pixijs-custom-rendering
此技能专注于 PixiJS v8 中自定义渲染的实现,包括编写自定义着色器、统一变量、滤镜和批处理器。它支持 WebGL 和 WebGPU 双渲染器,通过 Shader.from、UniformGroup 和 UBO 模式,开发者可以精细控制图形渲染管线,实现高性能和独特的视觉效果。该 Skill 提升了 PixiJS 应用的图形表现力和开发灵活性。
npx skills add https://github.com/pixijs/pixijs-skills --skill pixijs-custom-renderingBefore / After 效果对比
1 组在没有此技能之前,开发者需要手动处理复杂的 GLSL/WGSL 代码、统一变量管理以及 WebGL/WebGPU 之间的兼容性问题,这导致自定义渲染效果的开发过程漫长且容易出错,耗费大量时间在底层细节和调试上。
该 Skill 提供了一套统一且结构化的 API,极大地简化了自定义着色器、滤镜和批处理器的开发。开发者可以更专注于创意实现,通过清晰的接口快速构建跨渲染器的复杂视觉效果,显著缩短开发周期并减少调试成本。
Custom shaders bind GLSL and WGSL programs to scene objects via Shader.from({ gl, gpu, resources }). Uniforms live in typed UniformGroups, textures are passed as separate resources, and the same shader can target both WebGL and WebGPU.
Quick Start
const uniforms = new UniformGroup({
uTime: { value: 0, type: "f32" },
});
const shader = Shader.from({
gl: { vertex: vertexSrc, fragment: fragmentSrc },
resources: { uniforms },
});
const geometry = new MeshGeometry({
positions: new Float32Array([0, 0, 100, 0, 100, 100, 0, 100]),
uvs: new Float32Array([0, 0, 1, 0, 1, 1, 0, 1]),
indices: new Uint32Array([0, 1, 2, 0, 2, 3]),
});
const mesh = new Mesh({ geometry, shader });
app.stage.addChild(mesh);
app.ticker.add(() => {
shader.resources.uniforms.uniforms.uTime = performance.now() / 1000;
});
Related skills: pixijs-filters (built-in filters), pixijs-scene-mesh (custom geometry), pixijs-performance (batch optimization), pixijs-migration-v8 (shader API migration from v7).
Core Patterns
Dual-renderer shader (WebGL + WebGPU)
import { Shader, GlProgram, GpuProgram, UniformGroup } from "pixi.js";
const glVertex = `...`; // GLSL vertex (write `#version 300 es` yourself if you want WebGL2/GLSL ES 3.0)
const glFragment = `...`; // GLSL fragment
const wgslSource = `...`; // WGSL combined
const shader = Shader.from({
gl: { vertex: glVertex, fragment: glFragment },
gpu: {
// entryPoint names are arbitrary; they must match the @vertex / @fragment
// function names in your WGSL source. PixiJS ships examples using
// 'mainVert' / 'mainFrag' but `main` is equally valid.
vertex: { entryPoint: "mainVert", source: wgslSource },
fragment: { entryPoint: "mainFrag", source: wgslSource },
},
resources: {
myUniforms: new UniformGroup({
uColor: { value: new Float32Array([1, 0, 0, 1]), type: "vec4<f32>" },
uMatrix: { value: new Float32Array(16), type: "mat4x4<f32>" },
}),
},
});
If only gl is provided, the shader works with WebGL only. If only gpu is provided, it works with WebGPU only. The compatibleRenderers bitmask is set automatically.
GlProgram does not auto-inject #version 300 es. If you write #version 300 es yourself, PixiJS preserves it and treats the shader as GLSL ES 3.0; otherwise it injects WebGL1 compat macros (#define in varying, #define texture texture2D) and runs the shader as WebGL1-style GLSL. GlProgram always injects a default precision (highp vertex, mediump fragment) and the program name. For GLSL ES 3.0, use in/out instead of attribute/varying, texture() instead of texture2D(), and an out vec4 instead of gl_FragColor.
Textures as resources
Textures are resources, not uniforms. Pass the texture's source and style separately:
import { Shader, UniformGroup, Texture, Assets } from "pixi.js";
const texture = await Assets.load("myImage.png");
const shader = Shader.from({
gl: { vertex: vertSrc, fragment: fragSrc },
resources: {
uTexture: texture.source,
uSampler: texture.source.style,
myUniforms: new UniformGroup({
uAlpha: { value: 1.0, type: "f32" },
}),
},
});
// Swap texture at runtime
shader.resources.uTexture = otherTexture.source;
Resources are a flat key-value map. The key must match the uniform/binding name in the shader source.
Resources can also be plain objects (auto-wrapped into UniformGroup):
const shader = Shader.from({
gl: { vertex: vertSrc, fragment: fragSrc },
resources: {
myUniforms: {
uTime: { value: 0, type: "f32" },
},
},
});
UBO mode (Uniform Buffer Objects)
UBO mode packs uniforms into a single GPU buffer. Required for WebGPU; optional (WebGL2+) for WebGL.
import { UniformGroup } from "pixi.js";
const ubo = new UniformGroup(
{
uProjection: { value: new Float32Array(16), type: "mat4x4<f32>" },
uAlpha: { value: 1.0, type: "f32" },
},
{ ubo: true, isStatic: true },
);
// Must call update() manually when isStatic is true
ubo.uniforms.uAlpha = 0.5;
ubo.update();
UBO rules:
- Only
f32andi32based types are supported (nou32). Matrices are float-only. - Samplers/textures cannot go in a UBO.
- The UniformGroup name in resources must exactly match the UBO block name in the shader.
- Structure and order must exactly match the shader layout.
- UBO sync uses
new Functionunder the hood. In strict-CSP environments (nounsafe-eval), importpixi.js/unsafe-evalonce at startup to swap in the fallback sync path; without it, UBO-backed shaders (and therefore WebGPU) will throw on first use.
Custom filter
Filter.from({ gl, resources }) is the shorthand. Pass only a fragment shader; PixiJS supplies a default vertex shader that handles output frame positioning.
import { Filter } from "pixi.js";
const filter = Filter.from({
gl: {
fragment: `
in vec2 vTextureCoord;
out vec4 finalColor;
uniform sampler2D uTexture;
uniform float uStrength;
void main(void) {
vec4 color = texture(uTexture, vTextureCoord);
finalColor = mix(color, vec4(1.0 - color.rgb, color.a), uStrength);
}
`,
},
resources: {
filterUniforms: {
uStrength: { value: 0.5, type: "f32" },
},
},
});
filter.resources.filterUniforms.uniforms.uStrength = 1.0;
For a custom vertex shader, use new Filter({ glProgram: new GlProgram({ vertex, fragment }), resources }).
Filter shader conventions (GLSL ES 3.0)
in vec2 vTextureCoord;instead ofvarying vec2 vTextureCoord;out vec4 finalColor;instead ofgl_FragColortexture(uTexture, uv)instead oftexture2D(uTexture, uv)- The default vertex shader exposes
uInputSize,uOutputFrame,uOutputTextureand helpersfilterVertexPosition()/filterTextureCoord()
Sampling the render target behind the filter
Set blendRequired: true and sample uBackTexture in the fragment shader. PixiJS copies the destination pixels into that uniform before running the filter:
const blendFilter = Filter.from({
gl: { fragment: blendFragSrc },
resources: { uniforms: { uAmount: { value: 0.5, type: "f32" } } },
blendRequired: true,
});
Only enable blendRequired when you need it; it forces an extra GPU copy every frame.
Updating uniforms at runtime
// Access the UniformGroup via resources
shader.resources.myUniforms.uniforms.uTime = performance.now() / 1000;
// For isStatic UBOs, call update() after changing values
shader.resources.myUniforms.update();
Uniform type reference
See references/uniform-types.md for the complete table of supported types, their WGSL/GLSL equivalents, and value formats.
Custom Batcher (extension-based)
The Batcher abstract class enables custom batching for specialized rendering. Subclass it and register via extensions:
import { Batcher, extensions, ExtensionType } from "pixi.js";
import type {
BatcherOptions,
BatchableMeshElement,
BatchableQuadElement,
Geometry,
Shader,
} from "pixi.js";
class MyBatcher extends Batcher {
public static extension = {
type: [ExtensionType.Batcher],
name: "my-batcher",
};
public name = "my-batcher";
protected vertexSize = 6; // floats per vertex
public geometry: Geometry;
public shader: Shader;
constructor(options: BatcherOptions) {
super(options);
// Initialize geometry and shader
}
public packAttributes(
element: BatchableMeshElement,
float32View: Float32Array,
uint32View: Uint32Array,
index: number,
textureId: number,
): void {
// Pack mesh vertex attributes into the batch buffer
}
public packQuadAttributes(
element: BatchableQuadElement,
float32View: Float32Array,
uint32View: Uint32Array,
index: number,
textureId: number,
): void {
// Pack quad vertex attributes into the batch buffer
}
}
extensions.add(MyBatcher);
Elements reference the batcher by batcherName. The BatchableElement interface requires: batcherName, texture, blendMode, indexSize, attributeSize, topology, and packAsQuad.
Common Mistakes
[CRITICAL] Old Shader.from(vertex, fragment, uniforms) constructor
Wrong:
const shader = Shader.from(vertex, fragment, { uTime: 1 });
Correct:
const shader = Shader.from({
gl: { vertex, fragment },
resources: {
uniforms: new UniformGroup({
uTime: { value: 1, type: "f32" },
}),
},
});
v8 requires an options object with gl/gpu programs and resources. The positional API was removed.
[CRITICAL] UniformGroup without type annotation
Wrong:
new UniformGroup({ uTime: 1 });
Correct:
new UniformGroup({ uTime: { value: 1, type: "f32" } });
Every uniform requires an explicit { value, type } pair. Omitting the type causes a runtime error: "Uniform type undefined is not supported."
[HIGH] UBO with unsupported types or wrong structure
UBO mode supports f32 and i32 based types (scalars and vectors). u32 is not in the supported UniformGroup type list and will throw. Matrices are float-only (mat*<f32>). Samplers cannot be placed in UBOs.
The struct name and field order must exactly match the shader's UBO declaration. Mismatches produce garbled rendering with no error.
[HIGH] Putting textures in UniformGroup
Wrong:
new UniformGroup({
uTexture: { value: texture, type: "f32" },
});
Correct:
const shader = Shader.from({
gl: { vertex, fragment },
resources: {
uTexture: texture.source,
uSampler: texture.source.style,
myUniforms: new UniformGroup({
uAlpha: { value: 1.0, type: "f32" },
}),
},
});
Textures are resources, not uniforms. Pass texture.source (TextureSource) and texture.source.style (TextureStyle) as top-level resource entries.
API Reference
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