The moment of inertia is usually computed automatically from the mass and the shapes, but this function allows you to set a custom value. Set 0 inertia to return to automatically computing it."] # [doc = ""] # [inline] pub fn inertia (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_inertia ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Damps the body's [member linear_velocity]. If `-1`, the body will use the **Default Linear Damp** in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn linear_damp (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_linear_damp ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn linear_velocity (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_linear_velocity ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The body's mass."] # [doc = ""] # [inline] pub fn mass (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_mass ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The maximum number of contacts that will be recorded. Requires [member contact_monitor] to be set to `true`.\n**Note:** The number of contacts is different from the number of collisions. Collisions between parallel edges will result in two contacts (one at each end), and collisions between parallel faces will result in four contacts (one at each corner)."] # [doc = ""] # [inline] pub fn max_contacts_reported (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_max_contacts_reported ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The body's mode. See [enum Mode] for possible values."] # [doc = ""] # [inline] pub fn mode (& self) -> crate :: generated :: rigid_body_2d :: Mode { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: rigid_body_2d :: Mode (ret) } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn physics_material_override (& self) -> Option < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_physics_material_override ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: physics_material :: PhysicsMaterial , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The body's weight based on its mass and the **Default Gravity** value in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn weight (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . get_weight ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the body can enter sleep mode when there is no movement. See [member sleeping].\n**Note:** A RigidBody2D will never enter sleep mode automatically if its [member mode] is [constant MODE_CHARACTER]. It can still be put to sleep manually by setting its [member sleeping] property to `true`."] # [doc = ""] # [inline] pub fn is_able_to_sleep (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_able_to_sleep ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the body will emit signals when it collides with another RigidBody2D. See also [member contacts_reported]."] # [doc = ""] # [inline] pub fn is_contact_monitor_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_contact_monitor_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the body will not move and will not calculate forces until woken up by another body through, for example, a collision, or by using the [method apply_impulse] or [method add_force] methods."] # [doc = ""] # [inline] pub fn is_sleeping (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_sleeping ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, internal force integration is disabled for this body. Aside from collision response, the body will only move as determined by the [method _integrate_forces] function."] # [doc = ""] # [inline] pub fn is_using_custom_integrator (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . is_using_custom_integrator ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Damps the body's [member angular_velocity]. If `-1`, the body will use the **Default Angular Damp** defined in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn set_angular_damp (& self , angular_damp : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_angular_damp ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angular_damp) ; } } # [doc = "The body's rotational velocity."] # [doc = ""] # [inline] pub fn set_angular_velocity (& self , angular_velocity : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_angular_velocity ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , angular_velocity) ; } } # [doc = "The body's total applied force."] # [doc = ""] # [inline] pub fn set_applied_force (& self , force : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_applied_force ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , force) ; } } # [doc = "The body's total applied torque."] # [doc = ""] # [inline] pub fn set_applied_torque (& self , torque : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_applied_torque ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , torque) ; } } # [doc = "Sets the body's velocity on the given axis. The velocity in the given vector axis will be set as the given vector length. This is useful for jumping behavior."] # [doc = ""] # [inline] pub fn set_axis_velocity (& self , axis_velocity : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_axis_velocity ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , axis_velocity) ; } } # [doc = "The body's bounciness. Values range from `0` (no bounce) to `1` (full bounciness).\nDeprecated, use [member PhysicsMaterial.bounce] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_bounce (& self , bounce : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_bounce ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bounce) ; } } # [doc = "If `true`, the body can enter sleep mode when there is no movement. See [member sleeping].\n**Note:** A RigidBody2D will never enter sleep mode automatically if its [member mode] is [constant MODE_CHARACTER]. It can still be put to sleep manually by setting its [member sleeping] property to `true`."] # [doc = ""] # [inline] pub fn set_can_sleep (& self , able_to_sleep : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_can_sleep ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , able_to_sleep) ; } } # [doc = "If `true`, the body will emit signals when it collides with another RigidBody2D. See also [member contacts_reported]."] # [doc = ""] # [inline] pub fn set_contact_monitor (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_contact_monitor ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "Continuous collision detection mode.\nContinuous collision detection tries to predict where a moving body will collide instead of moving it and correcting its movement after collision. Continuous collision detection is slower, but more precise and misses fewer collisions with small, fast-moving objects. Raycasting and shapecasting methods are available. See [enum CCDMode] for details."] # [doc = ""] # [inline] pub fn set_continuous_collision_detection_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_continuous_collision_detection_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The body's friction. Values range from `0` (frictionless) to `1` (maximum friction).\nDeprecated, use [member PhysicsMaterial.friction] instead via [member physics_material_override]."] # [doc = ""] # [inline] pub fn set_friction (& self , friction : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_friction ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , friction) ; } } # [doc = "Multiplies the gravity applied to the body. The body's gravity is calculated from the **Default Gravity** value in **Project > Project Settings > Physics > 2d** and/or any additional gravity vector applied by [Area2D]s."] # [doc = ""] # [inline] pub fn set_gravity_scale (& self , gravity_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_gravity_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , gravity_scale) ; } } # [doc = "The body's moment of inertia. This is like mass, but for rotation: it determines how much torque it takes to rotate the body. The moment of inertia is usually computed automatically from the mass and the shapes, but this function allows you to set a custom value. Set 0 inertia to return to automatically computing it."] # [doc = ""] # [inline] pub fn set_inertia (& self , inertia : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_inertia ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , inertia) ; } } # [doc = "Damps the body's [member linear_velocity]. If `-1`, the body will use the **Default Linear Damp** in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn set_linear_damp (& self , linear_damp : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_linear_damp ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , linear_damp) ; } } # [doc = "The body's linear velocity."] # [doc = ""] # [inline] pub fn set_linear_velocity (& self , linear_velocity : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_linear_velocity ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , linear_velocity) ; } } # [doc = "The body's mass."] # [doc = ""] # [inline] pub fn set_mass (& self , mass : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_mass ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mass) ; } } # [doc = "The maximum number of contacts that will be recorded. Requires [member contact_monitor] to be set to `true`.\n**Note:** The number of contacts is different from the number of collisions. Collisions between parallel edges will result in two contacts (one at each end), and collisions between parallel faces will result in four contacts (one at each corner)."] # [doc = ""] # [inline] pub fn set_max_contacts_reported (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_max_contacts_reported ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "The body's mode. See [enum Mode] for possible values."] # [doc = ""] # [inline] pub fn set_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The physics material override for the body.\nIf a material is assigned to this property, it will be used instead of any other physics material, such as an inherited one."] # [doc = ""] # [inline] pub fn set_physics_material_override (& self , physics_material_override : impl AsArg < crate :: generated :: physics_material :: PhysicsMaterial >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_physics_material_override ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , physics_material_override . as_arg_ptr ()) ; } } # [doc = "If `true`, the body will not move and will not calculate forces until woken up by another body through, for example, a collision, or by using the [method apply_impulse] or [method add_force] methods."] # [doc = ""] # [inline] pub fn set_sleeping (& self , sleeping : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_sleeping ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , sleeping) ; } } # [doc = "If `true`, internal force integration is disabled for this body. Aside from collision response, the body will only move as determined by the [method _integrate_forces] function."] # [doc = ""] # [inline] pub fn set_use_custom_integrator (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_use_custom_integrator ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The body's weight based on its mass and the **Default Gravity** value in **Project > Project Settings > Physics > 2d**."] # [doc = ""] # [inline] pub fn set_weight (& self , weight : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . set_weight ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , weight) ; } } # [doc = "Returns `true` if a collision would result from moving in the given vector. `margin` increases the size of the shapes involved in the collision detection, and `result` is an object of type [Physics2DTestMotionResult], which contains additional information about the collision (should there be one).\n# Default Arguments\n* `infinite_inertia` - `true`\n* `margin` - `0.08`\n* `result` - `null`"] # [doc = ""] # [inline] pub fn test_motion (& self , motion : Vector2 , infinite_inertia : bool , margin : f64 , result : impl AsArg < crate :: generated :: physics_2d_test_motion_result :: Physics2DTestMotionResult >) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RigidBody2DMethodTable :: get (get_api ()) . test_motion ; let ret = crate :: icalls :: icallptr_bool_vec2_bool_f64_obj (method_bind , self . this . sys () . as_ptr () , motion , infinite_inertia , margin , result . as_arg_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for RigidBody2D { } unsafe impl GodotObject for RigidBody2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RigidBody2D" } } impl QueueFree for RigidBody2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RigidBody2D { type Target = crate :: generated :: physics_body_2d :: PhysicsBody2D ; # [inline] fn deref (& self) -> & crate :: generated :: physics_body_2d :: PhysicsBody2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RigidBody2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: physics_body_2d :: PhysicsBody2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: physics_body_2d :: PhysicsBody2D > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: collision_object_2d :: CollisionObject2D > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for RigidBody2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for RigidBody2D { } impl Instanciable for RigidBody2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RigidBody2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RigidBody2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_central_force : * mut sys :: godot_method_bind , pub add_force : * mut sys :: godot_method_bind , pub add_torque : * mut sys :: godot_method_bind , pub apply_central_impulse : * mut sys :: godot_method_bind , pub apply_impulse : * mut sys :: godot_method_bind , pub apply_torque_impulse : * mut sys :: godot_method_bind , pub get_angular_damp : * mut sys :: godot_method_bind , pub get_angular_velocity : * mut sys :: godot_method_bind , pub get_applied_force : * mut sys :: godot_method_bind , pub get_applied_torque : * mut sys :: godot_method_bind , pub get_bounce : * mut sys :: godot_method_bind , pub get_colliding_bodies : * mut sys :: godot_method_bind , pub get_continuous_collision_detection_mode : * mut sys :: godot_method_bind , pub get_friction : * mut sys :: godot_method_bind , pub get_gravity_scale : * mut sys :: godot_method_bind , pub get_inertia : * mut sys :: godot_method_bind , pub get_linear_damp : * mut sys :: godot_method_bind , pub get_linear_velocity : * mut sys :: godot_method_bind , pub get_mass : * mut sys :: godot_method_bind , pub get_max_contacts_reported : * mut sys :: godot_method_bind , pub get_mode : * mut sys :: godot_method_bind , pub get_physics_material_override : * mut sys :: godot_method_bind , pub get_weight : * mut sys :: godot_method_bind , pub is_able_to_sleep : * mut sys :: godot_method_bind , pub is_contact_monitor_enabled : * mut sys :: godot_method_bind , pub is_sleeping : * mut sys :: godot_method_bind , pub is_using_custom_integrator : * mut sys :: godot_method_bind , pub set_angular_damp : * mut sys :: godot_method_bind , pub set_angular_velocity : * mut sys :: godot_method_bind , pub set_applied_force : * mut sys :: godot_method_bind , pub set_applied_torque : * mut sys :: godot_method_bind , pub set_axis_velocity : * mut sys :: godot_method_bind , pub set_bounce : * mut sys :: godot_method_bind , pub set_can_sleep : * mut sys :: godot_method_bind , pub set_contact_monitor : * mut sys :: godot_method_bind , pub set_continuous_collision_detection_mode : * mut sys :: godot_method_bind , pub set_friction : * mut sys :: godot_method_bind , pub set_gravity_scale : * mut sys :: godot_method_bind , pub set_inertia : * mut sys :: godot_method_bind , pub set_linear_damp : * mut sys :: godot_method_bind , pub set_linear_velocity : * mut sys :: godot_method_bind , pub set_mass : * mut sys :: godot_method_bind , pub set_max_contacts_reported : * mut sys :: godot_method_bind , pub set_mode : * mut sys :: godot_method_bind , pub set_physics_material_override : * mut sys :: godot_method_bind , pub set_sleeping : * mut sys :: godot_method_bind , pub set_use_custom_integrator : * mut sys :: godot_method_bind , pub set_weight : * mut sys :: godot_method_bind , pub test_motion : * mut sys :: godot_method_bind } impl RigidBody2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RigidBody2DMethodTable = RigidBody2DMethodTable { class_constructor : None , add_central_force : 0 as * mut sys :: godot_method_bind , add_force : 0 as * mut sys :: godot_method_bind , add_torque : 0 as * mut sys :: godot_method_bind , apply_central_impulse : 0 as * mut sys :: godot_method_bind , apply_impulse : 0 as * mut sys :: godot_method_bind , apply_torque_impulse : 0 as * mut sys :: godot_method_bind , get_angular_damp : 0 as * mut sys :: godot_method_bind , get_angular_velocity : 0 as * mut sys :: godot_method_bind , get_applied_force : 0 as * mut sys :: godot_method_bind , get_applied_torque : 0 as * mut sys :: godot_method_bind , get_bounce : 0 as * mut sys :: godot_method_bind , get_colliding_bodies : 0 as * mut sys :: godot_method_bind , get_continuous_collision_detection_mode : 0 as * mut sys :: godot_method_bind , get_friction : 0 as * mut sys :: godot_method_bind , get_gravity_scale : 0 as * mut sys :: godot_method_bind , get_inertia : 0 as * mut sys :: godot_method_bind , get_linear_damp : 0 as * mut sys :: godot_method_bind , get_linear_velocity : 0 as * mut sys :: godot_method_bind , get_mass : 0 as * mut sys :: godot_method_bind , get_max_contacts_reported : 0 as * mut sys :: godot_method_bind , get_mode : 0 as * mut sys :: godot_method_bind , get_physics_material_override : 0 as * mut sys :: godot_method_bind , get_weight : 0 as * mut sys :: godot_method_bind , is_able_to_sleep : 0 as * mut sys :: godot_method_bind , is_contact_monitor_enabled : 0 as * mut sys :: godot_method_bind , is_sleeping : 0 as * mut sys :: godot_method_bind , is_using_custom_integrator : 0 as * mut sys :: godot_method_bind , set_angular_damp : 0 as * mut sys :: godot_method_bind , set_angular_velocity : 0 as * mut sys :: godot_method_bind , set_applied_force : 0 as * mut sys :: godot_method_bind , set_applied_torque : 0 as * mut sys :: godot_method_bind , set_axis_velocity : 0 as * mut sys :: godot_method_bind , set_bounce : 0 as * mut sys :: godot_method_bind , set_can_sleep : 0 as * mut sys :: godot_method_bind , set_contact_monitor : 0 as * mut sys :: godot_method_bind , set_continuous_collision_detection_mode : 0 as * mut sys :: godot_method_bind , set_friction : 0 as * mut sys :: godot_method_bind , set_gravity_scale : 0 as * mut sys :: godot_method_bind , set_inertia : 0 as * mut sys :: godot_method_bind , set_linear_damp : 0 as * mut sys :: godot_method_bind , set_linear_velocity : 0 as * mut sys :: godot_method_bind , set_mass : 0 as * mut sys :: godot_method_bind , set_max_contacts_reported : 0 as * mut sys :: godot_method_bind , set_mode : 0 as * mut sys :: godot_method_bind , set_physics_material_override : 0 as * mut sys :: godot_method_bind , set_sleeping : 0 as * mut sys :: godot_method_bind , set_use_custom_integrator : 0 as * mut sys :: godot_method_bind , set_weight : 0 as * mut sys :: godot_method_bind , test_motion : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RigidBody2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RigidBody2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_central_force = (gd_api . godot_method_bind_get_method) (class_name , "add_central_force\0" . as_ptr () as * const c_char) ; table . add_force = (gd_api . godot_method_bind_get_method) (class_name , "add_force\0" . as_ptr () as * const c_char) ; table . add_torque = (gd_api . godot_method_bind_get_method) (class_name , "add_torque\0" . as_ptr () as * const c_char) ; table . apply_central_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_central_impulse\0" . as_ptr () as * const c_char) ; table . apply_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_impulse\0" . as_ptr () as * const c_char) ; table . apply_torque_impulse = (gd_api . godot_method_bind_get_method) (class_name , "apply_torque_impulse\0" . as_ptr () as * const c_char) ; table . get_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_angular_damp\0" . as_ptr () as * const c_char) ; table . get_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_angular_velocity\0" . as_ptr () as * const c_char) ; table . get_applied_force = (gd_api . godot_method_bind_get_method) (class_name , "get_applied_force\0" . as_ptr () as * const c_char) ; table . get_applied_torque = (gd_api . godot_method_bind_get_method) (class_name , "get_applied_torque\0" . as_ptr () as * const c_char) ; table . get_bounce = (gd_api . godot_method_bind_get_method) (class_name , "get_bounce\0" . as_ptr () as * const c_char) ; table . get_colliding_bodies = (gd_api . godot_method_bind_get_method) (class_name , "get_colliding_bodies\0" . as_ptr () as * const c_char) ; table . get_continuous_collision_detection_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_continuous_collision_detection_mode\0" . as_ptr () as * const c_char) ; table . get_friction = (gd_api . godot_method_bind_get_method) (class_name , "get_friction\0" . as_ptr () as * const c_char) ; table . get_gravity_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity_scale\0" . as_ptr () as * const c_char) ; table . get_inertia = (gd_api . godot_method_bind_get_method) (class_name , "get_inertia\0" . as_ptr () as * const c_char) ; table . get_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "get_linear_damp\0" . as_ptr () as * const c_char) ; table . get_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "get_linear_velocity\0" . as_ptr () as * const c_char) ; table . get_mass = (gd_api . godot_method_bind_get_method) (class_name , "get_mass\0" . as_ptr () as * const c_char) ; table . get_max_contacts_reported = (gd_api . godot_method_bind_get_method) (class_name , "get_max_contacts_reported\0" . as_ptr () as * const c_char) ; table . get_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_mode\0" . as_ptr () as * const c_char) ; table . get_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "get_physics_material_override\0" . as_ptr () as * const c_char) ; table . get_weight = (gd_api . godot_method_bind_get_method) (class_name , "get_weight\0" . as_ptr () as * const c_char) ; table . is_able_to_sleep = (gd_api . godot_method_bind_get_method) (class_name , "is_able_to_sleep\0" . as_ptr () as * const c_char) ; table . is_contact_monitor_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_contact_monitor_enabled\0" . as_ptr () as * const c_char) ; table . is_sleeping = (gd_api . godot_method_bind_get_method) (class_name , "is_sleeping\0" . as_ptr () as * const c_char) ; table . is_using_custom_integrator = (gd_api . godot_method_bind_get_method) (class_name , "is_using_custom_integrator\0" . as_ptr () as * const c_char) ; table . set_angular_damp = (gd_api . godot_method_bind_get_method) (class_name , "set_angular_damp\0" . as_ptr () as * const c_char) ; table . set_angular_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_angular_velocity\0" . as_ptr () as * const c_char) ; table . set_applied_force = (gd_api . godot_method_bind_get_method) (class_name , "set_applied_force\0" . as_ptr () as * const c_char) ; table . set_applied_torque = (gd_api . godot_method_bind_get_method) (class_name , "set_applied_torque\0" . as_ptr () as * const c_char) ; table . set_axis_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_axis_velocity\0" . as_ptr () as * const c_char) ; table . set_bounce = (gd_api . godot_method_bind_get_method) (class_name , "set_bounce\0" . as_ptr () as * const c_char) ; table . set_can_sleep = (gd_api . godot_method_bind_get_method) (class_name , "set_can_sleep\0" . as_ptr () as * const c_char) ; table . set_contact_monitor = (gd_api . godot_method_bind_get_method) (class_name , "set_contact_monitor\0" . as_ptr () as * const c_char) ; table . set_continuous_collision_detection_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_continuous_collision_detection_mode\0" . as_ptr () as * const c_char) ; table . set_friction = (gd_api . godot_method_bind_get_method) (class_name , "set_friction\0" . as_ptr () as * const c_char) ; table . set_gravity_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity_scale\0" . as_ptr () as * const c_char) ; table . set_inertia = (gd_api . godot_method_bind_get_method) (class_name , "set_inertia\0" . as_ptr () as * const c_char) ; table . set_linear_damp = (gd_api . godot_method_bind_get_method) (class_name , "set_linear_damp\0" . as_ptr () as * const c_char) ; table . set_linear_velocity = (gd_api . godot_method_bind_get_method) (class_name , "set_linear_velocity\0" . as_ptr () as * const c_char) ; table . set_mass = (gd_api . godot_method_bind_get_method) (class_name , "set_mass\0" . as_ptr () as * const c_char) ; table . set_max_contacts_reported = (gd_api . godot_method_bind_get_method) (class_name , "set_max_contacts_reported\0" . as_ptr () as * const c_char) ; table . set_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_mode\0" . as_ptr () as * const c_char) ; table . set_physics_material_override = (gd_api . godot_method_bind_get_method) (class_name , "set_physics_material_override\0" . as_ptr () as * const c_char) ; table . set_sleeping = (gd_api . godot_method_bind_get_method) (class_name , "set_sleeping\0" . as_ptr () as * const c_char) ; table . set_use_custom_integrator = (gd_api . godot_method_bind_get_method) (class_name , "set_use_custom_integrator\0" . as_ptr () as * const c_char) ; table . set_weight = (gd_api . godot_method_bind_get_method) (class_name , "set_weight\0" . as_ptr () as * const c_char) ; table . test_motion = (gd_api . godot_method_bind_get_method) (class_name , "test_motion\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:628:8516 [INFO] [stdout] | [INFO] [stdout] 628 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 JSONRPC` inherits `Object` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_jsonrpc.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`JSONRPC` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nJSONRPC inherits methods from:\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct JSONRPC { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ErrorCode (pub i64) ; impl ErrorCode { pub const PARSE_ERROR : ErrorCode = ErrorCode (- 32700i64) ; pub const INTERNAL_ERROR : ErrorCode = ErrorCode (- 32603i64) ; pub const INVALID_PARAMS : ErrorCode = ErrorCode (- 32602i64) ; pub const METHOD_NOT_FOUND : ErrorCode = ErrorCode (- 32601i64) ; pub const INVALID_REQUEST : ErrorCode = ErrorCode (- 32600i64) ; } impl From < i64 > for ErrorCode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ErrorCode > for i64 { # [inline] fn from (v : ErrorCode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl JSONRPC { pub const INTERNAL_ERROR : i64 = - 32603i64 ; pub const INVALID_PARAMS : i64 = - 32602i64 ; pub const INVALID_REQUEST : i64 = - 32600i64 ; pub const METHOD_NOT_FOUND : i64 = - 32601i64 ; pub const PARSE_ERROR : i64 = - 32700i64 ; } impl JSONRPC { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = JSONRPCMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn make_notification (& self , method : impl Into < GodotString > , params : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_notification ; let ret = crate :: icalls :: icallptr_dict_str_var (method_bind , self . this . sys () . as_ptr () , method . into () , params . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn make_request (& self , method : impl Into < GodotString > , params : impl OwnedToVariant , id : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_request ; let ret = crate :: icalls :: icallptr_dict_str_var_var (method_bind , self . this . sys () . as_ptr () , method . into () , params . owned_to_variant () , id . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn make_response (& self , result : impl OwnedToVariant , id : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_response ; let ret = crate :: icalls :: icallptr_dict_var_var (method_bind , self . this . sys () . as_ptr () , result . owned_to_variant () , id . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = "\n# Default Arguments\n* `id` - `null`"] # [doc = ""] # [inline] pub fn make_response_error (& self , code : i64 , message : impl Into < GodotString > , id : impl OwnedToVariant) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . make_response_error ; let ret = crate :: icalls :: icallptr_dict_i64_str_var (method_bind , self . this . sys () . as_ptr () , code , message . into () , id . owned_to_variant ()) ; Dictionary :: from_sys (ret) } } # [doc = "\n# Default Arguments\n* `recurse` - `false`"] # [doc = ""] # [inline] pub fn process_action (& self , action : impl OwnedToVariant , recurse : bool) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . process_action ; let ret = crate :: icalls :: icallptr_var_var_bool (method_bind , self . this . sys () . as_ptr () , action . owned_to_variant () , recurse) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn process_string (& self , action : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . process_string ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , action . into ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_scope (& self , scope : impl Into < GodotString > , target : impl AsArg < crate :: generated :: object :: Object >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = JSONRPCMethodTable :: get (get_api ()) . set_scope ; let ret = crate :: icalls :: icallptr_void_str_obj (method_bind , self . this . sys () . as_ptr () , scope . into () , target . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for JSONRPC { } unsafe impl GodotObject for JSONRPC { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "JSONRPC" } } impl std :: ops :: Deref for JSONRPC { type Target = crate :: generated :: object :: Object ; # [inline] fn deref (& self) -> & crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for JSONRPC { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: object :: Object { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: object :: Object > for JSONRPC { } impl Instanciable for JSONRPC { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { JSONRPC :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct JSONRPCMethodTable { pub class_constructor : sys :: godot_class_constructor , pub make_notification : * mut sys :: godot_method_bind , pub make_request : * mut sys :: godot_method_bind , pub make_response : * mut sys :: godot_method_bind , pub make_response_error : * mut sys :: godot_method_bind , pub process_action : * mut sys :: godot_method_bind , pub process_string : * mut sys :: godot_method_bind , pub set_scope : * mut sys :: godot_method_bind } impl JSONRPCMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : JSONRPCMethodTable = JSONRPCMethodTable { class_constructor : None , make_notification : 0 as * mut sys :: godot_method_bind , make_request : 0 as * mut sys :: godot_method_bind , make_response : 0 as * mut sys :: godot_method_bind , make_response_error : 0 as * mut sys :: godot_method_bind , process_action : 0 as * mut sys :: godot_method_bind , process_string : 0 as * mut sys :: godot_method_bind , set_scope : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { JSONRPCMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "JSONRPC\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . make_notification = (gd_api . godot_method_bind_get_method) (class_name , "make_notification\0" . as_ptr () as * const c_char) ; table . make_request = (gd_api . godot_method_bind_get_method) (class_name , "make_request\0" . as_ptr () as * const c_char) ; table . make_response = (gd_api . godot_method_bind_get_method) (class_name , "make_response\0" . as_ptr () as * const c_char) ; table . make_response_error = (gd_api . godot_method_bind_get_method) (class_name , "make_response_error\0" . as_ptr () as * const c_char) ; table . process_action = (gd_api . godot_method_bind_get_method) (class_name , "process_action\0" . as_ptr () as * const c_char) ; table . process_string = (gd_api . godot_method_bind_get_method) (class_name , "process_string\0" . as_ptr () as * const c_char) ; table . set_scope = (gd_api . godot_method_bind_get_method) (class_name , "set_scope\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:634:9158 [INFO] [stdout] | [INFO] [stdout] 634 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 CollisionShape2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_collisionshape2d.html) in the Godot 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`CollisionShape2D` 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\nCollisionShape2D 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 CollisionShape2D { this : RawObject < Self > , } impl CollisionShape2D { # [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 = CollisionShape2DMethodTable :: 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 margin used for one-way collision (in pixels). Higher values will make the shape thicker, and work better for colliders that enter the shape at a high velocity."] # [doc = ""] # [inline] pub fn one_way_collision_margin (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShape2DMethodTable :: get (get_api ()) . get_one_way_collision_margin ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The actual shape owned by this collision 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 = CollisionShape2DMethodTable :: 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 = "A disabled collision shape has no effect in the world. This property should be changed with [method Object.set_deferred]."] # [doc = ""] # [inline] pub fn is_disabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShape2DMethodTable :: get (get_api ()) . is_disabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets whether this collision shape should only detect collision on one side (top or bottom)."] # [doc = ""] # [inline] pub fn is_one_way_collision_enabled (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShape2DMethodTable :: get (get_api ()) . is_one_way_collision_enabled ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "A disabled collision shape has no effect in the world. This property should be changed with [method Object.set_deferred]."] # [doc = ""] # [inline] pub fn set_disabled (& self , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShape2DMethodTable :: get (get_api ()) . set_disabled ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , disabled) ; } } # [doc = "Sets whether this collision shape should only detect collision on one side (top or bottom)."] # [doc = ""] # [inline] pub fn set_one_way_collision (& self , enabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShape2DMethodTable :: get (get_api ()) . set_one_way_collision ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enabled) ; } } # [doc = "The margin used for one-way collision (in pixels). Higher values will make the shape thicker, and work better for colliders that enter the shape at a high velocity."] # [doc = ""] # [inline] pub fn set_one_way_collision_margin (& self , margin : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CollisionShape2DMethodTable :: get (get_api ()) . set_one_way_collision_margin ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , margin) ; } } # [doc = "The actual shape owned by this collision 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 = CollisionShape2DMethodTable :: get (get_api ()) . set_shape ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , shape . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CollisionShape2D { } unsafe impl GodotObject for CollisionShape2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "CollisionShape2D" } } impl QueueFree for CollisionShape2D { # [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 CollisionShape2D { 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 CollisionShape2D { # [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 CollisionShape2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for CollisionShape2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for CollisionShape2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for CollisionShape2D { } impl Instanciable for CollisionShape2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CollisionShape2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CollisionShape2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_one_way_collision_margin : * mut sys :: godot_method_bind , pub get_shape : * mut sys :: godot_method_bind , pub is_disabled : * mut sys :: godot_method_bind , pub is_one_way_collision_enabled : * mut sys :: godot_method_bind , pub set_disabled : * mut sys :: godot_method_bind , pub set_one_way_collision : * mut sys :: godot_method_bind , pub set_one_way_collision_margin : * mut sys :: godot_method_bind , pub set_shape : * mut sys :: godot_method_bind } impl CollisionShape2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CollisionShape2DMethodTable = CollisionShape2DMethodTable { class_constructor : None , get_one_way_collision_margin : 0 as * mut sys :: godot_method_bind , get_shape : 0 as * mut sys :: godot_method_bind , is_disabled : 0 as * mut sys :: godot_method_bind , is_one_way_collision_enabled : 0 as * mut sys :: godot_method_bind , set_disabled : 0 as * mut sys :: godot_method_bind , set_one_way_collision : 0 as * mut sys :: godot_method_bind , set_one_way_collision_margin : 0 as * mut sys :: godot_method_bind , set_shape : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CollisionShape2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CollisionShape2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_one_way_collision_margin = (gd_api . godot_method_bind_get_method) (class_name , "get_one_way_collision_margin\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 . is_disabled = (gd_api . godot_method_bind_get_method) (class_name , "is_disabled\0" . as_ptr () as * const c_char) ; table . is_one_way_collision_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_one_way_collision_enabled\0" . as_ptr () as * const c_char) ; table . set_disabled = (gd_api . godot_method_bind_get_method) (class_name , "set_disabled\0" . as_ptr () as * const c_char) ; table . set_one_way_collision = (gd_api . godot_method_bind_get_method) (class_name , "set_one_way_collision\0" . as_ptr () as * const c_char) ; table . set_one_way_collision_margin = (gd_api . godot_method_bind_get_method) (class_name , "set_one_way_collision_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) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:640:3756 [INFO] [stdout] | [INFO] [stdout] 640 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 PluginScript` inherits `Script` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_pluginscript.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPluginScript 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 PluginScript { this : RawObject < Self > , } impl PluginScript { # [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 = PluginScriptMethodTable :: 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 _new (& self , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = PluginScriptMethodTable :: 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 PluginScript { } unsafe impl GodotObject for PluginScript { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PluginScript" } } impl std :: ops :: Deref for PluginScript { type Target = crate :: generated :: script :: Script ; # [inline] fn deref (& self) -> & crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PluginScript { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: script :: Script > for PluginScript { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PluginScript { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PluginScript { } unsafe impl SubClass < crate :: generated :: object :: Object > for PluginScript { } impl Instanciable for PluginScript { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PluginScript :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PluginScriptMethodTable { pub class_constructor : sys :: godot_class_constructor , pub _new : * mut sys :: godot_method_bind } impl PluginScriptMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PluginScriptMethodTable = PluginScriptMethodTable { class_constructor : None , _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 (|| { PluginScriptMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PluginScript\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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-7a634cfa4295a760/out/generated.rs:646:4565 [INFO] [stdout] | [INFO] [stdout] 646 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualScriptEmitSignal` inherits `VisualScriptNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualscriptemitsignal.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualScriptEmitSignal 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 VisualScriptEmitSignal { this : RawObject < Self > , } impl VisualScriptEmitSignal { # [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 = VisualScriptEmitSignalMethodTable :: 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 signal (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptEmitSignalMethodTable :: get (get_api ()) . get_signal ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn set_signal (& self , name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualScriptEmitSignalMethodTable :: get (get_api ()) . set_signal ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualScriptEmitSignal { } unsafe impl GodotObject for VisualScriptEmitSignal { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualScriptEmitSignal" } } impl std :: ops :: Deref for VisualScriptEmitSignal { 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 VisualScriptEmitSignal { # [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 VisualScriptEmitSignal { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualScriptEmitSignal { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualScriptEmitSignal { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualScriptEmitSignal { } impl Instanciable for VisualScriptEmitSignal { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualScriptEmitSignal :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualScriptEmitSignalMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_signal : * mut sys :: godot_method_bind , pub set_signal : * mut sys :: godot_method_bind } impl VisualScriptEmitSignalMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualScriptEmitSignalMethodTable = VisualScriptEmitSignalMethodTable { class_constructor : None , get_signal : 0 as * mut sys :: godot_method_bind , set_signal : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualScriptEmitSignalMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualScriptEmitSignal\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_signal = (gd_api . godot_method_bind_get_method) (class_name , "get_signal\0" . as_ptr () as * const c_char) ; table . set_signal = (gd_api . godot_method_bind_get_method) (class_name , "set_signal\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:652:9385 [INFO] [stdout] | [INFO] [stdout] 652 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:658:7110 [INFO] [stdout] | [INFO] [stdout] 658 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:664:11805 [INFO] [stdout] | [INFO] [stdout] 664 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 664 | # [doc = "`core class 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-7a634cfa4295a760/out/generated.rs:670:16637 [INFO] [stdout] | [INFO] [stdout] 670 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Mesh` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_mesh.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nMesh 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 Mesh { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ArrayFormat (pub i64) ; impl ArrayFormat { pub const FORMAT_VERTEX : ArrayFormat = ArrayFormat (1i64) ; pub const FORMAT_NORMAL : ArrayFormat = ArrayFormat (2i64) ; pub const FORMAT_TANGENT : ArrayFormat = ArrayFormat (4i64) ; pub const FORMAT_COLOR : ArrayFormat = ArrayFormat (8i64) ; pub const COMPRESS_BASE : ArrayFormat = ArrayFormat (9i64) ; pub const FORMAT_TEX_UV : ArrayFormat = ArrayFormat (16i64) ; pub const FORMAT_TEX_UV2 : ArrayFormat = ArrayFormat (32i64) ; pub const FORMAT_BONES : ArrayFormat = ArrayFormat (64i64) ; pub const FORMAT_WEIGHTS : ArrayFormat = ArrayFormat (128i64) ; pub const FORMAT_INDEX : ArrayFormat = ArrayFormat (256i64) ; pub const COMPRESS_VERTEX : ArrayFormat = ArrayFormat (512i64) ; pub const COMPRESS_NORMAL : ArrayFormat = ArrayFormat (1024i64) ; pub const COMPRESS_TANGENT : ArrayFormat = ArrayFormat (2048i64) ; pub const COMPRESS_COLOR : ArrayFormat = ArrayFormat (4096i64) ; pub const COMPRESS_TEX_UV : ArrayFormat = ArrayFormat (8192i64) ; pub const COMPRESS_TEX_UV2 : ArrayFormat = ArrayFormat (16384i64) ; pub const COMPRESS_BONES : ArrayFormat = ArrayFormat (32768i64) ; pub const COMPRESS_WEIGHTS : ArrayFormat = ArrayFormat (65536i64) ; pub const COMPRESS_DEFAULT : ArrayFormat = ArrayFormat (97280i64) ; pub const COMPRESS_INDEX : ArrayFormat = ArrayFormat (131072i64) ; pub const FLAG_USE_2D_VERTICES : ArrayFormat = ArrayFormat (262144i64) ; pub const FLAG_USE_16_BIT_BONES : ArrayFormat = ArrayFormat (524288i64) ; } impl From < i64 > for ArrayFormat { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ArrayFormat > for i64 { # [inline] fn from (v : ArrayFormat) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct ArrayType (pub i64) ; impl ArrayType { pub const VERTEX : ArrayType = ArrayType (0i64) ; pub const NORMAL : ArrayType = ArrayType (1i64) ; pub const TANGENT : ArrayType = ArrayType (2i64) ; pub const COLOR : ArrayType = ArrayType (3i64) ; pub const TEX_UV : ArrayType = ArrayType (4i64) ; pub const TEX_UV2 : ArrayType = ArrayType (5i64) ; pub const BONES : ArrayType = ArrayType (6i64) ; pub const WEIGHTS : ArrayType = ArrayType (7i64) ; pub const INDEX : ArrayType = ArrayType (8i64) ; pub const MAX : ArrayType = ArrayType (9i64) ; } impl From < i64 > for ArrayType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < ArrayType > for i64 { # [inline] fn from (v : ArrayType) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct BlendShapeMode (pub i64) ; impl BlendShapeMode { pub const NORMALIZED : BlendShapeMode = BlendShapeMode (0i64) ; pub const RELATIVE : BlendShapeMode = BlendShapeMode (1i64) ; } impl From < i64 > for BlendShapeMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < BlendShapeMode > for i64 { # [inline] fn from (v : BlendShapeMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct PrimitiveType (pub i64) ; impl PrimitiveType { pub const POINTS : PrimitiveType = PrimitiveType (0i64) ; pub const LINES : PrimitiveType = PrimitiveType (1i64) ; pub const LINE_STRIP : PrimitiveType = PrimitiveType (2i64) ; pub const LINE_LOOP : PrimitiveType = PrimitiveType (3i64) ; pub const TRIANGLES : PrimitiveType = PrimitiveType (4i64) ; pub const TRIANGLE_STRIP : PrimitiveType = PrimitiveType (5i64) ; pub const TRIANGLE_FAN : PrimitiveType = PrimitiveType (6i64) ; } impl From < i64 > for PrimitiveType { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < PrimitiveType > for i64 { # [inline] fn from (v : PrimitiveType) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Mesh { pub const ARRAY_BONES : i64 = 6i64 ; pub const ARRAY_COLOR : i64 = 3i64 ; pub const ARRAY_COMPRESS_BASE : i64 = 9i64 ; pub const ARRAY_COMPRESS_BONES : i64 = 32768i64 ; pub const ARRAY_COMPRESS_COLOR : i64 = 4096i64 ; pub const ARRAY_COMPRESS_DEFAULT : i64 = 97280i64 ; pub const ARRAY_COMPRESS_INDEX : i64 = 131072i64 ; pub const ARRAY_COMPRESS_NORMAL : i64 = 1024i64 ; pub const ARRAY_COMPRESS_TANGENT : i64 = 2048i64 ; pub const ARRAY_COMPRESS_TEX_UV : i64 = 8192i64 ; pub const ARRAY_COMPRESS_TEX_UV2 : i64 = 16384i64 ; pub const ARRAY_COMPRESS_VERTEX : i64 = 512i64 ; pub const ARRAY_COMPRESS_WEIGHTS : i64 = 65536i64 ; pub const ARRAY_FLAG_USE_16_BIT_BONES : i64 = 524288i64 ; pub const ARRAY_FLAG_USE_2D_VERTICES : i64 = 262144i64 ; pub const ARRAY_FORMAT_BONES : i64 = 64i64 ; pub const ARRAY_FORMAT_COLOR : i64 = 8i64 ; pub const ARRAY_FORMAT_INDEX : i64 = 256i64 ; pub const ARRAY_FORMAT_NORMAL : i64 = 2i64 ; pub const ARRAY_FORMAT_TANGENT : i64 = 4i64 ; pub const ARRAY_FORMAT_TEX_UV : i64 = 16i64 ; pub const ARRAY_FORMAT_TEX_UV2 : i64 = 32i64 ; pub const ARRAY_FORMAT_VERTEX : i64 = 1i64 ; pub const ARRAY_FORMAT_WEIGHTS : i64 = 128i64 ; pub const ARRAY_INDEX : i64 = 8i64 ; pub const ARRAY_MAX : i64 = 9i64 ; pub const ARRAY_NORMAL : i64 = 1i64 ; pub const ARRAY_TANGENT : i64 = 2i64 ; pub const ARRAY_TEX_UV : i64 = 4i64 ; pub const ARRAY_TEX_UV2 : i64 = 5i64 ; pub const ARRAY_VERTEX : i64 = 0i64 ; pub const ARRAY_WEIGHTS : i64 = 7i64 ; pub const BLEND_SHAPE_MODE_NORMALIZED : i64 = 0i64 ; pub const BLEND_SHAPE_MODE_RELATIVE : i64 = 1i64 ; pub const PRIMITIVE_LINES : i64 = 1i64 ; pub const PRIMITIVE_LINE_LOOP : i64 = 3i64 ; pub const PRIMITIVE_LINE_STRIP : i64 = 2i64 ; pub const PRIMITIVE_POINTS : i64 = 0i64 ; pub const PRIMITIVE_TRIANGLES : i64 = 4i64 ; pub const PRIMITIVE_TRIANGLE_FAN : i64 = 6i64 ; pub const PRIMITIVE_TRIANGLE_STRIP : i64 = 5i64 ; } impl Mesh { # [doc = "Calculate a [ConvexPolygonShape] from the mesh."] # [doc = ""] # [inline] pub fn create_convex_shape (& self) -> Option < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . create_convex_shape ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Calculate an outline mesh at a defined offset (margin) from the original mesh.\n**Note:** This method typically returns the vertices in reverse order (e.g. clockwise to counterclockwise)."] # [doc = ""] # [inline] pub fn create_outline (& self , margin : f64) -> Option < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . create_outline ; let ret = crate :: icalls :: icallptr_obj_f64 (method_bind , self . this . sys () . as_ptr () , margin) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: mesh :: Mesh , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Calculate a [ConcavePolygonShape] from the mesh."] # [doc = ""] # [inline] pub fn create_trimesh_shape (& self) -> Option < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . create_trimesh_shape ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: shape :: Shape , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Generate a [TriangleMesh] from the mesh."] # [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 = MeshMethodTable :: 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 = "Returns the smallest [AABB] enclosing this mesh in local space. Not affected by `custom_aabb`. See also [method VisualInstance.get_transformed_aabb].\n**Note:** This is only implemented for [ArrayMesh] and [PrimitiveMesh]."] # [doc = ""] # [inline] pub fn get_aabb (& self) -> Aabb { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . get_aabb ; let ret = crate :: icalls :: icallptr_aabb (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns all the vertices that make up the faces of the mesh. Each three vertices represent one triangle."] # [doc = ""] # [inline] pub fn get_faces (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . get_faces ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = "Sets a hint to be used for lightmap resolution in [BakedLightmap]. Overrides [member BakedLightmap.bake_default_texels_per_unit]."] # [doc = ""] # [inline] pub fn lightmap_size_hint (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . get_lightmap_size_hint ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Returns the amount of surfaces that the [Mesh] holds."] # [doc = ""] # [inline] pub fn get_surface_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . get_surface_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Sets a hint to be used for lightmap resolution in [BakedLightmap]. Overrides [member BakedLightmap.bake_default_texels_per_unit]."] # [doc = ""] # [inline] pub fn set_lightmap_size_hint (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . set_lightmap_size_hint ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Returns the arrays for the vertices, normals, uvs, etc. that make up the requested surface (see [method ArrayMesh.add_surface_from_arrays])."] # [doc = ""] # [inline] pub fn surface_get_arrays (& self , surf_idx : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . surface_get_arrays ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , surf_idx) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns the blend shape arrays for the requested surface."] # [doc = ""] # [inline] pub fn surface_get_blend_shape_arrays (& self , surf_idx : i64) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . surface_get_blend_shape_arrays ; let ret = crate :: icalls :: icallvar__i64 (method_bind , self . this . sys () . as_ptr () , surf_idx) ; < VariantArray > :: from_variant (& ret) . expect ("Unexpected variant type") } } # [doc = "Returns a [Material] in a given surface. Surface is rendered using this material."] # [doc = ""] # [inline] pub fn surface_get_material (& self , surf_idx : i64) -> Option < Ref < crate :: generated :: material :: Material , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . surface_get_material ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , surf_idx) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: material :: Material , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Sets a [Material] for a given surface. Surface will be rendered using this material."] # [doc = ""] # [inline] pub fn surface_set_material (& self , surf_idx : i64 , material : impl AsArg < crate :: generated :: material :: Material >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = MeshMethodTable :: get (get_api ()) . surface_set_material ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , surf_idx , material . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Mesh { } unsafe impl GodotObject for Mesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Mesh" } } impl std :: ops :: Deref for Mesh { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Mesh { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Mesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Mesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for Mesh { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct MeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub create_convex_shape : * mut sys :: godot_method_bind , pub create_outline : * mut sys :: godot_method_bind , pub create_trimesh_shape : * mut sys :: godot_method_bind , pub generate_triangle_mesh : * mut sys :: godot_method_bind , pub get_aabb : * mut sys :: godot_method_bind , pub get_faces : * mut sys :: godot_method_bind , pub get_lightmap_size_hint : * mut sys :: godot_method_bind , pub get_surface_count : * mut sys :: godot_method_bind , pub set_lightmap_size_hint : * mut sys :: godot_method_bind , pub surface_get_arrays : * mut sys :: godot_method_bind , pub surface_get_blend_shape_arrays : * mut sys :: godot_method_bind , pub surface_get_material : * mut sys :: godot_method_bind , pub surface_set_material : * mut sys :: godot_method_bind } impl MeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : MeshMethodTable = MeshMethodTable { class_constructor : None , create_convex_shape : 0 as * mut sys :: godot_method_bind , create_outline : 0 as * mut sys :: godot_method_bind , create_trimesh_shape : 0 as * mut sys :: godot_method_bind , generate_triangle_mesh : 0 as * mut sys :: godot_method_bind , get_aabb : 0 as * mut sys :: godot_method_bind , get_faces : 0 as * mut sys :: godot_method_bind , get_lightmap_size_hint : 0 as * mut sys :: godot_method_bind , get_surface_count : 0 as * mut sys :: godot_method_bind , set_lightmap_size_hint : 0 as * mut sys :: godot_method_bind , surface_get_arrays : 0 as * mut sys :: godot_method_bind , surface_get_blend_shape_arrays : 0 as * mut sys :: godot_method_bind , surface_get_material : 0 as * mut sys :: godot_method_bind , surface_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 (|| { MeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Mesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . create_convex_shape = (gd_api . godot_method_bind_get_method) (class_name , "create_convex_shape\0" . as_ptr () as * const c_char) ; table . create_outline = (gd_api . godot_method_bind_get_method) (class_name , "create_outline\0" . as_ptr () as * const c_char) ; table . create_trimesh_shape = (gd_api . godot_method_bind_get_method) (class_name , "create_trimesh_shape\0" . as_ptr () as * const c_char) ; 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_aabb = (gd_api . godot_method_bind_get_method) (class_name , "get_aabb\0" . as_ptr () as * const c_char) ; table . get_faces = (gd_api . godot_method_bind_get_method) (class_name , "get_faces\0" . as_ptr () as * const c_char) ; table . get_lightmap_size_hint = (gd_api . godot_method_bind_get_method) (class_name , "get_lightmap_size_hint\0" . as_ptr () as * const c_char) ; table . get_surface_count = (gd_api . godot_method_bind_get_method) (class_name , "get_surface_count\0" . as_ptr () as * const c_char) ; table . set_lightmap_size_hint = (gd_api . godot_method_bind_get_method) (class_name , "set_lightmap_size_hint\0" . as_ptr () as * const c_char) ; table . surface_get_arrays = (gd_api . godot_method_bind_get_method) (class_name , "surface_get_arrays\0" . as_ptr () as * const c_char) ; table . surface_get_blend_shape_arrays = (gd_api . godot_method_bind_get_method) (class_name , "surface_get_blend_shape_arrays\0" . as_ptr () as * const c_char) ; table . surface_get_material = (gd_api . godot_method_bind_get_method) (class_name , "surface_get_material\0" . as_ptr () as * const c_char) ; table . surface_set_material = (gd_api . godot_method_bind_get_method) (class_name , "surface_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-7a634cfa4295a760/out/generated.rs:676:4664 [INFO] [stdout] | [INFO] [stdout] 676 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 ViewportTexture` inherits `Texture` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_viewporttexture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nViewportTexture inherits methods from:\n - [Texture](struct.Texture.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct ViewportTexture { this : RawObject < Self > , } impl ViewportTexture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = ViewportTextureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The path to the [Viewport] node to display. This is relative to the scene root, not to the node which uses the texture."] # [doc = ""] # [inline] pub fn viewport_path_in_scene (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportTextureMethodTable :: get (get_api ()) . get_viewport_path_in_scene ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "The path to the [Viewport] node to display. This is relative to the scene root, not to the node which uses the texture."] # [doc = ""] # [inline] pub fn set_viewport_path_in_scene (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ViewportTextureMethodTable :: get (get_api ()) . set_viewport_path_in_scene ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ViewportTexture { } unsafe impl GodotObject for ViewportTexture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "ViewportTexture" } } impl std :: ops :: Deref for ViewportTexture { type Target = crate :: generated :: texture :: Texture ; # [inline] fn deref (& self) -> & crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ViewportTexture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: texture :: Texture { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: texture :: Texture > for ViewportTexture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for ViewportTexture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for ViewportTexture { } unsafe impl SubClass < crate :: generated :: object :: Object > for ViewportTexture { } impl Instanciable for ViewportTexture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ViewportTexture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ViewportTextureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_viewport_path_in_scene : * mut sys :: godot_method_bind , pub set_viewport_path_in_scene : * mut sys :: godot_method_bind } impl ViewportTextureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ViewportTextureMethodTable = ViewportTextureMethodTable { class_constructor : None , get_viewport_path_in_scene : 0 as * mut sys :: godot_method_bind , set_viewport_path_in_scene : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ViewportTextureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ViewportTexture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_viewport_path_in_scene = (gd_api . godot_method_bind_get_method) (class_name , "get_viewport_path_in_scene\0" . as_ptr () as * const c_char) ; table . set_viewport_path_in_scene = (gd_api . godot_method_bind_get_method) (class_name , "set_viewport_path_in_scene\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:682:5724 [INFO] [stdout] | [INFO] [stdout] 682 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeScalarDerivativeFunc` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodescalarderivativefunc.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeScalarDerivativeFunc 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 VisualShaderNodeScalarDerivativeFunc { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Function (pub i64) ; impl Function { pub const SUM : Function = Function (0i64) ; pub const X : Function = Function (1i64) ; pub const Y : Function = Function (2i64) ; } impl From < i64 > for Function { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Function > for i64 { # [inline] fn from (v : Function) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl VisualShaderNodeScalarDerivativeFunc { pub const FUNC_SUM : i64 = 0i64 ; pub const FUNC_X : i64 = 1i64 ; pub const FUNC_Y : i64 = 2i64 ; } impl VisualShaderNodeScalarDerivativeFunc { # [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 = VisualShaderNodeScalarDerivativeFuncMethodTable :: 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 derivative type. See [enum Function] for options."] # [doc = ""] # [inline] pub fn function (& self) -> crate :: generated :: visual_shader_node_scalar_derivative_func :: Function { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeScalarDerivativeFuncMethodTable :: get (get_api ()) . get_function ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: visual_shader_node_scalar_derivative_func :: Function (ret) } } # [doc = "The derivative type. See [enum Function] for options."] # [doc = ""] # [inline] pub fn set_function (& self , func : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = VisualShaderNodeScalarDerivativeFuncMethodTable :: 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 VisualShaderNodeScalarDerivativeFunc { } unsafe impl GodotObject for VisualShaderNodeScalarDerivativeFunc { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeScalarDerivativeFunc" } } impl std :: ops :: Deref for VisualShaderNodeScalarDerivativeFunc { 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 VisualShaderNodeScalarDerivativeFunc { # [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 VisualShaderNodeScalarDerivativeFunc { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeScalarDerivativeFunc { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeScalarDerivativeFunc { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeScalarDerivativeFunc { } impl Instanciable for VisualShaderNodeScalarDerivativeFunc { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeScalarDerivativeFunc :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeScalarDerivativeFuncMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_function : * mut sys :: godot_method_bind , pub set_function : * mut sys :: godot_method_bind } impl VisualShaderNodeScalarDerivativeFuncMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeScalarDerivativeFuncMethodTable = VisualShaderNodeScalarDerivativeFuncMethodTable { 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 (|| { VisualShaderNodeScalarDerivativeFuncMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeScalarDerivativeFunc\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-7a634cfa4295a760/out/generated.rs:688:4238 [INFO] [stdout] | [INFO] [stdout] 688 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:694:27266 [INFO] [stdout] | [INFO] [stdout] 694 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 NavigationMesh` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_navigationmesh.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nNavigationMesh 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 NavigationMesh { this : RawObject < Self > , } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl NavigationMesh { pub const PARSED_GEOMETRY_BOTH : i64 = 2i64 ; pub const PARSED_GEOMETRY_MESH_INSTANCES : i64 = 0i64 ; pub const PARSED_GEOMETRY_STATIC_COLLIDERS : i64 = 1i64 ; pub const SAMPLE_PARTITION_LAYERS : i64 = 2i64 ; pub const SAMPLE_PARTITION_MONOTONE : i64 = 1i64 ; pub const SAMPLE_PARTITION_WATERSHED : i64 = 0i64 ; } impl NavigationMesh { # [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 = NavigationMeshMethodTable :: 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_polygon (& self , polygon : Int32Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . add_polygon ; let ret = crate :: icalls :: icallptr_void_i32arr (method_bind , self . this . sys () . as_ptr () , polygon) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn clear_polygons (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . clear_polygons ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn create_from_mesh (& self , mesh : impl AsArg < crate :: generated :: mesh :: Mesh >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . create_from_mesh ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , mesh . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn agent_height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_agent_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn agent_max_climb (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_agent_max_climb ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn agent_max_slope (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_agent_max_slope ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn agent_radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_agent_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn cell_height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_cell_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn cell_size (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: 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 collision_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: 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 = NavigationMeshMethodTable :: 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 detail_sample_distance (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_detail_sample_distance ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn detail_sample_max_error (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_detail_sample_max_error ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn edge_max_error (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_edge_max_error ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn edge_max_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_edge_max_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn filter_ledge_spans (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_filter_ledge_spans ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn filter_low_hanging_obstacles (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_filter_low_hanging_obstacles ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn filter_walkable_low_height_spans (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_filter_walkable_low_height_spans ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn parsed_geometry_type (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_parsed_geometry_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_polygon (& self , idx : i64) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_polygon ; let ret = crate :: icalls :: icallptr_i32arr_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Int32Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_polygon_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_polygon_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn region_merge_size (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_region_merge_size ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn region_min_size (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_region_min_size ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn sample_partition_type (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_sample_partition_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn source_geometry_mode (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_source_geometry_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn source_group_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_source_group_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn vertices (& self) -> Vector3Array { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_vertices ; let ret = crate :: icalls :: icallptr_vec3arr (method_bind , self . this . sys () . as_ptr ()) ; Vector3Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn verts_per_poly (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . get_verts_per_poly ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_agent_height (& self , agent_height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_agent_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , agent_height) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_agent_max_climb (& self , agent_max_climb : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_agent_max_climb ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , agent_max_climb) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_agent_max_slope (& self , agent_max_slope : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_agent_max_slope ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , agent_max_slope) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_agent_radius (& self , agent_radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_agent_radius ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , agent_radius) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_height (& self , cell_height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_cell_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , cell_height) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_cell_size (& self , cell_size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: 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_collision_mask (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: 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 = NavigationMeshMethodTable :: 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_detail_sample_distance (& self , detail_sample_dist : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_detail_sample_distance ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , detail_sample_dist) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_detail_sample_max_error (& self , detail_sample_max_error : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_detail_sample_max_error ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , detail_sample_max_error) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_edge_max_error (& self , edge_max_error : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_edge_max_error ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , edge_max_error) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_edge_max_length (& self , edge_max_length : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_edge_max_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , edge_max_length) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_filter_ledge_spans (& self , filter_ledge_spans : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_filter_ledge_spans ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , filter_ledge_spans) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_filter_low_hanging_obstacles (& self , filter_low_hanging_obstacles : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_filter_low_hanging_obstacles ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , filter_low_hanging_obstacles) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_filter_walkable_low_height_spans (& self , filter_walkable_low_height_spans : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_filter_walkable_low_height_spans ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , filter_walkable_low_height_spans) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_parsed_geometry_type (& self , geometry_type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_parsed_geometry_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , geometry_type) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_region_merge_size (& self , region_merge_size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_region_merge_size ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , region_merge_size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_region_min_size (& self , region_min_size : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_region_min_size ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , region_min_size) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_sample_partition_type (& self , sample_partition_type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_sample_partition_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , sample_partition_type) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_source_geometry_mode (& self , mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_source_geometry_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mask) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_source_group_name (& self , mask : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_source_group_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , mask . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_vertices (& self , vertices : Vector3Array) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_vertices ; let ret = crate :: icalls :: icallptr_void_vec3arr (method_bind , self . this . sys () . as_ptr () , vertices) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_verts_per_poly (& self , verts_per_poly : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NavigationMeshMethodTable :: get (get_api ()) . set_verts_per_poly ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , verts_per_poly) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for NavigationMesh { } unsafe impl GodotObject for NavigationMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "NavigationMesh" } } impl std :: ops :: Deref for NavigationMesh { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for NavigationMesh { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for NavigationMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for NavigationMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for NavigationMesh { } impl Instanciable for NavigationMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { NavigationMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct NavigationMeshMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_polygon : * mut sys :: godot_method_bind , pub clear_polygons : * mut sys :: godot_method_bind , pub create_from_mesh : * mut sys :: godot_method_bind , pub get_agent_height : * mut sys :: godot_method_bind , pub get_agent_max_climb : * mut sys :: godot_method_bind , pub get_agent_max_slope : * mut sys :: godot_method_bind , pub get_agent_radius : * mut sys :: godot_method_bind , pub get_cell_height : * mut sys :: godot_method_bind , pub get_cell_size : * 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_detail_sample_distance : * mut sys :: godot_method_bind , pub get_detail_sample_max_error : * mut sys :: godot_method_bind , pub get_edge_max_error : * mut sys :: godot_method_bind , pub get_edge_max_length : * mut sys :: godot_method_bind , pub get_filter_ledge_spans : * mut sys :: godot_method_bind , pub get_filter_low_hanging_obstacles : * mut sys :: godot_method_bind , pub get_filter_walkable_low_height_spans : * mut sys :: godot_method_bind , pub get_parsed_geometry_type : * mut sys :: godot_method_bind , pub get_polygon : * mut sys :: godot_method_bind , pub get_polygon_count : * mut sys :: godot_method_bind , pub get_region_merge_size : * mut sys :: godot_method_bind , pub get_region_min_size : * mut sys :: godot_method_bind , pub get_sample_partition_type : * mut sys :: godot_method_bind , pub get_source_geometry_mode : * mut sys :: godot_method_bind , pub get_source_group_name : * mut sys :: godot_method_bind , pub get_vertices : * mut sys :: godot_method_bind , pub get_verts_per_poly : * mut sys :: godot_method_bind , pub set_agent_height : * mut sys :: godot_method_bind , pub set_agent_max_climb : * mut sys :: godot_method_bind , pub set_agent_max_slope : * mut sys :: godot_method_bind , pub set_agent_radius : * mut sys :: godot_method_bind , pub set_cell_height : * mut sys :: godot_method_bind , pub set_cell_size : * 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_detail_sample_distance : * mut sys :: godot_method_bind , pub set_detail_sample_max_error : * mut sys :: godot_method_bind , pub set_edge_max_error : * mut sys :: godot_method_bind , pub set_edge_max_length : * mut sys :: godot_method_bind , pub set_filter_ledge_spans : * mut sys :: godot_method_bind , pub set_filter_low_hanging_obstacles : * mut sys :: godot_method_bind , pub set_filter_walkable_low_height_spans : * mut sys :: godot_method_bind , pub set_parsed_geometry_type : * mut sys :: godot_method_bind , pub set_region_merge_size : * mut sys :: godot_method_bind , pub set_region_min_size : * mut sys :: godot_method_bind , pub set_sample_partition_type : * mut sys :: godot_method_bind , pub set_source_geometry_mode : * mut sys :: godot_method_bind , pub set_source_group_name : * mut sys :: godot_method_bind , pub set_vertices : * mut sys :: godot_method_bind , pub set_verts_per_poly : * mut sys :: godot_method_bind } impl NavigationMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : NavigationMeshMethodTable = NavigationMeshMethodTable { class_constructor : None , add_polygon : 0 as * mut sys :: godot_method_bind , clear_polygons : 0 as * mut sys :: godot_method_bind , create_from_mesh : 0 as * mut sys :: godot_method_bind , get_agent_height : 0 as * mut sys :: godot_method_bind , get_agent_max_climb : 0 as * mut sys :: godot_method_bind , get_agent_max_slope : 0 as * mut sys :: godot_method_bind , get_agent_radius : 0 as * mut sys :: godot_method_bind , get_cell_height : 0 as * mut sys :: godot_method_bind , get_cell_size : 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_detail_sample_distance : 0 as * mut sys :: godot_method_bind , get_detail_sample_max_error : 0 as * mut sys :: godot_method_bind , get_edge_max_error : 0 as * mut sys :: godot_method_bind , get_edge_max_length : 0 as * mut sys :: godot_method_bind , get_filter_ledge_spans : 0 as * mut sys :: godot_method_bind , get_filter_low_hanging_obstacles : 0 as * mut sys :: godot_method_bind , get_filter_walkable_low_height_spans : 0 as * mut sys :: godot_method_bind , get_parsed_geometry_type : 0 as * mut sys :: godot_method_bind , get_polygon : 0 as * mut sys :: godot_method_bind , get_polygon_count : 0 as * mut sys :: godot_method_bind , get_region_merge_size : 0 as * mut sys :: godot_method_bind , get_region_min_size : 0 as * mut sys :: godot_method_bind , get_sample_partition_type : 0 as * mut sys :: godot_method_bind , get_source_geometry_mode : 0 as * mut sys :: godot_method_bind , get_source_group_name : 0 as * mut sys :: godot_method_bind , get_vertices : 0 as * mut sys :: godot_method_bind , get_verts_per_poly : 0 as * mut sys :: godot_method_bind , set_agent_height : 0 as * mut sys :: godot_method_bind , set_agent_max_climb : 0 as * mut sys :: godot_method_bind , set_agent_max_slope : 0 as * mut sys :: godot_method_bind , set_agent_radius : 0 as * mut sys :: godot_method_bind , set_cell_height : 0 as * mut sys :: godot_method_bind , set_cell_size : 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_detail_sample_distance : 0 as * mut sys :: godot_method_bind , set_detail_sample_max_error : 0 as * mut sys :: godot_method_bind , set_edge_max_error : 0 as * mut sys :: godot_method_bind , set_edge_max_length : 0 as * mut sys :: godot_method_bind , set_filter_ledge_spans : 0 as * mut sys :: godot_method_bind , set_filter_low_hanging_obstacles : 0 as * mut sys :: godot_method_bind , set_filter_walkable_low_height_spans : 0 as * mut sys :: godot_method_bind , set_parsed_geometry_type : 0 as * mut sys :: godot_method_bind , set_region_merge_size : 0 as * mut sys :: godot_method_bind , set_region_min_size : 0 as * mut sys :: godot_method_bind , set_sample_partition_type : 0 as * mut sys :: godot_method_bind , set_source_geometry_mode : 0 as * mut sys :: godot_method_bind , set_source_group_name : 0 as * mut sys :: godot_method_bind , set_vertices : 0 as * mut sys :: godot_method_bind , set_verts_per_poly : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { NavigationMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "NavigationMesh\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_polygon = (gd_api . godot_method_bind_get_method) (class_name , "add_polygon\0" . as_ptr () as * const c_char) ; table . clear_polygons = (gd_api . godot_method_bind_get_method) (class_name , "clear_polygons\0" . as_ptr () as * const c_char) ; table . create_from_mesh = (gd_api . godot_method_bind_get_method) (class_name , "create_from_mesh\0" . as_ptr () as * const c_char) ; table . get_agent_height = (gd_api . godot_method_bind_get_method) (class_name , "get_agent_height\0" . as_ptr () as * const c_char) ; table . get_agent_max_climb = (gd_api . godot_method_bind_get_method) (class_name , "get_agent_max_climb\0" . as_ptr () as * const c_char) ; table . get_agent_max_slope = (gd_api . godot_method_bind_get_method) (class_name , "get_agent_max_slope\0" . as_ptr () as * const c_char) ; table . get_agent_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_agent_radius\0" . as_ptr () as * const c_char) ; table . get_cell_height = (gd_api . godot_method_bind_get_method) (class_name , "get_cell_height\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_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_detail_sample_distance = (gd_api . godot_method_bind_get_method) (class_name , "get_detail_sample_distance\0" . as_ptr () as * const c_char) ; table . get_detail_sample_max_error = (gd_api . godot_method_bind_get_method) (class_name , "get_detail_sample_max_error\0" . as_ptr () as * const c_char) ; table . get_edge_max_error = (gd_api . godot_method_bind_get_method) (class_name , "get_edge_max_error\0" . as_ptr () as * const c_char) ; table . get_edge_max_length = (gd_api . godot_method_bind_get_method) (class_name , "get_edge_max_length\0" . as_ptr () as * const c_char) ; table . get_filter_ledge_spans = (gd_api . godot_method_bind_get_method) (class_name , "get_filter_ledge_spans\0" . as_ptr () as * const c_char) ; table . get_filter_low_hanging_obstacles = (gd_api . godot_method_bind_get_method) (class_name , "get_filter_low_hanging_obstacles\0" . as_ptr () as * const c_char) ; table . get_filter_walkable_low_height_spans = (gd_api . godot_method_bind_get_method) (class_name , "get_filter_walkable_low_height_spans\0" . as_ptr () as * const c_char) ; table . get_parsed_geometry_type = (gd_api . godot_method_bind_get_method) (class_name , "get_parsed_geometry_type\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_polygon_count = (gd_api . godot_method_bind_get_method) (class_name , "get_polygon_count\0" . as_ptr () as * const c_char) ; table . get_region_merge_size = (gd_api . godot_method_bind_get_method) (class_name , "get_region_merge_size\0" . as_ptr () as * const c_char) ; table . get_region_min_size = (gd_api . godot_method_bind_get_method) (class_name , "get_region_min_size\0" . as_ptr () as * const c_char) ; table . get_sample_partition_type = (gd_api . godot_method_bind_get_method) (class_name , "get_sample_partition_type\0" . as_ptr () as * const c_char) ; table . get_source_geometry_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_source_geometry_mode\0" . as_ptr () as * const c_char) ; table . get_source_group_name = (gd_api . godot_method_bind_get_method) (class_name , "get_source_group_name\0" . as_ptr () as * const c_char) ; table . get_vertices = (gd_api . godot_method_bind_get_method) (class_name , "get_vertices\0" . as_ptr () as * const c_char) ; table . get_verts_per_poly = (gd_api . godot_method_bind_get_method) (class_name , "get_verts_per_poly\0" . as_ptr () as * const c_char) ; table . set_agent_height = (gd_api . godot_method_bind_get_method) (class_name , "set_agent_height\0" . as_ptr () as * const c_char) ; table . set_agent_max_climb = (gd_api . godot_method_bind_get_method) (class_name , "set_agent_max_climb\0" . as_ptr () as * const c_char) ; table . set_agent_max_slope = (gd_api . godot_method_bind_get_method) (class_name , "set_agent_max_slope\0" . as_ptr () as * const c_char) ; table . set_agent_radius = (gd_api . godot_method_bind_get_method) (class_name , "set_agent_radius\0" . as_ptr () as * const c_char) ; table . set_cell_height = (gd_api . godot_method_bind_get_method) (class_name , "set_cell_height\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_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_detail_sample_distance = (gd_api . godot_method_bind_get_method) (class_name , "set_detail_sample_distance\0" . as_ptr () as * const c_char) ; table . set_detail_sample_max_error = (gd_api . godot_method_bind_get_method) (class_name , "set_detail_sample_max_error\0" . as_ptr () as * const c_char) ; table . set_edge_max_error = (gd_api . godot_method_bind_get_method) (class_name , "set_edge_max_error\0" . as_ptr () as * const c_char) ; table . set_edge_max_length = (gd_api . godot_method_bind_get_method) (class_name , "set_edge_max_length\0" . as_ptr () as * const c_char) ; table . set_filter_ledge_spans = (gd_api . godot_method_bind_get_method) (class_name , "set_filter_ledge_spans\0" . as_ptr () as * const c_char) ; table . set_filter_low_hanging_obstacles = (gd_api . godot_method_bind_get_method) (class_name , "set_filter_low_hanging_obstacles\0" . as_ptr () as * const c_char) ; table . set_filter_walkable_low_height_spans = (gd_api . godot_method_bind_get_method) (class_name , "set_filter_walkable_low_height_spans\0" . as_ptr () as * const c_char) ; table . set_parsed_geometry_type = (gd_api . godot_method_bind_get_method) (class_name , "set_parsed_geometry_type\0" . as_ptr () as * const c_char) ; table . set_region_merge_size = (gd_api . godot_method_bind_get_method) (class_name , "set_region_merge_size\0" . as_ptr () as * const c_char) ; table . set_region_min_size = (gd_api . godot_method_bind_get_method) (class_name , "set_region_min_size\0" . as_ptr () as * const c_char) ; table . set_sample_partition_type = (gd_api . godot_method_bind_get_method) (class_name , "set_sample_partition_type\0" . as_ptr () as * const c_char) ; table . set_source_geometry_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_source_geometry_mode\0" . as_ptr () as * const c_char) ; table . set_source_group_name = (gd_api . godot_method_bind_get_method) (class_name , "set_source_group_name\0" . as_ptr () as * const c_char) ; table . set_vertices = (gd_api . godot_method_bind_get_method) (class_name , "set_vertices\0" . as_ptr () as * const c_char) ; table . set_verts_per_poly = (gd_api . godot_method_bind_get_method) (class_name , "set_verts_per_poly\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:700:3763 [INFO] [stdout] | [INFO] [stdout] 700 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeDotProduct` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodedotproduct.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeDotProduct inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeDotProduct { this : RawObject < Self > , } impl VisualShaderNodeDotProduct { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeDotProductMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeDotProduct { } unsafe impl GodotObject for VisualShaderNodeDotProduct { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeDotProduct" } } impl std :: ops :: Deref for VisualShaderNodeDotProduct { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeDotProduct { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeDotProduct { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeDotProduct { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeDotProduct { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeDotProduct { } impl Instanciable for VisualShaderNodeDotProduct { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeDotProduct :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeDotProductMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeDotProductMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeDotProductMethodTable = VisualShaderNodeDotProductMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeDotProductMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeDotProduct\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:706:6499 [INFO] [stdout] | [INFO] [stdout] 706 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:712:18993 [INFO] [stdout] | [INFO] [stdout] 712 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:718:14980 [INFO] [stdout] | [INFO] [stdout] 718 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 PhysicalBone` inherits `PhysicsBody` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_physicalbone.html) in the Godot 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`PhysicalBone` 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\nPhysicalBone inherits methods from:\n - [PhysicsBody](struct.PhysicsBody.html)\n - [CollisionObject](struct.CollisionObject.html)\n - [Spatial](struct.Spatial.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct PhysicalBone { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct JointType (pub i64) ; impl JointType { pub const NONE : JointType = JointType (0i64) ; pub const PIN : JointType = JointType (1i64) ; pub const CONE : JointType = JointType (2i64) ; pub const HINGE : JointType = JointType (3i64) ; pub const SLIDER : JointType = JointType (4i64) ; pub const _6DOF : JointType = JointType (5i64) ; } 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 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl PhysicalBone { pub const JOINT_TYPE_6DOF : i64 = 5i64 ; pub const JOINT_TYPE_CONE : i64 = 2i64 ; pub const JOINT_TYPE_HINGE : i64 = 3i64 ; pub const JOINT_TYPE_NONE : i64 = 0i64 ; pub const JOINT_TYPE_PIN : i64 = 1i64 ; pub const JOINT_TYPE_SLIDER : i64 = 4i64 ; } impl PhysicalBone { # [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 = PhysicalBoneMethodTable :: 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 apply_central_impulse (& self , impulse : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . apply_central_impulse ; let ret = crate :: icalls :: icallptr_void_vec3 (method_bind , self . this . sys () . as_ptr () , impulse) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn apply_impulse (& self , position : Vector3 , impulse : Vector3) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . apply_impulse ; let ret = crate :: icalls :: icallptr_void_vec3_vec3 (method_bind , self . this . sys () . as_ptr () , position , impulse) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn body_offset (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_body_offset ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_bone_id (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_bone_id ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn bounce (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_bounce ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn friction (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_friction ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn gravity_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_gravity_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn joint_offset (& self) -> Transform { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_joint_offset ; let ret = crate :: icalls :: icallptr_trans (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn joint_type (& self) -> crate :: generated :: physical_bone :: JointType { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_joint_type ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: physical_bone :: JointType (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn mass (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_mass ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_simulate_physics (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_simulate_physics ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn weight (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . get_weight ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_simulating_physics (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . is_simulating_physics ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_static_body (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . is_static_body ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_body_offset (& self , offset : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_body_offset ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_bounce (& self , bounce : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_bounce ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , bounce) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_friction (& self , friction : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_friction ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , friction) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_gravity_scale (& self , gravity_scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_gravity_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , gravity_scale) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_joint_offset (& self , offset : Transform) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_joint_offset ; let ret = crate :: icalls :: icallptr_void_trans (method_bind , self . this . sys () . as_ptr () , offset) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_joint_type (& self , joint_type : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_joint_type ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , joint_type) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_mass (& self , mass : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_mass ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , mass) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_weight (& self , weight : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PhysicalBoneMethodTable :: get (get_api ()) . set_weight ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , weight) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for PhysicalBone { } unsafe impl GodotObject for PhysicalBone { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "PhysicalBone" } } impl QueueFree for PhysicalBone { # [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 PhysicalBone { type Target = crate :: generated :: physics_body :: PhysicsBody ; # [inline] fn deref (& self) -> & crate :: generated :: physics_body :: PhysicsBody { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for PhysicalBone { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: physics_body :: PhysicsBody { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: physics_body :: PhysicsBody > for PhysicalBone { } unsafe impl SubClass < crate :: generated :: collision_object :: CollisionObject > for PhysicalBone { } unsafe impl SubClass < crate :: generated :: spatial :: Spatial > for PhysicalBone { } unsafe impl SubClass < crate :: generated :: node :: Node > for PhysicalBone { } unsafe impl SubClass < crate :: generated :: object :: Object > for PhysicalBone { } impl Instanciable for PhysicalBone { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PhysicalBone :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PhysicalBoneMethodTable { pub class_constructor : sys :: godot_class_constructor , pub apply_central_impulse : * mut sys :: godot_method_bind , pub apply_impulse : * mut sys :: godot_method_bind , pub get_body_offset : * mut sys :: godot_method_bind , pub get_bone_id : * mut sys :: godot_method_bind , pub get_bounce : * mut sys :: godot_method_bind , pub get_friction : * mut sys :: godot_method_bind , pub get_gravity_scale : * mut sys :: godot_method_bind , pub get_joint_offset : * mut sys :: godot_method_bind , pub get_joint_type : * mut sys :: godot_method_bind , pub get_mass : * mut sys :: godot_method_bind , pub get_simulate_physics : * mut sys :: godot_method_bind , pub get_weight : * mut sys :: godot_method_bind , pub is_simulating_physics : * mut sys :: godot_method_bind , pub is_static_body : * mut sys :: godot_method_bind , pub set_body_offset : * mut sys :: godot_method_bind , pub set_bounce : * mut sys :: godot_method_bind , pub set_friction : * mut sys :: godot_method_bind , pub set_gravity_scale : * mut sys :: godot_method_bind , pub set_joint_offset : * mut sys :: godot_method_bind , pub set_joint_type : * mut sys :: godot_method_bind , pub set_mass : * mut sys :: godot_method_bind , pub set_weight : * mut sys :: godot_method_bind } impl PhysicalBoneMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PhysicalBoneMethodTable = PhysicalBoneMethodTable { class_constructor : None , apply_central_impulse : 0 as * mut sys :: godot_method_bind , apply_impulse : 0 as * mut sys :: godot_method_bind , get_body_offset : 0 as * mut sys :: godot_method_bind , get_bone_id : 0 as * mut sys :: godot_method_bind , get_bounce : 0 as * mut sys :: godot_method_bind , get_friction : 0 as * mut sys :: godot_method_bind , get_gravity_scale : 0 as * mut sys :: godot_method_bind , get_joint_offset : 0 as * mut sys :: godot_method_bind , get_joint_type : 0 as * mut sys :: godot_method_bind , get_mass : 0 as * mut sys :: godot_method_bind , get_simulate_physics : 0 as * mut sys :: godot_method_bind , get_weight : 0 as * mut sys :: godot_method_bind , is_simulating_physics : 0 as * mut sys :: godot_method_bind , is_static_body : 0 as * mut sys :: godot_method_bind , set_body_offset : 0 as * mut sys :: godot_method_bind , set_bounce : 0 as * mut sys :: godot_method_bind , set_friction : 0 as * mut sys :: godot_method_bind , set_gravity_scale : 0 as * mut sys :: godot_method_bind , set_joint_offset : 0 as * mut sys :: godot_method_bind , set_joint_type : 0 as * mut sys :: godot_method_bind , set_mass : 0 as * mut sys :: godot_method_bind , set_weight : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { PhysicalBoneMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PhysicalBone\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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 . get_body_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_body_offset\0" . as_ptr () as * const c_char) ; table . get_bone_id = (gd_api . godot_method_bind_get_method) (class_name , "get_bone_id\0" . as_ptr () as * const c_char) ; table . get_bounce = (gd_api . godot_method_bind_get_method) (class_name , "get_bounce\0" . as_ptr () as * const c_char) ; table . get_friction = (gd_api . godot_method_bind_get_method) (class_name , "get_friction\0" . as_ptr () as * const c_char) ; table . get_gravity_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_gravity_scale\0" . as_ptr () as * const c_char) ; table . get_joint_offset = (gd_api . godot_method_bind_get_method) (class_name , "get_joint_offset\0" . as_ptr () as * const c_char) ; table . get_joint_type = (gd_api . godot_method_bind_get_method) (class_name , "get_joint_type\0" . as_ptr () as * const c_char) ; table . get_mass = (gd_api . godot_method_bind_get_method) (class_name , "get_mass\0" . as_ptr () as * const c_char) ; table . get_simulate_physics = (gd_api . godot_method_bind_get_method) (class_name , "get_simulate_physics\0" . as_ptr () as * const c_char) ; table . get_weight = (gd_api . godot_method_bind_get_method) (class_name , "get_weight\0" . as_ptr () as * const c_char) ; table . is_simulating_physics = (gd_api . godot_method_bind_get_method) (class_name , "is_simulating_physics\0" . as_ptr () as * const c_char) ; table . is_static_body = (gd_api . godot_method_bind_get_method) (class_name , "is_static_body\0" . as_ptr () as * const c_char) ; table . set_body_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_body_offset\0" . as_ptr () as * const c_char) ; table . set_bounce = (gd_api . godot_method_bind_get_method) (class_name , "set_bounce\0" . as_ptr () as * const c_char) ; table . set_friction = (gd_api . godot_method_bind_get_method) (class_name , "set_friction\0" . as_ptr () as * const c_char) ; table . set_gravity_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_gravity_scale\0" . as_ptr () as * const c_char) ; table . set_joint_offset = (gd_api . godot_method_bind_get_method) (class_name , "set_joint_offset\0" . as_ptr () as * const c_char) ; table . set_joint_type = (gd_api . godot_method_bind_get_method) (class_name , "set_joint_type\0" . as_ptr () as * const c_char) ; table . set_mass = (gd_api . godot_method_bind_get_method) (class_name , "set_mass\0" . as_ptr () as * const c_char) ; table . set_weight = (gd_api . godot_method_bind_get_method) (class_name , "set_weight\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:730:4251 [INFO] [stdout] | [INFO] [stdout] 730 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:736:4375 [INFO] [stdout] | [INFO] [stdout] 736 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VideoStreamTheora` inherits `VideoStream` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_videostreamtheora.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVideoStreamTheora 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 VideoStreamTheora { this : RawObject < Self > , } impl VideoStreamTheora { # [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 = VideoStreamTheoraMethodTable :: 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 = VideoStreamTheoraMethodTable :: 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 = VideoStreamTheoraMethodTable :: 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 VideoStreamTheora { } unsafe impl GodotObject for VideoStreamTheora { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VideoStreamTheora" } } impl std :: ops :: Deref for VideoStreamTheora { 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 VideoStreamTheora { # [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 VideoStreamTheora { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VideoStreamTheora { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VideoStreamTheora { } unsafe impl SubClass < crate :: generated :: object :: Object > for VideoStreamTheora { } impl Instanciable for VideoStreamTheora { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VideoStreamTheora :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VideoStreamTheoraMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_file : * mut sys :: godot_method_bind , pub set_file : * mut sys :: godot_method_bind } impl VideoStreamTheoraMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VideoStreamTheoraMethodTable = VideoStreamTheoraMethodTable { 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 (|| { VideoStreamTheoraMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VideoStreamTheora\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-7a634cfa4295a760/out/generated.rs:742:11831 [INFO] [stdout] | [INFO] [stdout] 742 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:748:18076 [INFO] [stdout] | [INFO] [stdout] 748 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:754:5601 [INFO] [stdout] | [INFO] [stdout] 754 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 GDNative` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_gdnative.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nGDNative 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 GDNative { this : RawObject < Self > , } impl GDNative { # [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 = GDNativeMethodTable :: 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 call_native (& self , calling_type : impl Into < GodotString > , procedure_name : impl Into < GodotString > , arguments : VariantArray) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeMethodTable :: get (get_api ()) . call_native ; let ret = crate :: icalls :: icallptr_var_str_str_arr (method_bind , self . this . sys () . as_ptr () , calling_type . into () , procedure_name . into () , arguments) ; Variant :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn library (& self) -> Option < Ref < crate :: generated :: gdnative_library :: GDNativeLibrary , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeMethodTable :: get (get_api ()) . get_library ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: gdnative_library :: GDNativeLibrary , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn initialize (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeMethodTable :: get (get_api ()) . initialize ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_library (& self , library : impl AsArg < crate :: generated :: gdnative_library :: GDNativeLibrary >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeMethodTable :: get (get_api ()) . set_library ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , library . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn terminate (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = GDNativeMethodTable :: get (get_api ()) . terminate ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } } impl gdnative_core :: private :: godot_object :: Sealed for GDNative { } unsafe impl GodotObject for GDNative { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "GDNative" } } impl std :: ops :: Deref for GDNative { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for GDNative { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for GDNative { } unsafe impl SubClass < crate :: generated :: object :: Object > for GDNative { } impl Instanciable for GDNative { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { GDNative :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct GDNativeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub call_native : * mut sys :: godot_method_bind , pub get_library : * mut sys :: godot_method_bind , pub initialize : * mut sys :: godot_method_bind , pub set_library : * mut sys :: godot_method_bind , pub terminate : * mut sys :: godot_method_bind } impl GDNativeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : GDNativeMethodTable = GDNativeMethodTable { class_constructor : None , call_native : 0 as * mut sys :: godot_method_bind , get_library : 0 as * mut sys :: godot_method_bind , initialize : 0 as * mut sys :: godot_method_bind , set_library : 0 as * mut sys :: godot_method_bind , terminate : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { GDNativeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "GDNative\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . call_native = (gd_api . godot_method_bind_get_method) (class_name , "call_native\0" . as_ptr () as * const c_char) ; table . get_library = (gd_api . godot_method_bind_get_method) (class_name , "get_library\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 . set_library = (gd_api . godot_method_bind_get_method) (class_name , "set_library\0" . as_ptr () as * const c_char) ; table . terminate = (gd_api . godot_method_bind_get_method) (class_name , "terminate\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:760:6208 [INFO] [stdout] | [INFO] [stdout] 760 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 RegExMatch` inherits `Reference` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_regexmatch.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nRegExMatch 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 RegExMatch { this : RawObject < Self > , } impl RegExMatch { # [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 = RegExMatchMethodTable :: 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_end (& self , name : impl OwnedToVariant) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMatchMethodTable :: get (get_api ()) . get_end ; let ret = crate :: icalls :: icallptr_i64_var (method_bind , self . this . sys () . as_ptr () , name . owned_to_variant ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_group_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMatchMethodTable :: 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 names (& self) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMatchMethodTable :: get (get_api ()) . get_names ; let ret = crate :: icalls :: icallptr_dict (method_bind , self . this . sys () . as_ptr ()) ; Dictionary :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_start (& self , name : impl OwnedToVariant) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMatchMethodTable :: get (get_api ()) . get_start ; let ret = crate :: icalls :: icallptr_i64_var (method_bind , self . this . sys () . as_ptr () , name . owned_to_variant ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_string (& self , name : impl OwnedToVariant) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMatchMethodTable :: get (get_api ()) . get_string ; let ret = crate :: icalls :: icallptr_str_var (method_bind , self . this . sys () . as_ptr () , name . owned_to_variant ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn strings (& self) -> VariantArray { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMatchMethodTable :: get (get_api ()) . get_strings ; 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 subject (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = RegExMatchMethodTable :: get (get_api ()) . get_subject ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } } impl gdnative_core :: private :: godot_object :: Sealed for RegExMatch { } unsafe impl GodotObject for RegExMatch { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "RegExMatch" } } impl std :: ops :: Deref for RegExMatch { type Target = crate :: generated :: reference :: Reference ; # [inline] fn deref (& self) -> & crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RegExMatch { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: reference :: Reference { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: reference :: Reference > for RegExMatch { } unsafe impl SubClass < crate :: generated :: object :: Object > for RegExMatch { } impl Instanciable for RegExMatch { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RegExMatch :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RegExMatchMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_end : * mut sys :: godot_method_bind , pub get_group_count : * mut sys :: godot_method_bind , pub get_names : * mut sys :: godot_method_bind , pub get_start : * mut sys :: godot_method_bind , pub get_string : * mut sys :: godot_method_bind , pub get_strings : * mut sys :: godot_method_bind , pub get_subject : * mut sys :: godot_method_bind } impl RegExMatchMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RegExMatchMethodTable = RegExMatchMethodTable { class_constructor : None , get_end : 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_start : 0 as * mut sys :: godot_method_bind , get_string : 0 as * mut sys :: godot_method_bind , get_strings : 0 as * mut sys :: godot_method_bind , get_subject : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RegExMatchMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RegExMatch\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_end = (gd_api . godot_method_bind_get_method) (class_name , "get_end\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_start = (gd_api . godot_method_bind_get_method) (class_name , "get_start\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_strings = (gd_api . godot_method_bind_get_method) (class_name , "get_strings\0" . as_ptr () as * const c_char) ; table . get_subject = (gd_api . godot_method_bind_get_method) (class_name , "get_subject\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:766:6602 [INFO] [stdout] | [INFO] [stdout] 766 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 766 | # [doc = "`core class InputEventMouse` inherits `InputEventWithModifiers` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_inputeventmouse.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nInputEventMouse inherits methods from:\n - [InputEventWithModifiers](struct.InputEventWithModifiers.html)\n - [InputEvent](struct.InputEvent.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct InputEventMouse { this : RawObject < Self > , } impl InputEventMouse { # [doc = "The mouse button mask identifier, one of or a bitwise combination of the [enum ButtonList] button masks."] # [doc = ""] # [inline] pub fn button_mask (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMethodTable :: get (get_api ()) . get_button_mask ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The global mouse position relative to the current [Viewport] when used in [method Control._gui_input], otherwise is at 0,0."] # [doc = ""] # [inline] pub fn global_position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMethodTable :: get (get_api ()) . get_global_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The local mouse position relative to the [Viewport]. If used in [method Control._gui_input], the position is relative to the current [Control] which is under the mouse."] # [doc = ""] # [inline] pub fn position (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMethodTable :: get (get_api ()) . get_position ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The mouse button mask identifier, one of or a bitwise combination of the [enum ButtonList] button masks."] # [doc = ""] # [inline] pub fn set_button_mask (& self , button_mask : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMethodTable :: get (get_api ()) . set_button_mask ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , button_mask) ; } } # [doc = "The global mouse position relative to the current [Viewport] when used in [method Control._gui_input], otherwise is at 0,0."] # [doc = ""] # [inline] pub fn set_global_position (& self , global_position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMethodTable :: get (get_api ()) . set_global_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , global_position) ; } } # [doc = "The local mouse position relative to the [Viewport]. If used in [method Control._gui_input], the position is relative to the current [Control] which is under the mouse."] # [doc = ""] # [inline] pub fn set_position (& self , position : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InputEventMouseMethodTable :: get (get_api ()) . set_position ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , position) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InputEventMouse { } unsafe impl GodotObject for InputEventMouse { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "InputEventMouse" } } impl std :: ops :: Deref for InputEventMouse { type Target = crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers ; # [inline] fn deref (& self) -> & crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InputEventMouse { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: input_event_with_modifiers :: InputEventWithModifiers > for InputEventMouse { } unsafe impl SubClass < crate :: generated :: input_event :: InputEvent > for InputEventMouse { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for InputEventMouse { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for InputEventMouse { } unsafe impl SubClass < crate :: generated :: object :: Object > for InputEventMouse { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InputEventMouseMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_button_mask : * mut sys :: godot_method_bind , pub get_global_position : * mut sys :: godot_method_bind , pub get_position : * mut sys :: godot_method_bind , pub set_button_mask : * mut sys :: godot_method_bind , pub set_global_position : * mut sys :: godot_method_bind , pub set_position : * mut sys :: godot_method_bind } impl InputEventMouseMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InputEventMouseMethodTable = InputEventMouseMethodTable { class_constructor : None , get_button_mask : 0 as * mut sys :: godot_method_bind , get_global_position : 0 as * mut sys :: godot_method_bind , get_position : 0 as * mut sys :: godot_method_bind , set_button_mask : 0 as * mut sys :: godot_method_bind , set_global_position : 0 as * mut sys :: godot_method_bind , set_position : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { InputEventMouseMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InputEventMouse\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_button_mask = (gd_api . godot_method_bind_get_method) (class_name , "get_button_mask\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_position = (gd_api . godot_method_bind_get_method) (class_name , "get_position\0" . as_ptr () as * const c_char) ; table . set_button_mask = (gd_api . godot_method_bind_get_method) (class_name , "set_button_mask\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_position = (gd_api . godot_method_bind_get_method) (class_name , "set_position\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:772:3642 [INFO] [stdout] | [INFO] [stdout] 772 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AnimationNodeTimeScale` inherits `AnimationNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodetimescale.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeTimeScale 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 AnimationNodeTimeScale { this : RawObject < Self > , } impl AnimationNodeTimeScale { # [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 = AnimationNodeTimeScaleMethodTable :: 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 AnimationNodeTimeScale { } unsafe impl GodotObject for AnimationNodeTimeScale { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeTimeScale" } } impl std :: ops :: Deref for AnimationNodeTimeScale { 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 AnimationNodeTimeScale { # [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 AnimationNodeTimeScale { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeTimeScale { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeTimeScale { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeTimeScale { } impl Instanciable for AnimationNodeTimeScale { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeTimeScale :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeTimeScaleMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl AnimationNodeTimeScaleMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeTimeScaleMethodTable = AnimationNodeTimeScaleMethodTable { 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 (|| { AnimationNodeTimeScaleMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeTimeScale\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-7a634cfa4295a760/out/generated.rs:778:10038 [INFO] [stdout] | [INFO] [stdout] 778 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 778 | # [doc = "`core class 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-7a634cfa4295a760/out/generated.rs:784:4298 [INFO] [stdout] | [INFO] [stdout] 784 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:790:5633 [INFO] [stdout] | [INFO] [stdout] 790 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 InstancePlaceholder` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_instanceplaceholder.html) 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\nInstancePlaceholder 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 InstancePlaceholder { this : RawObject < Self > , } impl InstancePlaceholder { # [doc = "\n# Default Arguments\n* `replace` - `false`\n* `custom_scene` - `null`"] # [doc = ""] # [inline] pub fn create_instance (& self , replace : bool , custom_scene : impl AsArg < crate :: generated :: packed_scene :: PackedScene >) -> Option < Ref < crate :: generated :: node :: Node , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = InstancePlaceholderMethodTable :: get (get_api ()) . create_instance ; let ret = crate :: icalls :: icallptr_obj_bool_obj (method_bind , self . this . sys () . as_ptr () , replace , custom_scene . as_arg_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: node :: Node , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "Gets the path to the [PackedScene] resource file that is loaded by default when calling [method replace_by_instance]."] # [doc = ""] # [inline] pub fn get_instance_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = InstancePlaceholderMethodTable :: get (get_api ()) . get_instance_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = "\n# Default Arguments\n* `with_order` - `false`"] # [doc = ""] # [inline] pub fn get_stored_values (& self , with_order : bool) -> Dictionary { unsafe { let method_bind : * mut sys :: godot_method_bind = InstancePlaceholderMethodTable :: get (get_api ()) . get_stored_values ; let ret = crate :: icalls :: icallptr_dict_bool (method_bind , self . this . sys () . as_ptr () , with_order) ; Dictionary :: from_sys (ret) } } # [doc = "Replaces this placeholder by the scene handed as an argument, or the original scene if no argument is given. As for all resources, the scene is loaded only if it's not loaded already. By manually loading the scene beforehand, delays caused by this function can be avoided.\n# Default Arguments\n* `custom_scene` - `null`"] # [doc = ""] # [inline] pub fn replace_by_instance (& self , custom_scene : impl AsArg < crate :: generated :: packed_scene :: PackedScene >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = InstancePlaceholderMethodTable :: get (get_api ()) . replace_by_instance ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , custom_scene . as_arg_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for InstancePlaceholder { } unsafe impl GodotObject for InstancePlaceholder { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "InstancePlaceholder" } } impl QueueFree for InstancePlaceholder { # [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 InstancePlaceholder { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for InstancePlaceholder { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for InstancePlaceholder { } unsafe impl SubClass < crate :: generated :: object :: Object > for InstancePlaceholder { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct InstancePlaceholderMethodTable { pub class_constructor : sys :: godot_class_constructor , pub create_instance : * mut sys :: godot_method_bind , pub get_instance_path : * mut sys :: godot_method_bind , pub get_stored_values : * mut sys :: godot_method_bind , pub replace_by_instance : * mut sys :: godot_method_bind } impl InstancePlaceholderMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : InstancePlaceholderMethodTable = InstancePlaceholderMethodTable { class_constructor : None , create_instance : 0 as * mut sys :: godot_method_bind , get_instance_path : 0 as * mut sys :: godot_method_bind , get_stored_values : 0 as * mut sys :: godot_method_bind , replace_by_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 (|| { InstancePlaceholderMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "InstancePlaceholder\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . create_instance = (gd_api . godot_method_bind_get_method) (class_name , "create_instance\0" . as_ptr () as * const c_char) ; table . get_instance_path = (gd_api . godot_method_bind_get_method) (class_name , "get_instance_path\0" . as_ptr () as * const c_char) ; table . get_stored_values = (gd_api . godot_method_bind_get_method) (class_name , "get_stored_values\0" . as_ptr () as * const c_char) ; table . replace_by_instance = (gd_api . godot_method_bind_get_method) (class_name , "replace_by_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-7a634cfa4295a760/out/generated.rs:796:40395 [INFO] [stdout] | [INFO] [stdout] 796 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 ItemList` inherits `Control` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_itemlist.html) in the Godot 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`ItemList` 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\nItemList 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 ItemList { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct IconMode (pub i64) ; impl IconMode { pub const TOP : IconMode = IconMode (0i64) ; pub const LEFT : IconMode = IconMode (1i64) ; } impl From < i64 > for IconMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < IconMode > for i64 { # [inline] fn from (v : IconMode) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct SelectMode (pub i64) ; impl SelectMode { pub const SINGLE : SelectMode = SelectMode (0i64) ; pub const MULTI : SelectMode = SelectMode (1i64) ; } impl From < i64 > for SelectMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < SelectMode > for i64 { # [inline] fn from (v : SelectMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl ItemList { pub const ICON_MODE_LEFT : i64 = 1i64 ; pub const ICON_MODE_TOP : i64 = 0i64 ; pub const SELECT_MULTI : i64 = 1i64 ; pub const SELECT_SINGLE : i64 = 0i64 ; } impl ItemList { # [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 = ItemListMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "Adds an item to the item list with no text, only an icon.\n# Default Arguments\n* `selectable` - `true`"] # [doc = ""] # [inline] pub fn add_icon_item (& self , icon : impl AsArg < crate :: generated :: texture :: Texture > , selectable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . add_icon_item ; let ret = crate :: icalls :: icallptr_void_obj_bool (method_bind , self . this . sys () . as_ptr () , icon . as_arg_ptr () , selectable) ; } } # [doc = "Adds an item to the item list with specified text. Specify an `icon`, or use `null` as the `icon` for a list item with no icon.\nIf selectable is `true`, the list item will be selectable.\n# Default Arguments\n* `icon` - `null`\n* `selectable` - `true`"] # [doc = ""] # [inline] pub fn add_item (& self , text : impl Into < GodotString > , icon : impl AsArg < crate :: generated :: texture :: Texture > , selectable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . add_item ; let ret = crate :: icalls :: icallptr_void_str_obj_bool (method_bind , self . this . sys () . as_ptr () , text . into () , icon . as_arg_ptr () , selectable) ; } } # [doc = "Removes all items from the list."] # [doc = ""] # [inline] pub fn clear (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . clear ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Ensure current selection is visible, adjusting the scroll position as necessary."] # [doc = ""] # [inline] pub fn ensure_current_is_visible (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . ensure_current_is_visible ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "If `true`, the currently selected item can be selected again."] # [doc = ""] # [inline] pub fn allow_reselect (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_allow_reselect ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, right mouse button click can select items."] # [doc = ""] # [inline] pub fn allow_rmb_select (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_allow_rmb_select ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The width all columns will be adjusted to.\nA value of zero disables the adjustment, each item will have a width equal to the width of its content and the columns will have an uneven width."] # [doc = ""] # [inline] pub fn fixed_column_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_fixed_column_width ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The size all icons will be adjusted to.\nIf either X or Y component is not greater than zero, icon size won't be affected."] # [doc = ""] # [inline] pub fn fixed_icon_size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_fixed_icon_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "The icon position, whether above or to the left of the text. See the [enum IconMode] constants."] # [doc = ""] # [inline] pub fn icon_mode (& self) -> crate :: generated :: item_list :: IconMode { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_icon_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: item_list :: IconMode (ret) } } # [doc = "The scale of icon applied after [member fixed_icon_size] and transposing takes effect."] # [doc = ""] # [inline] pub fn icon_scale (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_icon_scale ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the item index at the given `position`.\nWhen there is no item at that point, -1 will be returned if `exact` is `true`, and the closest item index will be returned otherwise.\n# Default Arguments\n* `exact` - `false`"] # [doc = ""] # [inline] pub fn get_item_at_position (& self , position : Vector2 , exact : bool) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_item_at_position ; let ret = crate :: icalls :: icallptr_i64_vec2_bool (method_bind , self . this . sys () . as_ptr () , position , exact) ; ret as _ } } # [doc = "Returns the number of items currently in the list."] # [doc = ""] # [inline] pub fn get_item_count (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_item_count ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the custom background color of the item specified by `idx` index."] # [doc = ""] # [inline] pub fn get_item_custom_bg_color (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_item_custom_bg_color ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the custom foreground color of the item specified by `idx` index."] # [doc = ""] # [inline] pub fn get_item_custom_fg_color (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_item_custom_fg_color ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the icon associated with the specified index."] # [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 = ItemListMethodTable :: 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 a [Color] modulating item's icon at the specified index."] # [doc = ""] # [inline] pub fn get_item_icon_modulate (& self , idx : i64) -> Color { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_item_icon_modulate ; let ret = crate :: icalls :: icallptr_color_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the region of item's icon used. The whole icon will be used if the region has no area."] # [doc = ""] # [inline] pub fn get_item_icon_region (& self , idx : i64) -> Rect2 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_item_icon_region ; let ret = crate :: icalls :: icallptr_rect2_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; mem :: transmute (ret) } } # [doc = "Returns the metadata value of the specified index."] # [doc = ""] # [inline] pub fn get_item_metadata (& self , idx : i64) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_item_metadata ; let ret = crate :: icalls :: icallptr_var_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; Variant :: from_sys (ret) } } # [doc = "Returns the text associated with the specified index."] # [doc = ""] # [inline] pub fn get_item_text (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: 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 hint associated with the specified index."] # [doc = ""] # [inline] pub fn get_item_tooltip (& self , idx : i64) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: 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 = "Maximum columns the list will have.\nIf greater than zero, the content will be split among the specified columns.\nA value of zero means unlimited columns, i.e. all items will be put in the same row."] # [doc = ""] # [inline] pub fn max_columns (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_max_columns ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Maximum lines of text allowed in each item. Space will be reserved even when there is not enough lines of text to display.\n**Note:** This property takes effect only when [member icon_mode] is [constant ICON_MODE_TOP]. To make the text wrap, [member fixed_column_width] should be greater than zero."] # [doc = ""] # [inline] pub fn max_text_lines (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_max_text_lines ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Allows single or multiple item selection. See the [enum SelectMode] constants."] # [doc = ""] # [inline] pub fn select_mode (& self) -> crate :: generated :: item_list :: SelectMode { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_select_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: item_list :: SelectMode (ret) } } # [doc = "Returns an array with the indexes of the selected items."] # [doc = ""] # [inline] pub fn get_selected_items (& self) -> Int32Array { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_selected_items ; let ret = crate :: icalls :: icallptr_i32arr (method_bind , self . this . sys () . as_ptr ()) ; Int32Array :: from_sys (ret) } } # [doc = "Returns the [Object] ID associated with the list."] # [doc = ""] # [inline] pub fn get_v_scroll (& self) -> Option < Ref < crate :: generated :: vscroll_bar :: VScrollBar , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . get_v_scroll ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: vscroll_bar :: VScrollBar , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "If `true`, the control will automatically resize the height to fit its content."] # [doc = ""] # [inline] pub fn has_auto_height (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . has_auto_height ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if one or more items are selected."] # [doc = ""] # [inline] pub fn is_anything_selected (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . is_anything_selected ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the item at the specified index is disabled."] # [doc = ""] # [inline] pub fn is_item_disabled (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: 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 icon will be drawn transposed, i.e. the X and Y axes are swapped."] # [doc = ""] # [inline] pub fn is_item_icon_transposed (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . is_item_icon_transposed ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if the item at the specified index is selectable."] # [doc = ""] # [inline] pub fn is_item_selectable (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . is_item_selectable ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Returns `true` if the tooltip is enabled for specified item index."] # [doc = ""] # [inline] pub fn is_item_tooltip_enabled (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . is_item_tooltip_enabled ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Whether all columns will have the same width.\nIf `true`, the width is equal to the largest column width of all columns."] # [doc = ""] # [inline] pub fn is_same_column_width (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . is_same_column_width ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the item at the specified index is currently selected."] # [doc = ""] # [inline] pub fn is_selected (& self , idx : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . is_selected ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; ret as _ } } # [doc = "Moves item from index `from_idx` to `to_idx`."] # [doc = ""] # [inline] pub fn move_item (& self , from_idx : i64 , to_idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . move_item ; let ret = crate :: icalls :: icallptr_void_i64_i64 (method_bind , self . this . sys () . as_ptr () , from_idx , to_idx) ; } } # [doc = "Removes the item specified by `idx` index from the list."] # [doc = ""] # [inline] pub fn remove_item (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . remove_item ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Select the item at the specified index.\n**Note:** This method does not trigger the item selection signal.\n# Default Arguments\n* `single` - `true`"] # [doc = ""] # [inline] pub fn select (& self , idx : i64 , single : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . select ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , single) ; } } # [doc = "If `true`, the currently selected item can be selected again."] # [doc = ""] # [inline] pub fn set_allow_reselect (& self , allow : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_allow_reselect ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , allow) ; } } # [doc = "If `true`, right mouse button click can select items."] # [doc = ""] # [inline] pub fn set_allow_rmb_select (& self , allow : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_allow_rmb_select ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , allow) ; } } # [doc = "If `true`, the control will automatically resize the height to fit its content."] # [doc = ""] # [inline] pub fn set_auto_height (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_auto_height ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The width all columns will be adjusted to.\nA value of zero disables the adjustment, each item will have a width equal to the width of its content and the columns will have an uneven width."] # [doc = ""] # [inline] pub fn set_fixed_column_width (& self , width : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_fixed_column_width ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , width) ; } } # [doc = "The size all icons will be adjusted to.\nIf either X or Y component is not greater than zero, icon size won't be affected."] # [doc = ""] # [inline] pub fn set_fixed_icon_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_fixed_icon_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "The icon position, whether above or to the left of the text. See the [enum IconMode] constants."] # [doc = ""] # [inline] pub fn set_icon_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_icon_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "The scale of icon applied after [member fixed_icon_size] and transposing takes effect."] # [doc = ""] # [inline] pub fn set_icon_scale (& self , scale : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_icon_scale ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , scale) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nSets the background color of the item specified by `idx` index to the specified [Color].\n```gdscript\nvar some_string = \"Some text\"\nsome_string.set_item_custom_bg_color(0,Color(1, 0, 0, 1) # This will set the background color of the first item of the control to red.\n```"] # [doc = ""] # [inline] pub fn set_item_custom_bg_color (& self , idx : i64 , custom_bg_color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_custom_bg_color ; let ret = crate :: icalls :: icallptr_void_i64_color (method_bind , self . this . sys () . as_ptr () , idx , custom_bg_color) ; } } # [doc = "_Sample code is GDScript unless otherwise noted._\n\nSets the foreground color of the item specified by `idx` index to the specified [Color].\n```gdscript\nvar some_string = \"Some text\"\nsome_string.set_item_custom_fg_color(0,Color(1, 0, 0, 1) # This will set the foreground color of the first item of the control to red.\n```"] # [doc = ""] # [inline] pub fn set_item_custom_fg_color (& self , idx : i64 , custom_fg_color : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_custom_fg_color ; let ret = crate :: icalls :: icallptr_void_i64_color (method_bind , self . this . sys () . as_ptr () , idx , custom_fg_color) ; } } # [doc = "Disables (or enables) the item at the specified index.\nDisabled items cannot be selected and do not trigger activation signals (when double-clicking or pressing Enter)."] # [doc = ""] # [inline] pub fn set_item_disabled (& self , idx : i64 , disabled : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_disabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , disabled) ; } } # [doc = "Sets (or replaces) the icon's [Texture] associated with the specified index."] # [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 = ItemListMethodTable :: 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 a modulating [Color] of the item associated with the specified index."] # [doc = ""] # [inline] pub fn set_item_icon_modulate (& self , idx : i64 , modulate : Color) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_icon_modulate ; let ret = crate :: icalls :: icallptr_void_i64_color (method_bind , self . this . sys () . as_ptr () , idx , modulate) ; } } # [doc = "Sets the region of item's icon used. The whole icon will be used if the region has no area."] # [doc = ""] # [inline] pub fn set_item_icon_region (& self , idx : i64 , rect : Rect2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_icon_region ; let ret = crate :: icalls :: icallptr_void_i64_rect2 (method_bind , self . this . sys () . as_ptr () , idx , rect) ; } } # [doc = "Sets whether the item icon will be drawn transposed."] # [doc = ""] # [inline] pub fn set_item_icon_transposed (& self , idx : i64 , transposed : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_icon_transposed ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , transposed) ; } } # [doc = "Sets a value (of any type) to be stored with the item associated with the specified index."] # [doc = ""] # [inline] pub fn set_item_metadata (& self , idx : i64 , metadata : impl OwnedToVariant) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: 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 = "Allows or disallows selection of the item associated with the specified index."] # [doc = ""] # [inline] pub fn set_item_selectable (& self , idx : i64 , selectable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_selectable ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , selectable) ; } } # [doc = "Sets text of the item associated with the specified index."] # [doc = ""] # [inline] pub fn set_item_text (& self , idx : i64 , text : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: 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 tooltip hint for the item associated with the specified index."] # [doc = ""] # [inline] pub fn set_item_tooltip (& self , idx : i64 , tooltip : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: 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 whether the tooltip hint is enabled for specified item index."] # [doc = ""] # [inline] pub fn set_item_tooltip_enabled (& self , idx : i64 , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_item_tooltip_enabled ; let ret = crate :: icalls :: icallptr_void_i64_bool (method_bind , self . this . sys () . as_ptr () , idx , enable) ; } } # [doc = "Maximum columns the list will have.\nIf greater than zero, the content will be split among the specified columns.\nA value of zero means unlimited columns, i.e. all items will be put in the same row."] # [doc = ""] # [inline] pub fn set_max_columns (& self , amount : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_max_columns ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , amount) ; } } # [doc = "Maximum lines of text allowed in each item. Space will be reserved even when there is not enough lines of text to display.\n**Note:** This property takes effect only when [member icon_mode] is [constant ICON_MODE_TOP]. To make the text wrap, [member fixed_column_width] should be greater than zero."] # [doc = ""] # [inline] pub fn set_max_text_lines (& self , lines : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_max_text_lines ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , lines) ; } } # [doc = "Whether all columns will have the same width.\nIf `true`, the width is equal to the largest column width of all columns."] # [doc = ""] # [inline] pub fn set_same_column_width (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_same_column_width ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "Allows single or multiple item selection. See the [enum SelectMode] constants."] # [doc = ""] # [inline] pub fn set_select_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . set_select_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Sorts items in the list by their text."] # [doc = ""] # [inline] pub fn sort_items_by_text (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . sort_items_by_text ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "Ensures the item associated with the specified index is not selected."] # [doc = ""] # [inline] pub fn unselect (& self , idx : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . unselect ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , idx) ; } } # [doc = "Ensures there are no items selected."] # [doc = ""] # [inline] pub fn unselect_all (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = ItemListMethodTable :: get (get_api ()) . unselect_all ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for ItemList { } unsafe impl GodotObject for ItemList { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "ItemList" } } impl QueueFree for ItemList { # [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 ItemList { type Target = crate :: generated :: control :: Control ; # [inline] fn deref (& self) -> & crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for ItemList { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: control :: Control { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: control :: Control > for ItemList { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for ItemList { } unsafe impl SubClass < crate :: generated :: node :: Node > for ItemList { } unsafe impl SubClass < crate :: generated :: object :: Object > for ItemList { } impl Instanciable for ItemList { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { ItemList :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct ItemListMethodTable { pub class_constructor : sys :: godot_class_constructor , pub add_icon_item : * mut sys :: godot_method_bind , pub add_item : * mut sys :: godot_method_bind , pub clear : * mut sys :: godot_method_bind , pub ensure_current_is_visible : * mut sys :: godot_method_bind , pub get_allow_reselect : * mut sys :: godot_method_bind , pub get_allow_rmb_select : * mut sys :: godot_method_bind , pub get_fixed_column_width : * mut sys :: godot_method_bind , pub get_fixed_icon_size : * mut sys :: godot_method_bind , pub get_icon_mode : * mut sys :: godot_method_bind , pub get_icon_scale : * mut sys :: godot_method_bind , pub get_item_at_position : * mut sys :: godot_method_bind , pub get_item_count : * mut sys :: godot_method_bind , pub get_item_custom_bg_color : * mut sys :: godot_method_bind , pub get_item_custom_fg_color : * mut sys :: godot_method_bind , pub get_item_icon : * mut sys :: godot_method_bind , pub get_item_icon_modulate : * mut sys :: godot_method_bind , pub get_item_icon_region : * mut sys :: godot_method_bind , pub get_item_metadata : * mut sys :: godot_method_bind , pub get_item_text : * mut sys :: godot_method_bind , pub get_item_tooltip : * mut sys :: godot_method_bind , pub get_max_columns : * mut sys :: godot_method_bind , pub get_max_text_lines : * mut sys :: godot_method_bind , pub get_select_mode : * mut sys :: godot_method_bind , pub get_selected_items : * mut sys :: godot_method_bind , pub get_v_scroll : * mut sys :: godot_method_bind , pub has_auto_height : * mut sys :: godot_method_bind , pub is_anything_selected : * mut sys :: godot_method_bind , pub is_item_disabled : * mut sys :: godot_method_bind , pub is_item_icon_transposed : * mut sys :: godot_method_bind , pub is_item_selectable : * mut sys :: godot_method_bind , pub is_item_tooltip_enabled : * mut sys :: godot_method_bind , pub is_same_column_width : * mut sys :: godot_method_bind , pub is_selected : * mut sys :: godot_method_bind , pub move_item : * mut sys :: godot_method_bind , pub remove_item : * mut sys :: godot_method_bind , pub select : * mut sys :: godot_method_bind , pub set_allow_reselect : * mut sys :: godot_method_bind , pub set_allow_rmb_select : * mut sys :: godot_method_bind , pub set_auto_height : * mut sys :: godot_method_bind , pub set_fixed_column_width : * mut sys :: godot_method_bind , pub set_fixed_icon_size : * mut sys :: godot_method_bind , pub set_icon_mode : * mut sys :: godot_method_bind , pub set_icon_scale : * mut sys :: godot_method_bind , pub set_item_custom_bg_color : * mut sys :: godot_method_bind , pub set_item_custom_fg_color : * 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_icon_modulate : * mut sys :: godot_method_bind , pub set_item_icon_region : * mut sys :: godot_method_bind , pub set_item_icon_transposed : * mut sys :: godot_method_bind , pub set_item_metadata : * mut sys :: godot_method_bind , pub set_item_selectable : * 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_item_tooltip_enabled : * mut sys :: godot_method_bind , pub set_max_columns : * mut sys :: godot_method_bind , pub set_max_text_lines : * mut sys :: godot_method_bind , pub set_same_column_width : * mut sys :: godot_method_bind , pub set_select_mode : * mut sys :: godot_method_bind , pub sort_items_by_text : * mut sys :: godot_method_bind , pub unselect : * mut sys :: godot_method_bind , pub unselect_all : * mut sys :: godot_method_bind } impl ItemListMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : ItemListMethodTable = ItemListMethodTable { class_constructor : None , add_icon_item : 0 as * mut sys :: godot_method_bind , add_item : 0 as * mut sys :: godot_method_bind , clear : 0 as * mut sys :: godot_method_bind , ensure_current_is_visible : 0 as * mut sys :: godot_method_bind , get_allow_reselect : 0 as * mut sys :: godot_method_bind , get_allow_rmb_select : 0 as * mut sys :: godot_method_bind , get_fixed_column_width : 0 as * mut sys :: godot_method_bind , get_fixed_icon_size : 0 as * mut sys :: godot_method_bind , get_icon_mode : 0 as * mut sys :: godot_method_bind , get_icon_scale : 0 as * mut sys :: godot_method_bind , get_item_at_position : 0 as * mut sys :: godot_method_bind , get_item_count : 0 as * mut sys :: godot_method_bind , get_item_custom_bg_color : 0 as * mut sys :: godot_method_bind , get_item_custom_fg_color : 0 as * mut sys :: godot_method_bind , get_item_icon : 0 as * mut sys :: godot_method_bind , get_item_icon_modulate : 0 as * mut sys :: godot_method_bind , get_item_icon_region : 0 as * mut sys :: godot_method_bind , get_item_metadata : 0 as * mut sys :: godot_method_bind , get_item_text : 0 as * mut sys :: godot_method_bind , get_item_tooltip : 0 as * mut sys :: godot_method_bind , get_max_columns : 0 as * mut sys :: godot_method_bind , get_max_text_lines : 0 as * mut sys :: godot_method_bind , get_select_mode : 0 as * mut sys :: godot_method_bind , get_selected_items : 0 as * mut sys :: godot_method_bind , get_v_scroll : 0 as * mut sys :: godot_method_bind , has_auto_height : 0 as * mut sys :: godot_method_bind , is_anything_selected : 0 as * mut sys :: godot_method_bind , is_item_disabled : 0 as * mut sys :: godot_method_bind , is_item_icon_transposed : 0 as * mut sys :: godot_method_bind , is_item_selectable : 0 as * mut sys :: godot_method_bind , is_item_tooltip_enabled : 0 as * mut sys :: godot_method_bind , is_same_column_width : 0 as * mut sys :: godot_method_bind , is_selected : 0 as * mut sys :: godot_method_bind , move_item : 0 as * mut sys :: godot_method_bind , remove_item : 0 as * mut sys :: godot_method_bind , select : 0 as * mut sys :: godot_method_bind , set_allow_reselect : 0 as * mut sys :: godot_method_bind , set_allow_rmb_select : 0 as * mut sys :: godot_method_bind , set_auto_height : 0 as * mut sys :: godot_method_bind , set_fixed_column_width : 0 as * mut sys :: godot_method_bind , set_fixed_icon_size : 0 as * mut sys :: godot_method_bind , set_icon_mode : 0 as * mut sys :: godot_method_bind , set_icon_scale : 0 as * mut sys :: godot_method_bind , set_item_custom_bg_color : 0 as * mut sys :: godot_method_bind , set_item_custom_fg_color : 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_icon_modulate : 0 as * mut sys :: godot_method_bind , set_item_icon_region : 0 as * mut sys :: godot_method_bind , set_item_icon_transposed : 0 as * mut sys :: godot_method_bind , set_item_metadata : 0 as * mut sys :: godot_method_bind , set_item_selectable : 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_item_tooltip_enabled : 0 as * mut sys :: godot_method_bind , set_max_columns : 0 as * mut sys :: godot_method_bind , set_max_text_lines : 0 as * mut sys :: godot_method_bind , set_same_column_width : 0 as * mut sys :: godot_method_bind , set_select_mode : 0 as * mut sys :: godot_method_bind , sort_items_by_text : 0 as * mut sys :: godot_method_bind , unselect : 0 as * mut sys :: godot_method_bind , unselect_all : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { ItemListMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "ItemList\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . add_icon_item = (gd_api . godot_method_bind_get_method) (class_name , "add_icon_item\0" . as_ptr () as * const c_char) ; table . add_item = (gd_api . godot_method_bind_get_method) (class_name , "add_item\0" . as_ptr () as * const c_char) ; table . clear = (gd_api . godot_method_bind_get_method) (class_name , "clear\0" . as_ptr () as * const c_char) ; table . ensure_current_is_visible = (gd_api . godot_method_bind_get_method) (class_name , "ensure_current_is_visible\0" . as_ptr () as * const c_char) ; table . get_allow_reselect = (gd_api . godot_method_bind_get_method) (class_name , "get_allow_reselect\0" . as_ptr () as * const c_char) ; table . get_allow_rmb_select = (gd_api . godot_method_bind_get_method) (class_name , "get_allow_rmb_select\0" . as_ptr () as * const c_char) ; table . get_fixed_column_width = (gd_api . godot_method_bind_get_method) (class_name , "get_fixed_column_width\0" . as_ptr () as * const c_char) ; table . get_fixed_icon_size = (gd_api . godot_method_bind_get_method) (class_name , "get_fixed_icon_size\0" . as_ptr () as * const c_char) ; table . get_icon_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_icon_mode\0" . as_ptr () as * const c_char) ; table . get_icon_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_icon_scale\0" . as_ptr () as * const c_char) ; table . get_item_at_position = (gd_api . godot_method_bind_get_method) (class_name , "get_item_at_position\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_custom_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "get_item_custom_bg_color\0" . as_ptr () as * const c_char) ; table . get_item_custom_fg_color = (gd_api . godot_method_bind_get_method) (class_name , "get_item_custom_fg_color\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_icon_modulate = (gd_api . godot_method_bind_get_method) (class_name , "get_item_icon_modulate\0" . as_ptr () as * const c_char) ; table . get_item_icon_region = (gd_api . godot_method_bind_get_method) (class_name , "get_item_icon_region\0" . as_ptr () as * const c_char) ; table . get_item_metadata = (gd_api . godot_method_bind_get_method) (class_name , "get_item_metadata\0" . as_ptr () as * const c_char) ; table . get_item_text = (gd_api . godot_method_bind_get_method) (class_name , "get_item_text\0" . as_ptr () as * const c_char) ; table . get_item_tooltip = (gd_api . godot_method_bind_get_method) (class_name , "get_item_tooltip\0" . as_ptr () as * const c_char) ; table . get_max_columns = (gd_api . godot_method_bind_get_method) (class_name , "get_max_columns\0" . as_ptr () as * const c_char) ; table . get_max_text_lines = (gd_api . godot_method_bind_get_method) (class_name , "get_max_text_lines\0" . as_ptr () as * const c_char) ; table . get_select_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_select_mode\0" . as_ptr () as * const c_char) ; table . get_selected_items = (gd_api . godot_method_bind_get_method) (class_name , "get_selected_items\0" . as_ptr () as * const c_char) ; table . get_v_scroll = (gd_api . godot_method_bind_get_method) (class_name , "get_v_scroll\0" . as_ptr () as * const c_char) ; table . has_auto_height = (gd_api . godot_method_bind_get_method) (class_name , "has_auto_height\0" . as_ptr () as * const c_char) ; table . is_anything_selected = (gd_api . godot_method_bind_get_method) (class_name , "is_anything_selected\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_icon_transposed = (gd_api . godot_method_bind_get_method) (class_name , "is_item_icon_transposed\0" . as_ptr () as * const c_char) ; table . is_item_selectable = (gd_api . godot_method_bind_get_method) (class_name , "is_item_selectable\0" . as_ptr () as * const c_char) ; table . is_item_tooltip_enabled = (gd_api . godot_method_bind_get_method) (class_name , "is_item_tooltip_enabled\0" . as_ptr () as * const c_char) ; table . is_same_column_width = (gd_api . godot_method_bind_get_method) (class_name , "is_same_column_width\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 . move_item = (gd_api . godot_method_bind_get_method) (class_name , "move_item\0" . as_ptr () as * const c_char) ; table . remove_item = (gd_api . godot_method_bind_get_method) (class_name , "remove_item\0" . as_ptr () as * const c_char) ; table . select = (gd_api . godot_method_bind_get_method) (class_name , "select\0" . as_ptr () as * const c_char) ; table . set_allow_reselect = (gd_api . godot_method_bind_get_method) (class_name , "set_allow_reselect\0" . as_ptr () as * const c_char) ; table . set_allow_rmb_select = (gd_api . godot_method_bind_get_method) (class_name , "set_allow_rmb_select\0" . as_ptr () as * const c_char) ; table . set_auto_height = (gd_api . godot_method_bind_get_method) (class_name , "set_auto_height\0" . as_ptr () as * const c_char) ; table . set_fixed_column_width = (gd_api . godot_method_bind_get_method) (class_name , "set_fixed_column_width\0" . as_ptr () as * const c_char) ; table . set_fixed_icon_size = (gd_api . godot_method_bind_get_method) (class_name , "set_fixed_icon_size\0" . as_ptr () as * const c_char) ; table . set_icon_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_icon_mode\0" . as_ptr () as * const c_char) ; table . set_icon_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_icon_scale\0" . as_ptr () as * const c_char) ; table . set_item_custom_bg_color = (gd_api . godot_method_bind_get_method) (class_name , "set_item_custom_bg_color\0" . as_ptr () as * const c_char) ; table . set_item_custom_fg_color = (gd_api . godot_method_bind_get_method) (class_name , "set_item_custom_fg_color\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_icon_modulate = (gd_api . godot_method_bind_get_method) (class_name , "set_item_icon_modulate\0" . as_ptr () as * const c_char) ; table . set_item_icon_region = (gd_api . godot_method_bind_get_method) (class_name , "set_item_icon_region\0" . as_ptr () as * const c_char) ; table . set_item_icon_transposed = (gd_api . godot_method_bind_get_method) (class_name , "set_item_icon_transposed\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_selectable = (gd_api . godot_method_bind_get_method) (class_name , "set_item_selectable\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_item_tooltip_enabled = (gd_api . godot_method_bind_get_method) (class_name , "set_item_tooltip_enabled\0" . as_ptr () as * const c_char) ; table . set_max_columns = (gd_api . godot_method_bind_get_method) (class_name , "set_max_columns\0" . as_ptr () as * const c_char) ; table . set_max_text_lines = (gd_api . godot_method_bind_get_method) (class_name , "set_max_text_lines\0" . as_ptr () as * const c_char) ; table . set_same_column_width = (gd_api . godot_method_bind_get_method) (class_name , "set_same_column_width\0" . as_ptr () as * const c_char) ; table . set_select_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_select_mode\0" . as_ptr () as * const c_char) ; table . sort_items_by_text = (gd_api . godot_method_bind_get_method) (class_name , "sort_items_by_text\0" . as_ptr () as * const c_char) ; table . unselect = (gd_api . godot_method_bind_get_method) (class_name , "unselect\0" . as_ptr () as * const c_char) ; table . unselect_all = (gd_api . godot_method_bind_get_method) (class_name , "unselect_all\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:802:11025 [INFO] [stdout] | [INFO] [stdout] 802 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AnimationNodeOneShot` inherits `AnimationNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_animationnodeoneshot.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAnimationNodeOneShot 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 AnimationNodeOneShot { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct MixMode (pub i64) ; impl MixMode { pub const BLEND : MixMode = MixMode (0i64) ; pub const ADD : MixMode = MixMode (1i64) ; } impl From < i64 > for MixMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < MixMode > for i64 { # [inline] fn from (v : MixMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl AnimationNodeOneShot { pub const MIX_MODE_ADD : i64 = 1i64 ; pub const MIX_MODE_BLEND : i64 = 0i64 ; } impl AnimationNodeOneShot { # [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 = AnimationNodeOneShotMethodTable :: 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 delay after which the automatic restart is triggered, in seconds."] # [doc = ""] # [inline] pub fn autorestart_delay (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . get_autorestart_delay ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If [member autorestart] is `true`, a random additional delay (in seconds) between 0 and this value will be added to [member autorestart_delay]."] # [doc = ""] # [inline] pub fn autorestart_random_delay (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . get_autorestart_random_delay ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn fadein_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . get_fadein_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn fadeout_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . get_fadeout_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_mix_mode (& self) -> crate :: generated :: animation_node_one_shot :: MixMode { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . get_mix_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: animation_node_one_shot :: MixMode (ret) } } # [doc = "If `true`, the sub-animation will restart automatically after finishing."] # [doc = ""] # [inline] pub fn has_autorestart (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . has_autorestart ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn is_using_sync (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . is_using_sync ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the sub-animation will restart automatically after finishing."] # [doc = ""] # [inline] pub fn set_autorestart (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . set_autorestart ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "The delay after which the automatic restart is triggered, in seconds."] # [doc = ""] # [inline] pub fn set_autorestart_delay (& self , enable : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . set_autorestart_delay ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If [member autorestart] is `true`, a random additional delay (in seconds) between 0 and this value will be added to [member autorestart_delay]."] # [doc = ""] # [inline] pub fn set_autorestart_random_delay (& self , enable : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . set_autorestart_random_delay ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_fadein_time (& self , time : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . set_fadein_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_fadeout_time (& self , time : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . set_fadeout_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_mix_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: get (get_api ()) . set_mix_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_use_sync (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AnimationNodeOneShotMethodTable :: 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 AnimationNodeOneShot { } unsafe impl GodotObject for AnimationNodeOneShot { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AnimationNodeOneShot" } } impl std :: ops :: Deref for AnimationNodeOneShot { 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 AnimationNodeOneShot { # [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 AnimationNodeOneShot { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AnimationNodeOneShot { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AnimationNodeOneShot { } unsafe impl SubClass < crate :: generated :: object :: Object > for AnimationNodeOneShot { } impl Instanciable for AnimationNodeOneShot { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AnimationNodeOneShot :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AnimationNodeOneShotMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_autorestart_delay : * mut sys :: godot_method_bind , pub get_autorestart_random_delay : * mut sys :: godot_method_bind , pub get_fadein_time : * mut sys :: godot_method_bind , pub get_fadeout_time : * mut sys :: godot_method_bind , pub get_mix_mode : * mut sys :: godot_method_bind , pub has_autorestart : * mut sys :: godot_method_bind , pub is_using_sync : * mut sys :: godot_method_bind , pub set_autorestart : * mut sys :: godot_method_bind , pub set_autorestart_delay : * mut sys :: godot_method_bind , pub set_autorestart_random_delay : * mut sys :: godot_method_bind , pub set_fadein_time : * mut sys :: godot_method_bind , pub set_fadeout_time : * mut sys :: godot_method_bind , pub set_mix_mode : * mut sys :: godot_method_bind , pub set_use_sync : * mut sys :: godot_method_bind } impl AnimationNodeOneShotMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AnimationNodeOneShotMethodTable = AnimationNodeOneShotMethodTable { class_constructor : None , get_autorestart_delay : 0 as * mut sys :: godot_method_bind , get_autorestart_random_delay : 0 as * mut sys :: godot_method_bind , get_fadein_time : 0 as * mut sys :: godot_method_bind , get_fadeout_time : 0 as * mut sys :: godot_method_bind , get_mix_mode : 0 as * mut sys :: godot_method_bind , has_autorestart : 0 as * mut sys :: godot_method_bind , is_using_sync : 0 as * mut sys :: godot_method_bind , set_autorestart : 0 as * mut sys :: godot_method_bind , set_autorestart_delay : 0 as * mut sys :: godot_method_bind , set_autorestart_random_delay : 0 as * mut sys :: godot_method_bind , set_fadein_time : 0 as * mut sys :: godot_method_bind , set_fadeout_time : 0 as * mut sys :: godot_method_bind , set_mix_mode : 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 (|| { AnimationNodeOneShotMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AnimationNodeOneShot\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_autorestart_delay = (gd_api . godot_method_bind_get_method) (class_name , "get_autorestart_delay\0" . as_ptr () as * const c_char) ; table . get_autorestart_random_delay = (gd_api . godot_method_bind_get_method) (class_name , "get_autorestart_random_delay\0" . as_ptr () as * const c_char) ; table . get_fadein_time = (gd_api . godot_method_bind_get_method) (class_name , "get_fadein_time\0" . as_ptr () as * const c_char) ; table . get_fadeout_time = (gd_api . godot_method_bind_get_method) (class_name , "get_fadeout_time\0" . as_ptr () as * const c_char) ; table . get_mix_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_mix_mode\0" . as_ptr () as * const c_char) ; table . has_autorestart = (gd_api . godot_method_bind_get_method) (class_name , "has_autorestart\0" . as_ptr () as * const c_char) ; 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_autorestart = (gd_api . godot_method_bind_get_method) (class_name , "set_autorestart\0" . as_ptr () as * const c_char) ; table . set_autorestart_delay = (gd_api . godot_method_bind_get_method) (class_name , "set_autorestart_delay\0" . as_ptr () as * const c_char) ; table . set_autorestart_random_delay = (gd_api . godot_method_bind_get_method) (class_name , "set_autorestart_random_delay\0" . as_ptr () as * const c_char) ; table . set_fadein_time = (gd_api . godot_method_bind_get_method) (class_name , "set_fadein_time\0" . as_ptr () as * const c_char) ; table . set_fadeout_time = (gd_api . godot_method_bind_get_method) (class_name , "set_fadeout_time\0" . as_ptr () as * const c_char) ; table . set_mix_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_mix_mode\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-7a634cfa4295a760/out/generated.rs:808:7789 [INFO] [stdout] | [INFO] [stdout] 808 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 808 | # [doc = "`core class 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-7a634cfa4295a760/out/generated.rs:814:6265 [INFO] [stdout] | [INFO] [stdout] 814 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 PlaneMesh` inherits `PrimitiveMesh` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_planemesh.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nPlaneMesh 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 PlaneMesh { this : RawObject < Self > , } impl PlaneMesh { # [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 = PlaneMeshMethodTable :: 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 generated plane."] # [doc = ""] # [inline] pub fn size (& self) -> Vector2 { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneMeshMethodTable :: get (get_api ()) . get_size ; let ret = crate :: icalls :: icallptr_vec2 (method_bind , self . this . sys () . as_ptr ()) ; mem :: transmute (ret) } } # [doc = "Number of subdivision along the Z axis."] # [doc = ""] # [inline] pub fn subdivide_depth (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneMeshMethodTable :: get (get_api ()) . get_subdivide_depth ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Number of subdivision along the X axis."] # [doc = ""] # [inline] pub fn subdivide_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneMeshMethodTable :: 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 generated plane."] # [doc = ""] # [inline] pub fn set_size (& self , size : Vector2) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneMeshMethodTable :: get (get_api ()) . set_size ; let ret = crate :: icalls :: icallptr_void_vec2 (method_bind , self . this . sys () . as_ptr () , size) ; } } # [doc = "Number of subdivision along the Z axis."] # [doc = ""] # [inline] pub fn set_subdivide_depth (& self , subdivide : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneMeshMethodTable :: get (get_api ()) . set_subdivide_depth ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , subdivide) ; } } # [doc = "Number of subdivision along the X axis."] # [doc = ""] # [inline] pub fn set_subdivide_width (& self , subdivide : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = PlaneMeshMethodTable :: 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 PlaneMesh { } unsafe impl GodotObject for PlaneMesh { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "PlaneMesh" } } impl std :: ops :: Deref for PlaneMesh { 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 PlaneMesh { # [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 PlaneMesh { } unsafe impl SubClass < crate :: generated :: mesh :: Mesh > for PlaneMesh { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for PlaneMesh { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for PlaneMesh { } unsafe impl SubClass < crate :: generated :: object :: Object > for PlaneMesh { } impl Instanciable for PlaneMesh { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { PlaneMesh :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct PlaneMeshMethodTable { 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_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_width : * mut sys :: godot_method_bind } impl PlaneMeshMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : PlaneMeshMethodTable = PlaneMeshMethodTable { class_constructor : None , get_size : 0 as * mut sys :: godot_method_bind , get_subdivide_depth : 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_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 (|| { PlaneMeshMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "PlaneMesh\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_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_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-7a634cfa4295a760/out/generated.rs:820:7550 [INFO] [stdout] | [INFO] [stdout] 820 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 AudioEffectCapture` inherits `AudioEffect` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_audioeffectcapture.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nAudioEffectCapture inherits methods from:\n - [AudioEffect](struct.AudioEffect.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct AudioEffectCapture { this : RawObject < Self > , } impl AudioEffectCapture { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = AudioEffectCaptureMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = ""] # [doc = ""] # [inline] pub fn can_get_buffer (& self , frames : i64) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . can_get_buffer ; let ret = crate :: icalls :: icallptr_bool_i64 (method_bind , self . this . sys () . as_ptr () , frames) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn clear_buffer (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . clear_buffer ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn get_buffer (& self , frames : i64) -> Vector2Array { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_buffer ; let ret = crate :: icalls :: icallptr_vec2arr_i64 (method_bind , self . this . sys () . as_ptr () , frames) ; Vector2Array :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn buffer_length (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_buffer_length ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_buffer_length_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_buffer_length_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_discarded_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_discarded_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_frames_available (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_frames_available ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn get_pushed_frames (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . get_pushed_frames ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = ""] # [doc = ""] # [inline] pub fn set_buffer_length (& self , buffer_length_seconds : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = AudioEffectCaptureMethodTable :: get (get_api ()) . set_buffer_length ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , buffer_length_seconds) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for AudioEffectCapture { } unsafe impl GodotObject for AudioEffectCapture { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "AudioEffectCapture" } } impl std :: ops :: Deref for AudioEffectCapture { type Target = crate :: generated :: audio_effect :: AudioEffect ; # [inline] fn deref (& self) -> & crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for AudioEffectCapture { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: audio_effect :: AudioEffect { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: audio_effect :: AudioEffect > for AudioEffectCapture { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for AudioEffectCapture { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for AudioEffectCapture { } unsafe impl SubClass < crate :: generated :: object :: Object > for AudioEffectCapture { } impl Instanciable for AudioEffectCapture { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { AudioEffectCapture :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct AudioEffectCaptureMethodTable { pub class_constructor : sys :: godot_class_constructor , pub can_get_buffer : * mut sys :: godot_method_bind , pub clear_buffer : * mut sys :: godot_method_bind , pub get_buffer : * mut sys :: godot_method_bind , pub get_buffer_length : * mut sys :: godot_method_bind , pub get_buffer_length_frames : * mut sys :: godot_method_bind , pub get_discarded_frames : * mut sys :: godot_method_bind , pub get_frames_available : * mut sys :: godot_method_bind , pub get_pushed_frames : * mut sys :: godot_method_bind , pub set_buffer_length : * mut sys :: godot_method_bind } impl AudioEffectCaptureMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : AudioEffectCaptureMethodTable = AudioEffectCaptureMethodTable { class_constructor : None , can_get_buffer : 0 as * mut sys :: godot_method_bind , clear_buffer : 0 as * mut sys :: godot_method_bind , get_buffer : 0 as * mut sys :: godot_method_bind , get_buffer_length : 0 as * mut sys :: godot_method_bind , get_buffer_length_frames : 0 as * mut sys :: godot_method_bind , get_discarded_frames : 0 as * mut sys :: godot_method_bind , get_frames_available : 0 as * mut sys :: godot_method_bind , get_pushed_frames : 0 as * mut sys :: godot_method_bind , set_buffer_length : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { AudioEffectCaptureMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "AudioEffectCapture\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . can_get_buffer = (gd_api . godot_method_bind_get_method) (class_name , "can_get_buffer\0" . as_ptr () as * const c_char) ; table . clear_buffer = (gd_api . godot_method_bind_get_method) (class_name , "clear_buffer\0" . as_ptr () as * const c_char) ; table . get_buffer = (gd_api . godot_method_bind_get_method) (class_name , "get_buffer\0" . as_ptr () as * const c_char) ; table . get_buffer_length = (gd_api . godot_method_bind_get_method) (class_name , "get_buffer_length\0" . as_ptr () as * const c_char) ; table . get_buffer_length_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_buffer_length_frames\0" . as_ptr () as * const c_char) ; table . get_discarded_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_discarded_frames\0" . as_ptr () as * const c_char) ; table . get_frames_available = (gd_api . godot_method_bind_get_method) (class_name , "get_frames_available\0" . as_ptr () as * const c_char) ; table . get_pushed_frames = (gd_api . godot_method_bind_get_method) (class_name , "get_pushed_frames\0" . as_ptr () as * const c_char) ; table . set_buffer_length = (gd_api . godot_method_bind_get_method) (class_name , "set_buffer_length\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:826:4429 [INFO] [stdout] | [INFO] [stdout] 826 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:832:4309 [INFO] [stdout] | [INFO] [stdout] 832 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:838:10366 [INFO] [stdout] | [INFO] [stdout] 838 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 RemoteTransform2D` inherits `Node2D` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_remotetransform2d.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`RemoteTransform2D` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nRemoteTransform2D inherits methods from:\n - [Node2D](struct.Node2D.html)\n - [CanvasItem](struct.CanvasItem.html)\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct RemoteTransform2D { this : RawObject < Self > , } impl RemoteTransform2D { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = RemoteTransform2DMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "[RemoteTransform2D] caches the remote node. It may not notice if the remote node disappears; [method force_update_cache] forces it to update the cache again."] # [doc = ""] # [inline] pub fn force_update_cache (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . force_update_cache ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } # [doc = "The [NodePath] to the remote node, relative to the RemoteTransform2D's position in the scene."] # [doc = ""] # [inline] pub fn remote_node (& self) -> NodePath { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_remote_node ; let ret = crate :: icalls :: icallptr_nodepath (method_bind , self . this . sys () . as_ptr ()) ; NodePath :: from_sys (ret) } } # [doc = "If `true`, the remote node's position is updated."] # [doc = ""] # [inline] pub fn update_position (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_update_position ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the remote node's rotation is updated."] # [doc = ""] # [inline] pub fn update_rotation (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_update_rotation ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the remote node's scale is updated."] # [doc = ""] # [inline] pub fn update_scale (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_update_scale ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, global coordinates are used. If `false`, local coordinates are used."] # [doc = ""] # [inline] pub fn use_global_coordinates (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . get_use_global_coordinates ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The [NodePath] to the remote node, relative to the RemoteTransform2D's position in the scene."] # [doc = ""] # [inline] pub fn set_remote_node (& self , path : impl Into < NodePath >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_remote_node ; let ret = crate :: icalls :: icallptr_void_nodepath (method_bind , self . this . sys () . as_ptr () , path . into ()) ; } } # [doc = "If `true`, the remote node's position is updated."] # [doc = ""] # [inline] pub fn set_update_position (& self , update_remote_position : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_update_position ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_position) ; } } # [doc = "If `true`, the remote node's rotation is updated."] # [doc = ""] # [inline] pub fn set_update_rotation (& self , update_remote_rotation : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_update_rotation ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_rotation) ; } } # [doc = "If `true`, the remote node's scale is updated."] # [doc = ""] # [inline] pub fn set_update_scale (& self , update_remote_scale : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_update_scale ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , update_remote_scale) ; } } # [doc = "If `true`, global coordinates are used. If `false`, local coordinates are used."] # [doc = ""] # [inline] pub fn set_use_global_coordinates (& self , use_global_coordinates : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = RemoteTransform2DMethodTable :: get (get_api ()) . set_use_global_coordinates ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , use_global_coordinates) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for RemoteTransform2D { } unsafe impl GodotObject for RemoteTransform2D { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "RemoteTransform2D" } } impl QueueFree for RemoteTransform2D { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for RemoteTransform2D { type Target = crate :: generated :: node_2d :: Node2D ; # [inline] fn deref (& self) -> & crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for RemoteTransform2D { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node_2d :: Node2D { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node_2d :: Node2D > for RemoteTransform2D { } unsafe impl SubClass < crate :: generated :: canvas_item :: CanvasItem > for RemoteTransform2D { } unsafe impl SubClass < crate :: generated :: node :: Node > for RemoteTransform2D { } unsafe impl SubClass < crate :: generated :: object :: Object > for RemoteTransform2D { } impl Instanciable for RemoteTransform2D { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { RemoteTransform2D :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct RemoteTransform2DMethodTable { pub class_constructor : sys :: godot_class_constructor , pub force_update_cache : * mut sys :: godot_method_bind , pub get_remote_node : * mut sys :: godot_method_bind , pub get_update_position : * mut sys :: godot_method_bind , pub get_update_rotation : * mut sys :: godot_method_bind , pub get_update_scale : * mut sys :: godot_method_bind , pub get_use_global_coordinates : * mut sys :: godot_method_bind , pub set_remote_node : * mut sys :: godot_method_bind , pub set_update_position : * mut sys :: godot_method_bind , pub set_update_rotation : * mut sys :: godot_method_bind , pub set_update_scale : * mut sys :: godot_method_bind , pub set_use_global_coordinates : * mut sys :: godot_method_bind } impl RemoteTransform2DMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : RemoteTransform2DMethodTable = RemoteTransform2DMethodTable { class_constructor : None , force_update_cache : 0 as * mut sys :: godot_method_bind , get_remote_node : 0 as * mut sys :: godot_method_bind , get_update_position : 0 as * mut sys :: godot_method_bind , get_update_rotation : 0 as * mut sys :: godot_method_bind , get_update_scale : 0 as * mut sys :: godot_method_bind , get_use_global_coordinates : 0 as * mut sys :: godot_method_bind , set_remote_node : 0 as * mut sys :: godot_method_bind , set_update_position : 0 as * mut sys :: godot_method_bind , set_update_rotation : 0 as * mut sys :: godot_method_bind , set_update_scale : 0 as * mut sys :: godot_method_bind , set_use_global_coordinates : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { RemoteTransform2DMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "RemoteTransform2D\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . force_update_cache = (gd_api . godot_method_bind_get_method) (class_name , "force_update_cache\0" . as_ptr () as * const c_char) ; table . get_remote_node = (gd_api . godot_method_bind_get_method) (class_name , "get_remote_node\0" . as_ptr () as * const c_char) ; table . get_update_position = (gd_api . godot_method_bind_get_method) (class_name , "get_update_position\0" . as_ptr () as * const c_char) ; table . get_update_rotation = (gd_api . godot_method_bind_get_method) (class_name , "get_update_rotation\0" . as_ptr () as * const c_char) ; table . get_update_scale = (gd_api . godot_method_bind_get_method) (class_name , "get_update_scale\0" . as_ptr () as * const c_char) ; table . get_use_global_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "get_use_global_coordinates\0" . as_ptr () as * const c_char) ; table . set_remote_node = (gd_api . godot_method_bind_get_method) (class_name , "set_remote_node\0" . as_ptr () as * const c_char) ; table . set_update_position = (gd_api . godot_method_bind_get_method) (class_name , "set_update_position\0" . as_ptr () as * const c_char) ; table . set_update_rotation = (gd_api . godot_method_bind_get_method) (class_name , "set_update_rotation\0" . as_ptr () as * const c_char) ; table . set_update_scale = (gd_api . godot_method_bind_get_method) (class_name , "set_update_scale\0" . as_ptr () as * const c_char) ; table . set_use_global_coordinates = (gd_api . godot_method_bind_get_method) (class_name , "set_use_global_coordinates\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:844:8763 [INFO] [stdout] | [INFO] [stdout] 844 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:850:5259 [INFO] [stdout] | [INFO] [stdout] 850 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Sky` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_sky.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nSky 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 Sky { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct RadianceSize (pub i64) ; impl RadianceSize { pub const _32 : RadianceSize = RadianceSize (0i64) ; pub const _64 : RadianceSize = RadianceSize (1i64) ; pub const _128 : RadianceSize = RadianceSize (2i64) ; pub const _256 : RadianceSize = RadianceSize (3i64) ; pub const _512 : RadianceSize = RadianceSize (4i64) ; pub const _1024 : RadianceSize = RadianceSize (5i64) ; pub const _2048 : RadianceSize = RadianceSize (6i64) ; pub const MAX : RadianceSize = RadianceSize (7i64) ; } impl From < i64 > for RadianceSize { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < RadianceSize > for i64 { # [inline] fn from (v : RadianceSize) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Sky { pub const RADIANCE_SIZE_1024 : i64 = 5i64 ; pub const RADIANCE_SIZE_128 : i64 = 2i64 ; pub const RADIANCE_SIZE_2048 : i64 = 6i64 ; pub const RADIANCE_SIZE_256 : i64 = 3i64 ; pub const RADIANCE_SIZE_32 : i64 = 0i64 ; pub const RADIANCE_SIZE_512 : i64 = 4i64 ; pub const RADIANCE_SIZE_64 : i64 = 1i64 ; pub const RADIANCE_SIZE_MAX : i64 = 7i64 ; } impl Sky { # [doc = "The [Sky]'s radiance map size. The higher the radiance map size, the more detailed the lighting from the [Sky] will be.\nSee [enum RadianceSize] constants for values.\n**Note:** Some hardware will have trouble with higher radiance sizes, especially [constant RADIANCE_SIZE_512] and above. Only use such high values on high-end hardware."] # [doc = ""] # [inline] pub fn radiance_size (& self) -> crate :: generated :: sky :: RadianceSize { unsafe { let method_bind : * mut sys :: godot_method_bind = SkyMethodTable :: get (get_api ()) . get_radiance_size ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: sky :: RadianceSize (ret) } } # [doc = "The [Sky]'s radiance map size. The higher the radiance map size, the more detailed the lighting from the [Sky] will be.\nSee [enum RadianceSize] constants for values.\n**Note:** Some hardware will have trouble with higher radiance sizes, especially [constant RADIANCE_SIZE_512] and above. Only use such high values on high-end hardware."] # [doc = ""] # [inline] pub fn set_radiance_size (& self , size : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = SkyMethodTable :: get (get_api ()) . set_radiance_size ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , size) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Sky { } unsafe impl GodotObject for Sky { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "Sky" } } impl std :: ops :: Deref for Sky { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Sky { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for Sky { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for Sky { } unsafe impl SubClass < crate :: generated :: object :: Object > for Sky { } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct SkyMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_radiance_size : * mut sys :: godot_method_bind , pub set_radiance_size : * mut sys :: godot_method_bind } impl SkyMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : SkyMethodTable = SkyMethodTable { class_constructor : None , get_radiance_size : 0 as * mut sys :: godot_method_bind , set_radiance_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 (|| { SkyMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Sky\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_radiance_size = (gd_api . godot_method_bind_get_method) (class_name , "get_radiance_size\0" . as_ptr () as * const c_char) ; table . set_radiance_size = (gd_api . godot_method_bind_get_method) (class_name , "set_radiance_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-7a634cfa4295a760/out/generated.rs:856:3287 [INFO] [stdout] | [INFO] [stdout] 856 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:862:21299 [INFO] [stdout] | [INFO] [stdout] 862 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:868:5075 [INFO] [stdout] | [INFO] [stdout] 868 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 CylinderShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_cylindershape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nCylinderShape 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 CylinderShape { this : RawObject < Self > , } impl CylinderShape { # [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 = CylinderShapeMethodTable :: 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 cylinder's height."] # [doc = ""] # [inline] pub fn height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderShapeMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The cylinder's radius."] # [doc = ""] # [inline] pub fn radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderShapeMethodTable :: get (get_api ()) . get_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The cylinder's height."] # [doc = ""] # [inline] pub fn set_height (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderShapeMethodTable :: get (get_api ()) . set_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "The cylinder's radius."] # [doc = ""] # [inline] pub fn set_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CylinderShapeMethodTable :: 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 CylinderShape { } unsafe impl GodotObject for CylinderShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CylinderShape" } } impl std :: ops :: Deref for CylinderShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CylinderShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for CylinderShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CylinderShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CylinderShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for CylinderShape { } impl Instanciable for CylinderShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CylinderShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CylinderShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_height : * mut sys :: godot_method_bind , pub get_radius : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_radius : * mut sys :: godot_method_bind } impl CylinderShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CylinderShapeMethodTable = CylinderShapeMethodTable { class_constructor : None , get_height : 0 as * mut sys :: godot_method_bind , get_radius : 0 as * mut sys :: godot_method_bind , set_height : 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 (|| { CylinderShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CylinderShape\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_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_radius\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_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-7a634cfa4295a760/out/generated.rs:874:9934 [INFO] [stdout] | [INFO] [stdout] 874 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 NativeScript` inherits `Script` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_nativescript.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nNativeScript 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 NativeScript { this : RawObject < Self > , } impl NativeScript { # [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 = NativeScriptMethodTable :: 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_class_documentation (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_class_documentation ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn class_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_class_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn library (& self) -> Option < Ref < crate :: generated :: gdnative_library :: GDNativeLibrary , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_library ; let ret = crate :: icalls :: icallptr_obj (method_bind , self . this . sys () . as_ptr ()) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: gdnative_library :: GDNativeLibrary , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_method_documentation (& self , method : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_method_documentation ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , method . into ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_property_documentation (& self , path : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_property_documentation ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , path . into ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn script_class_icon_path (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_script_class_icon_path ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn script_class_name (& self) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_script_class_name ; let ret = crate :: icalls :: icallptr_str (method_bind , self . this . sys () . as_ptr ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn get_signal_documentation (& self , signal_name : impl Into < GodotString >) -> GodotString { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . get_signal_documentation ; let ret = crate :: icalls :: icallptr_str_str (method_bind , self . this . sys () . as_ptr () , signal_name . into ()) ; GodotString :: from_sys (ret) } } # [doc = ""] # [doc = ""] # [inline] pub fn _new (& self , varargs : & [Variant]) -> Variant { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . _new ; let ret = crate :: icalls :: icallvarargs_ (method_bind , self . this . sys () . as_ptr () , varargs) ; ret } } # [doc = ""] # [doc = ""] # [inline] pub fn set_class_name (& self , class_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . set_class_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , class_name . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_library (& self , library : impl AsArg < crate :: generated :: gdnative_library :: GDNativeLibrary >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . set_library ; let ret = crate :: icalls :: icallptr_void_obj (method_bind , self . this . sys () . as_ptr () , library . as_arg_ptr ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_script_class_icon_path (& self , icon_path : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . set_script_class_icon_path ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , icon_path . into ()) ; } } # [doc = ""] # [doc = ""] # [inline] pub fn set_script_class_name (& self , class_name : impl Into < GodotString >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = NativeScriptMethodTable :: get (get_api ()) . set_script_class_name ; let ret = crate :: icalls :: icallptr_void_str (method_bind , self . this . sys () . as_ptr () , class_name . into ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for NativeScript { } unsafe impl GodotObject for NativeScript { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "NativeScript" } } impl std :: ops :: Deref for NativeScript { type Target = crate :: generated :: script :: Script ; # [inline] fn deref (& self) -> & crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for NativeScript { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: script :: Script { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: script :: Script > for NativeScript { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for NativeScript { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for NativeScript { } unsafe impl SubClass < crate :: generated :: object :: Object > for NativeScript { } impl Instanciable for NativeScript { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { NativeScript :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct NativeScriptMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_class_documentation : * mut sys :: godot_method_bind , pub get_class_name : * mut sys :: godot_method_bind , pub get_library : * mut sys :: godot_method_bind , pub get_method_documentation : * mut sys :: godot_method_bind , pub get_property_documentation : * mut sys :: godot_method_bind , pub get_script_class_icon_path : * mut sys :: godot_method_bind , pub get_script_class_name : * mut sys :: godot_method_bind , pub get_signal_documentation : * mut sys :: godot_method_bind , pub _new : * mut sys :: godot_method_bind , pub set_class_name : * mut sys :: godot_method_bind , pub set_library : * mut sys :: godot_method_bind , pub set_script_class_icon_path : * mut sys :: godot_method_bind , pub set_script_class_name : * mut sys :: godot_method_bind } impl NativeScriptMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : NativeScriptMethodTable = NativeScriptMethodTable { class_constructor : None , get_class_documentation : 0 as * mut sys :: godot_method_bind , get_class_name : 0 as * mut sys :: godot_method_bind , get_library : 0 as * mut sys :: godot_method_bind , get_method_documentation : 0 as * mut sys :: godot_method_bind , get_property_documentation : 0 as * mut sys :: godot_method_bind , get_script_class_icon_path : 0 as * mut sys :: godot_method_bind , get_script_class_name : 0 as * mut sys :: godot_method_bind , get_signal_documentation : 0 as * mut sys :: godot_method_bind , _new : 0 as * mut sys :: godot_method_bind , set_class_name : 0 as * mut sys :: godot_method_bind , set_library : 0 as * mut sys :: godot_method_bind , set_script_class_icon_path : 0 as * mut sys :: godot_method_bind , set_script_class_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 (|| { NativeScriptMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "NativeScript\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_class_documentation = (gd_api . godot_method_bind_get_method) (class_name , "get_class_documentation\0" . as_ptr () as * const c_char) ; table . get_class_name = (gd_api . godot_method_bind_get_method) (class_name , "get_class_name\0" . as_ptr () as * const c_char) ; table . get_library = (gd_api . godot_method_bind_get_method) (class_name , "get_library\0" . as_ptr () as * const c_char) ; table . get_method_documentation = (gd_api . godot_method_bind_get_method) (class_name , "get_method_documentation\0" . as_ptr () as * const c_char) ; table . get_property_documentation = (gd_api . godot_method_bind_get_method) (class_name , "get_property_documentation\0" . as_ptr () as * const c_char) ; table . get_script_class_icon_path = (gd_api . godot_method_bind_get_method) (class_name , "get_script_class_icon_path\0" . as_ptr () as * const c_char) ; table . get_script_class_name = (gd_api . godot_method_bind_get_method) (class_name , "get_script_class_name\0" . as_ptr () as * const c_char) ; table . get_signal_documentation = (gd_api . godot_method_bind_get_method) (class_name , "get_signal_documentation\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) ; table . set_class_name = (gd_api . godot_method_bind_get_method) (class_name , "set_class_name\0" . as_ptr () as * const c_char) ; table . set_library = (gd_api . godot_method_bind_get_method) (class_name , "set_library\0" . as_ptr () as * const c_char) ; table . set_script_class_icon_path = (gd_api . godot_method_bind_get_method) (class_name , "set_script_class_icon_path\0" . as_ptr () as * const c_char) ; table . set_script_class_name = (gd_api . godot_method_bind_get_method) (class_name , "set_script_class_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-7a634cfa4295a760/out/generated.rs:880:4564 [INFO] [stdout] | [INFO] [stdout] 880 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:886:5625 [INFO] [stdout] | [INFO] [stdout] 886 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:892:3784 [INFO] [stdout] | [INFO] [stdout] 892 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeDeterminant` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodedeterminant.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeDeterminant 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 VisualShaderNodeDeterminant { this : RawObject < Self > , } impl VisualShaderNodeDeterminant { # [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 = VisualShaderNodeDeterminantMethodTable :: 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 VisualShaderNodeDeterminant { } unsafe impl GodotObject for VisualShaderNodeDeterminant { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeDeterminant" } } impl std :: ops :: Deref for VisualShaderNodeDeterminant { 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 VisualShaderNodeDeterminant { # [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 VisualShaderNodeDeterminant { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeDeterminant { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeDeterminant { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeDeterminant { } impl Instanciable for VisualShaderNodeDeterminant { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeDeterminant :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeDeterminantMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeDeterminantMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeDeterminantMethodTable = VisualShaderNodeDeterminantMethodTable { 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 (|| { VisualShaderNodeDeterminantMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeDeterminant\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-7a634cfa4295a760/out/generated.rs:898:4401 [INFO] [stdout] | [INFO] [stdout] 898 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeGlobalExpression` inherits `VisualShaderNodeExpression` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodeglobalexpression.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeGlobalExpression inherits methods from:\n - [VisualShaderNodeExpression](struct.VisualShaderNodeExpression.html)\n - [VisualShaderNodeGroupBase](struct.VisualShaderNodeGroupBase.html)\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeGlobalExpression { this : RawObject < Self > , } impl VisualShaderNodeGlobalExpression { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeGlobalExpressionMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeGlobalExpression { } unsafe impl GodotObject for VisualShaderNodeGlobalExpression { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeGlobalExpression" } } impl std :: ops :: Deref for VisualShaderNodeGlobalExpression { type Target = crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeGlobalExpression { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node_expression :: VisualShaderNodeExpression > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: visual_shader_node_group_base :: VisualShaderNodeGroupBase > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeGlobalExpression { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeGlobalExpression { } impl Instanciable for VisualShaderNodeGlobalExpression { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeGlobalExpression :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeGlobalExpressionMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeGlobalExpressionMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeGlobalExpressionMethodTable = VisualShaderNodeGlobalExpressionMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeGlobalExpressionMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeGlobalExpression\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:904:11707 [INFO] [stdout] | [INFO] [stdout] 904 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 Timer` inherits `Node` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_timer.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nNon reference counted objects such as the ones of this type are usually owned by the engine.\n\n`Timer` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref` form.\n\nIn the cases where Rust code owns an object of this type, for example if the object was just\ncreated on the Rust side and not passed to the engine yet, ownership should be either given\nto the engine or the object must be manually destroyed using `Ref::free`, or `Ref::queue_free`\nif it is a `Node`."] # [doc = "\n## Class hierarchy\n\nTimer inherits methods from:\n - [Node](struct.Node.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct Timer { this : RawObject < Self > , } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct TimerProcessMode (pub i64) ; impl TimerProcessMode { pub const PHYSICS : TimerProcessMode = TimerProcessMode (0i64) ; pub const IDLE : TimerProcessMode = TimerProcessMode (1i64) ; } impl From < i64 > for TimerProcessMode { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < TimerProcessMode > for i64 { # [inline] fn from (v : TimerProcessMode) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl Timer { pub const TIMER_PROCESS_IDLE : i64 = 1i64 ; pub const TIMER_PROCESS_PHYSICS : i64 = 0i64 ; } impl Timer { # [doc = "Creates a new instance of this object.\n\nBecause this type is not reference counted, the lifetime of the returned object\nis *not* automatically managed.\n\nImmediately after creation, the object is owned by the caller, and can be\npassed to the engine (in which case the engine will be responsible for\ndestroying the object) or destroyed manually using `Ref::free`, or preferably\n`Ref::queue_free` if it is a `Node`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = TimerMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } # [doc = "The timer's remaining time in seconds. Returns 0 if the timer is inactive.\n**Note:** You cannot set this value. To change the timer's remaining time, use [method start]."] # [doc = ""] # [inline] pub fn time_left (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . get_time_left ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Processing mode. See [enum TimerProcessMode]."] # [doc = ""] # [inline] pub fn timer_process_mode (& self) -> crate :: generated :: timer :: TimerProcessMode { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . get_timer_process_mode ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: timer :: TimerProcessMode (ret) } } # [doc = "Wait time in seconds."] # [doc = ""] # [inline] pub fn wait_time (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . get_wait_time ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer will automatically start when entering the scene tree.\n**Note:** This property is automatically set to `false` after the timer enters the scene tree and starts."] # [doc = ""] # [inline] pub fn has_autostart (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . has_autostart ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer will stop when reaching 0. If `false`, it will restart."] # [doc = ""] # [inline] pub fn is_one_shot (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . is_one_shot ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer is paused and will not process until it is unpaused again, even if [method start] is called."] # [doc = ""] # [inline] pub fn is_paused (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . is_paused ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns `true` if the timer is stopped."] # [doc = ""] # [inline] pub fn is_stopped (& self) -> bool { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . is_stopped ; let ret = crate :: icalls :: icallptr_bool (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "If `true`, the timer will automatically start when entering the scene tree.\n**Note:** This property is automatically set to `false` after the timer enters the scene tree and starts."] # [doc = ""] # [inline] pub fn set_autostart (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_autostart ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the timer will stop when reaching 0. If `false`, it will restart."] # [doc = ""] # [inline] pub fn set_one_shot (& self , enable : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_one_shot ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , enable) ; } } # [doc = "If `true`, the timer is paused and will not process until it is unpaused again, even if [method start] is called."] # [doc = ""] # [inline] pub fn set_paused (& self , paused : bool) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_paused ; let ret = crate :: icalls :: icallptr_void_bool (method_bind , self . this . sys () . as_ptr () , paused) ; } } # [doc = "Processing mode. See [enum TimerProcessMode]."] # [doc = ""] # [inline] pub fn set_timer_process_mode (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_timer_process_mode ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } # [doc = "Wait time in seconds."] # [doc = ""] # [inline] pub fn set_wait_time (& self , time_sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . set_wait_time ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time_sec) ; } } # [doc = "Starts the timer. Sets `wait_time` to `time_sec` if `time_sec > 0`. This also resets the remaining time to `wait_time`.\n**Note:** this method will not resume a paused timer. See [member paused].\n# Default Arguments\n* `time_sec` - `-1`"] # [doc = ""] # [inline] pub fn start (& self , time_sec : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . start ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , time_sec) ; } } # [doc = "Stops the timer."] # [doc = ""] # [inline] pub fn stop (& self) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = TimerMethodTable :: get (get_api ()) . stop ; let ret = crate :: icalls :: icallptr_void (method_bind , self . this . sys () . as_ptr ()) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for Timer { } unsafe impl GodotObject for Timer { type RefKind = ref_kind :: ManuallyManaged ; # [inline] fn class_name () -> & 'static str { "Timer" } } impl QueueFree for Timer { # [inline] unsafe fn godot_queue_free (obj : * mut sys :: godot_object) { let method_bind : * mut sys :: godot_method_bind = crate :: generated :: node :: NodeMethodTable :: get (get_api ()) . queue_free ; crate :: icalls :: icallptr_void (method_bind , obj) } } impl std :: ops :: Deref for Timer { type Target = crate :: generated :: node :: Node ; # [inline] fn deref (& self) -> & crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for Timer { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: node :: Node { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: node :: Node > for Timer { } unsafe impl SubClass < crate :: generated :: object :: Object > for Timer { } impl Instanciable for Timer { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { Timer :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct TimerMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_time_left : * mut sys :: godot_method_bind , pub get_timer_process_mode : * mut sys :: godot_method_bind , pub get_wait_time : * mut sys :: godot_method_bind , pub has_autostart : * mut sys :: godot_method_bind , pub is_one_shot : * mut sys :: godot_method_bind , pub is_paused : * mut sys :: godot_method_bind , pub is_stopped : * mut sys :: godot_method_bind , pub set_autostart : * mut sys :: godot_method_bind , pub set_one_shot : * mut sys :: godot_method_bind , pub set_paused : * mut sys :: godot_method_bind , pub set_timer_process_mode : * mut sys :: godot_method_bind , pub set_wait_time : * mut sys :: godot_method_bind , pub start : * mut sys :: godot_method_bind , pub stop : * mut sys :: godot_method_bind } impl TimerMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : TimerMethodTable = TimerMethodTable { class_constructor : None , get_time_left : 0 as * mut sys :: godot_method_bind , get_timer_process_mode : 0 as * mut sys :: godot_method_bind , get_wait_time : 0 as * mut sys :: godot_method_bind , has_autostart : 0 as * mut sys :: godot_method_bind , is_one_shot : 0 as * mut sys :: godot_method_bind , is_paused : 0 as * mut sys :: godot_method_bind , is_stopped : 0 as * mut sys :: godot_method_bind , set_autostart : 0 as * mut sys :: godot_method_bind , set_one_shot : 0 as * mut sys :: godot_method_bind , set_paused : 0 as * mut sys :: godot_method_bind , set_timer_process_mode : 0 as * mut sys :: godot_method_bind , set_wait_time : 0 as * mut sys :: godot_method_bind , start : 0 as * mut sys :: godot_method_bind , stop : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { TimerMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "Timer\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; table . get_time_left = (gd_api . godot_method_bind_get_method) (class_name , "get_time_left\0" . as_ptr () as * const c_char) ; table . get_timer_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "get_timer_process_mode\0" . as_ptr () as * const c_char) ; table . get_wait_time = (gd_api . godot_method_bind_get_method) (class_name , "get_wait_time\0" . as_ptr () as * const c_char) ; table . has_autostart = (gd_api . godot_method_bind_get_method) (class_name , "has_autostart\0" . as_ptr () as * const c_char) ; table . is_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "is_one_shot\0" . as_ptr () as * const c_char) ; table . is_paused = (gd_api . godot_method_bind_get_method) (class_name , "is_paused\0" . as_ptr () as * const c_char) ; table . is_stopped = (gd_api . godot_method_bind_get_method) (class_name , "is_stopped\0" . as_ptr () as * const c_char) ; table . set_autostart = (gd_api . godot_method_bind_get_method) (class_name , "set_autostart\0" . as_ptr () as * const c_char) ; table . set_one_shot = (gd_api . godot_method_bind_get_method) (class_name , "set_one_shot\0" . as_ptr () as * const c_char) ; table . set_paused = (gd_api . godot_method_bind_get_method) (class_name , "set_paused\0" . as_ptr () as * const c_char) ; table . set_timer_process_mode = (gd_api . godot_method_bind_get_method) (class_name , "set_timer_process_mode\0" . as_ptr () as * const c_char) ; table . set_wait_time = (gd_api . godot_method_bind_get_method) (class_name , "set_wait_time\0" . as_ptr () as * const c_char) ; table . start = (gd_api . godot_method_bind_get_method) (class_name , "start\0" . as_ptr () as * const c_char) ; table . stop = (gd_api . godot_method_bind_get_method) (class_name , "stop\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:916:3805 [INFO] [stdout] | [INFO] [stdout] 916 | ...dTable { class_constructor : None , } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 VisualShaderNodeScalarInterp` inherits `VisualShaderNode` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_visualshadernodescalarinterp.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nVisualShaderNodeScalarInterp inherits methods from:\n - [VisualShaderNode](struct.VisualShaderNode.html)\n - [Resource](struct.Resource.html)\n - [Reference](struct.Reference.html)\n - [Object](struct.Object.html)\n"] # [doc = ""] # [doc = "\n## Safety\n\nAll types in the Godot API have \"interior mutability\" in Rust parlance.\nTo enforce that the official [thread-safety guidelines][thread-safety] are\nfollowed, the typestate pattern is used in the `Ref` and `TRef` smart pointers,\nand the `Instance` API. The typestate `Access` in these types tracks whether the\naccess is unique, shared, or exclusive to the current thread. For more information,\nsee the type-level documentation on `Ref`.\n\n[thread-safety]: https://docs.godotengine.org/en/stable/tutorials/threads/thread_safe_apis.html"] # [allow (non_camel_case_types)] # [derive (Debug)] pub struct VisualShaderNodeScalarInterp { this : RawObject < Self > , } impl VisualShaderNodeScalarInterp { # [doc = "Creates a new instance of this object.\n\nThis is a reference-counted type. The returned object is automatically managed\nby `Ref`."] # [inline] pub fn new () -> Ref < Self , thread_access :: Unique > { unsafe { let gd_api = get_api () ; let ctor = VisualShaderNodeScalarInterpMethodTable :: get (gd_api) . class_constructor . unwrap () ; let obj = ptr :: NonNull :: new (ctor ()) . expect ("constructor should not return null") ; Ref :: init_from_sys (obj) } } } impl gdnative_core :: private :: godot_object :: Sealed for VisualShaderNodeScalarInterp { } unsafe impl GodotObject for VisualShaderNodeScalarInterp { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "VisualShaderNodeScalarInterp" } } impl std :: ops :: Deref for VisualShaderNodeScalarInterp { type Target = crate :: generated :: visual_shader_node :: VisualShaderNode ; # [inline] fn deref (& self) -> & crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for VisualShaderNodeScalarInterp { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: visual_shader_node :: VisualShaderNode { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: visual_shader_node :: VisualShaderNode > for VisualShaderNodeScalarInterp { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for VisualShaderNodeScalarInterp { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for VisualShaderNodeScalarInterp { } unsafe impl SubClass < crate :: generated :: object :: Object > for VisualShaderNodeScalarInterp { } impl Instanciable for VisualShaderNodeScalarInterp { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { VisualShaderNodeScalarInterp :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct VisualShaderNodeScalarInterpMethodTable { pub class_constructor : sys :: godot_class_constructor , } impl VisualShaderNodeScalarInterpMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : VisualShaderNodeScalarInterpMethodTable = VisualShaderNodeScalarInterpMethodTable { class_constructor : None , } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { VisualShaderNodeScalarInterpMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "VisualShaderNodeScalarInterp\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:922:12810 [INFO] [stdout] | [INFO] [stdout] 922 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 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-7a634cfa4295a760/out/generated.rs:928:10367 [INFO] [stdout] | [INFO] [stdout] 928 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 CubeMap` inherits `Resource` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_cubemap.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nCubeMap 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 CubeMap { 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) ; } 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 Side (pub i64) ; impl Side { pub const LEFT : Side = Side (0i64) ; pub const RIGHT : Side = Side (1i64) ; pub const BOTTOM : Side = Side (2i64) ; pub const TOP : Side = Side (3i64) ; pub const FRONT : Side = Side (4i64) ; pub const BACK : Side = Side (5i64) ; } impl From < i64 > for Side { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Side > for i64 { # [inline] fn from (v : Side) -> Self { v . 0 } } # [derive (Copy , Clone , Debug , PartialEq , Eq , PartialOrd , Ord , Hash)] pub struct Storage (pub i64) ; impl Storage { pub const RAW : Storage = Storage (0i64) ; pub const COMPRESS_LOSSY : Storage = Storage (1i64) ; pub const COMPRESS_LOSSLESS : Storage = Storage (2i64) ; } impl From < i64 > for Storage { # [inline] fn from (v : i64) -> Self { Self (v) } } impl From < Storage > for i64 { # [inline] fn from (v : Storage) -> Self { v . 0 } } # [doc = "Constants"] # [allow (non_upper_case_globals)] impl CubeMap { pub const FLAGS_DEFAULT : i64 = 7i64 ; pub const FLAG_FILTER : i64 = 4i64 ; pub const FLAG_MIPMAPS : i64 = 1i64 ; pub const FLAG_REPEAT : i64 = 2i64 ; pub const SIDE_BACK : i64 = 5i64 ; pub const SIDE_BOTTOM : i64 = 2i64 ; pub const SIDE_FRONT : i64 = 4i64 ; pub const SIDE_LEFT : i64 = 0i64 ; pub const SIDE_RIGHT : i64 = 1i64 ; pub const SIDE_TOP : i64 = 3i64 ; pub const STORAGE_COMPRESS_LOSSLESS : i64 = 2i64 ; pub const STORAGE_COMPRESS_LOSSY : i64 = 1i64 ; pub const STORAGE_RAW : i64 = 0i64 ; } impl CubeMap { # [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 = CubeMapMethodTable :: 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 render flags for the [CubeMap]. See the [enum Flags] constants for details."] # [doc = ""] # [inline] pub fn flags (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . get_flags ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns the [CubeMap]'s height."] # [doc = ""] # [inline] pub fn get_height (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The lossy storage quality of the [CubeMap] if the storage mode is set to [constant STORAGE_COMPRESS_LOSSY]."] # [doc = ""] # [inline] pub fn lossy_storage_quality (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . get_lossy_storage_quality ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "Returns an [Image] for a side of the [CubeMap] using one of the [enum Side] constants."] # [doc = ""] # [inline] pub fn get_side (& self , side : i64) -> Option < Ref < crate :: generated :: image :: Image , thread_access :: Shared > > { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . get_side ; let ret = crate :: icalls :: icallptr_obj_i64 (method_bind , self . this . sys () . as_ptr () , side) ; ptr :: NonNull :: new (ret) . map (| sys | < Ref < crate :: generated :: image :: Image , thread_access :: Shared >> :: move_from_sys (sys)) } } # [doc = "The [CubeMap]'s storage mode. See [enum Storage] constants."] # [doc = ""] # [inline] pub fn storage (& self) -> crate :: generated :: cube_map :: Storage { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . get_storage ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; crate :: generated :: cube_map :: Storage (ret) } } # [doc = "Returns the [CubeMap]'s width."] # [doc = ""] # [inline] pub fn get_width (& self) -> i64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . get_width ; let ret = crate :: icalls :: icallptr_i64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The render flags for the [CubeMap]. See the [enum Flags] constants for details."] # [doc = ""] # [inline] pub fn set_flags (& self , flags : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . set_flags ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , flags) ; } } # [doc = "The lossy storage quality of the [CubeMap] if the storage mode is set to [constant STORAGE_COMPRESS_LOSSY]."] # [doc = ""] # [inline] pub fn set_lossy_storage_quality (& self , quality : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . set_lossy_storage_quality ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , quality) ; } } # [doc = "Sets an [Image] for a side of the [CubeMap] using one of the [enum Side] constants."] # [doc = ""] # [inline] pub fn set_side (& self , side : i64 , image : impl AsArg < crate :: generated :: image :: Image >) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . set_side ; let ret = crate :: icalls :: icallptr_void_i64_obj (method_bind , self . this . sys () . as_ptr () , side , image . as_arg_ptr ()) ; } } # [doc = "The [CubeMap]'s storage mode. See [enum Storage] constants."] # [doc = ""] # [inline] pub fn set_storage (& self , mode : i64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CubeMapMethodTable :: get (get_api ()) . set_storage ; let ret = crate :: icalls :: icallptr_void_i64 (method_bind , self . this . sys () . as_ptr () , mode) ; } } } impl gdnative_core :: private :: godot_object :: Sealed for CubeMap { } unsafe impl GodotObject for CubeMap { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CubeMap" } } impl std :: ops :: Deref for CubeMap { type Target = crate :: generated :: resource :: Resource ; # [inline] fn deref (& self) -> & crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CubeMap { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: resource :: Resource { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CubeMap { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CubeMap { } unsafe impl SubClass < crate :: generated :: object :: Object > for CubeMap { } impl Instanciable for CubeMap { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CubeMap :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CubeMapMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_flags : * mut sys :: godot_method_bind , pub get_height : * mut sys :: godot_method_bind , pub get_lossy_storage_quality : * mut sys :: godot_method_bind , pub get_side : * mut sys :: godot_method_bind , pub get_storage : * mut sys :: godot_method_bind , pub get_width : * mut sys :: godot_method_bind , pub set_flags : * mut sys :: godot_method_bind , pub set_lossy_storage_quality : * mut sys :: godot_method_bind , pub set_side : * mut sys :: godot_method_bind , pub set_storage : * mut sys :: godot_method_bind } impl CubeMapMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CubeMapMethodTable = CubeMapMethodTable { class_constructor : None , get_flags : 0 as * mut sys :: godot_method_bind , get_height : 0 as * mut sys :: godot_method_bind , get_lossy_storage_quality : 0 as * mut sys :: godot_method_bind , get_side : 0 as * mut sys :: godot_method_bind , get_storage : 0 as * mut sys :: godot_method_bind , get_width : 0 as * mut sys :: godot_method_bind , set_flags : 0 as * mut sys :: godot_method_bind , set_lossy_storage_quality : 0 as * mut sys :: godot_method_bind , set_side : 0 as * mut sys :: godot_method_bind , set_storage : 0 as * mut sys :: godot_method_bind } ; &raw mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'static Self { unsafe { let table = Self :: get_mut () ; static INIT : :: std :: sync :: Once = Once :: new () ; INIT . call_once (|| { CubeMapMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CubeMap\0" . as_ptr () as * const c_char ; table . class_constructor = (gd_api . godot_get_class_constructor) (class_name) ; 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_lossy_storage_quality = (gd_api . godot_method_bind_get_method) (class_name , "get_lossy_storage_quality\0" . as_ptr () as * const c_char) ; table . get_side = (gd_api . godot_method_bind_get_method) (class_name , "get_side\0" . as_ptr () as * const c_char) ; table . get_storage = (gd_api . godot_method_bind_get_method) (class_name , "get_storage\0" . as_ptr () as * const c_char) ; table . get_width = (gd_api . godot_method_bind_get_method) (class_name , "get_width\0" . as_ptr () as * const c_char) ; table . set_flags = (gd_api . godot_method_bind_get_method) (class_name , "set_flags\0" . as_ptr () as * const c_char) ; table . set_lossy_storage_quality = (gd_api . godot_method_bind_get_method) (class_name , "set_lossy_storage_quality\0" . as_ptr () as * const c_char) ; table . set_side = (gd_api . godot_method_bind_get_method) (class_name , "set_side\0" . as_ptr () as * const c_char) ; table . set_storage = (gd_api . godot_method_bind_get_method) (class_name , "set_storage\0" . as_ptr () as * const c_char) ; } } } [INFO] [stdout] | +++ [INFO] [stdout] [INFO] [stdout] [INFO] [stdout] warning: creating a mutable reference to mutable static [INFO] [stdout] --> /opt/rustwide/target/debug/build/gdnative-bindings-lily-7a634cfa4295a760/out/generated.rs:934:5046 [INFO] [stdout] | [INFO] [stdout] 934 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created 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 CapsuleShape` inherits `Shape` (reference counted)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_capsuleshape.html) in the Godot engine's official documentation.\nThe method descriptions are generated from it and typically contain code samples in GDScript, not Rust."] # [doc = "## Memory management\n\nThe lifetime of this object is automatically managed through reference counting."] # [doc = "\n## Class hierarchy\n\nCapsuleShape 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 CapsuleShape { this : RawObject < Self > , } impl CapsuleShape { # [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 = CapsuleShapeMethodTable :: 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 capsule's height."] # [doc = ""] # [inline] pub fn height (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleShapeMethodTable :: get (get_api ()) . get_height ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The capsule's radius."] # [doc = ""] # [inline] pub fn radius (& self) -> f64 { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleShapeMethodTable :: get (get_api ()) . get_radius ; let ret = crate :: icalls :: icallptr_f64 (method_bind , self . this . sys () . as_ptr ()) ; ret as _ } } # [doc = "The capsule's height."] # [doc = ""] # [inline] pub fn set_height (& self , height : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleShapeMethodTable :: get (get_api ()) . set_height ; let ret = crate :: icalls :: icallptr_void_f64 (method_bind , self . this . sys () . as_ptr () , height) ; } } # [doc = "The capsule's radius."] # [doc = ""] # [inline] pub fn set_radius (& self , radius : f64) -> () { unsafe { let method_bind : * mut sys :: godot_method_bind = CapsuleShapeMethodTable :: 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 CapsuleShape { } unsafe impl GodotObject for CapsuleShape { type RefKind = ref_kind :: RefCounted ; # [inline] fn class_name () -> & 'static str { "CapsuleShape" } } impl std :: ops :: Deref for CapsuleShape { type Target = crate :: generated :: shape :: Shape ; # [inline] fn deref (& self) -> & crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } impl std :: ops :: DerefMut for CapsuleShape { # [inline] fn deref_mut (& mut self) -> & mut crate :: generated :: shape :: Shape { unsafe { std :: mem :: transmute (self) } } } unsafe impl SubClass < crate :: generated :: shape :: Shape > for CapsuleShape { } unsafe impl SubClass < crate :: generated :: resource :: Resource > for CapsuleShape { } unsafe impl SubClass < crate :: generated :: reference :: Reference > for CapsuleShape { } unsafe impl SubClass < crate :: generated :: object :: Object > for CapsuleShape { } impl Instanciable for CapsuleShape { # [inline] fn construct () -> Ref < Self , thread_access :: Unique > { CapsuleShape :: new () } } # [doc (hidden)] # [allow (non_camel_case_types , dead_code)] pub (crate) struct CapsuleShapeMethodTable { pub class_constructor : sys :: godot_class_constructor , pub get_height : * mut sys :: godot_method_bind , pub get_radius : * mut sys :: godot_method_bind , pub set_height : * mut sys :: godot_method_bind , pub set_radius : * mut sys :: godot_method_bind } impl CapsuleShapeMethodTable { unsafe fn get_mut () -> & 'static mut Self { static mut TABLE : CapsuleShapeMethodTable = CapsuleShapeMethodTable { class_constructor : None , get_height : 0 as * mut sys :: godot_method_bind , get_radius : 0 as * mut sys :: godot_method_bind , set_height : 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 (|| { CapsuleShapeMethodTable :: init (table , gd_api) ; }) ; table } } # [inline (never)] # [allow (dead_code)] fn init (table : & mut Self , gd_api : & GodotApi) { unsafe { let class_name = "CapsuleShape\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_radius = (gd_api . godot_method_bind_get_method) (class_name , "get_radius\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_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-7a634cfa4295a760/out/generated.rs:940:11390 [INFO] [stdout] | [INFO] [stdout] 940 | ...0 as * mut sys :: godot_method_bind } ; & mut TABLE } # [inline] # [allow (dead_code)] pub fn get (gd_api : & GodotApi) -> & 'st... [INFO] [stdout] | ^^^^^^^^^^^ mutable reference to mutable static [INFO] [stdout] | [INFO] [stdout] = note: for more information, see [INFO] [stdout] = note: mutable references to mutable statics are dangerous; it's undefined behavior if any other pointer to the static is used or if any other reference is created for the static while the mutable reference lives [INFO] [stdout] help: use `&raw mut` instead to create a raw pointer [INFO] [stdout] | [INFO] [stdout] 940 | # [doc = "`core class Button` inherits `BaseButton` (unsafe)."] # [doc = "## Official documentation\n\nSee the [documentation of this class](https://godot.readthedocs.io/en/latest/classes/class_button.html) in the Godot 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`Button` is a reference-only type. Persistent references can\nonly exist in the unsafe `Ref