home / skills / cloudai-x / threejs-skills / threejs-postprocessing
This skill enables you to implement Three.js post-processing with EffectComposer, bloom, DOF, color grading, and screen-space shaders for enhanced visuals.
npx playbooks add skill cloudai-x/threejs-skills --skill threejs-postprocessingReview the files below or copy the command above to add this skill to your agents.
---
name: threejs-postprocessing
description: Three.js post-processing - EffectComposer, bloom, DOF, screen effects. Use when adding visual effects, color grading, blur, glow, or creating custom screen-space shaders.
---
# Three.js Post-Processing
## Quick Start
```javascript
import * as THREE from "three";
import { EffectComposer } from "three/addons/postprocessing/EffectComposer.js";
import { RenderPass } from "three/addons/postprocessing/RenderPass.js";
import { UnrealBloomPass } from "three/addons/postprocessing/UnrealBloomPass.js";
// Setup composer
const composer = new EffectComposer(renderer);
// Render scene
const renderPass = new RenderPass(scene, camera);
composer.addPass(renderPass);
// Add bloom
const bloomPass = new UnrealBloomPass(
new THREE.Vector2(window.innerWidth, window.innerHeight),
1.5, // strength
0.4, // radius
0.85, // threshold
);
composer.addPass(bloomPass);
// Animation loop - use composer instead of renderer
function animate() {
requestAnimationFrame(animate);
composer.render(); // NOT renderer.render()
}
```
## EffectComposer Setup
```javascript
import { EffectComposer } from "three/addons/postprocessing/EffectComposer.js";
import { RenderPass } from "three/addons/postprocessing/RenderPass.js";
const composer = new EffectComposer(renderer);
// First pass: render scene
const renderPass = new RenderPass(scene, camera);
composer.addPass(renderPass);
// Add more passes...
composer.addPass(effectPass);
// Last pass should render to screen
effectPass.renderToScreen = true; // Default for last pass
// Handle resize
function onResize() {
const width = window.innerWidth;
const height = window.innerHeight;
camera.aspect = width / height;
camera.updateProjectionMatrix();
renderer.setSize(width, height);
composer.setSize(width, height);
}
```
## Common Effects
### Bloom (Glow)
```javascript
import { UnrealBloomPass } from "three/addons/postprocessing/UnrealBloomPass.js";
const bloomPass = new UnrealBloomPass(
new THREE.Vector2(window.innerWidth, window.innerHeight),
1.5, // strength - intensity of glow
0.4, // radius - spread of glow
0.85, // threshold - brightness threshold
);
composer.addPass(bloomPass);
// Adjust at runtime
bloomPass.strength = 2.0;
bloomPass.threshold = 0.5;
bloomPass.radius = 0.8;
```
### Selective Bloom
Apply bloom only to specific objects.
```javascript
import { UnrealBloomPass } from "three/addons/postprocessing/UnrealBloomPass.js";
import { ShaderPass } from "three/addons/postprocessing/ShaderPass.js";
// Layer setup
const BLOOM_LAYER = 1;
const bloomLayer = new THREE.Layers();
bloomLayer.set(BLOOM_LAYER);
// Mark objects to bloom
glowingMesh.layers.enable(BLOOM_LAYER);
// Dark material for non-blooming objects
const darkMaterial = new THREE.MeshBasicMaterial({ color: 0x000000 });
const materials = {};
function darkenNonBloomed(obj) {
if (obj.isMesh && !bloomLayer.test(obj.layers)) {
materials[obj.uuid] = obj.material;
obj.material = darkMaterial;
}
}
function restoreMaterial(obj) {
if (materials[obj.uuid]) {
obj.material = materials[obj.uuid];
delete materials[obj.uuid];
}
}
// Custom render loop
function render() {
// Render bloom pass
scene.traverse(darkenNonBloomed);
composer.render();
scene.traverse(restoreMaterial);
// Render final scene over bloom
renderer.render(scene, camera);
}
```
### FXAA (Anti-Aliasing)
```javascript
import { ShaderPass } from "three/addons/postprocessing/ShaderPass.js";
import { FXAAShader } from "three/addons/shaders/FXAAShader.js";
const fxaaPass = new ShaderPass(FXAAShader);
fxaaPass.material.uniforms["resolution"].value.set(
1 / window.innerWidth,
1 / window.innerHeight,
);
composer.addPass(fxaaPass);
// Update on resize
function onResize() {
fxaaPass.material.uniforms["resolution"].value.set(
1 / window.innerWidth,
1 / window.innerHeight,
);
}
```
### SMAA (Better Anti-Aliasing)
```javascript
import { SMAAPass } from "three/addons/postprocessing/SMAAPass.js";
const smaaPass = new SMAAPass(
window.innerWidth * renderer.getPixelRatio(),
window.innerHeight * renderer.getPixelRatio(),
);
composer.addPass(smaaPass);
```
### SSAO (Ambient Occlusion)
```javascript
import { SSAOPass } from "three/addons/postprocessing/SSAOPass.js";
const ssaoPass = new SSAOPass(
scene,
camera,
window.innerWidth,
window.innerHeight,
);
ssaoPass.kernelRadius = 16;
ssaoPass.minDistance = 0.005;
ssaoPass.maxDistance = 0.1;
composer.addPass(ssaoPass);
// Output modes
ssaoPass.output = SSAOPass.OUTPUT.Default;
// SSAOPass.OUTPUT.Default - Final composited output
// SSAOPass.OUTPUT.SSAO - Just the AO
// SSAOPass.OUTPUT.Blur - Blurred AO
// SSAOPass.OUTPUT.Depth - Depth buffer
// SSAOPass.OUTPUT.Normal - Normal buffer
```
### Depth of Field (DOF)
```javascript
import { BokehPass } from "three/addons/postprocessing/BokehPass.js";
const bokehPass = new BokehPass(scene, camera, {
focus: 10.0, // Focus distance
aperture: 0.025, // Aperture (smaller = more DOF)
maxblur: 0.01, // Max blur amount
});
composer.addPass(bokehPass);
// Update focus dynamically
bokehPass.uniforms["focus"].value = distanceToTarget;
```
### Film Grain
```javascript
import { FilmPass } from "three/addons/postprocessing/FilmPass.js";
const filmPass = new FilmPass(
0.35, // noise intensity
0.5, // scanline intensity
648, // scanline count
false, // grayscale
);
composer.addPass(filmPass);
```
### Vignette
```javascript
import { ShaderPass } from "three/addons/postprocessing/ShaderPass.js";
import { VignetteShader } from "three/addons/shaders/VignetteShader.js";
const vignettePass = new ShaderPass(VignetteShader);
vignettePass.uniforms["offset"].value = 1.0; // Vignette size
vignettePass.uniforms["darkness"].value = 1.0; // Vignette intensity
composer.addPass(vignettePass);
```
### Color Correction
```javascript
import { ShaderPass } from "three/addons/postprocessing/ShaderPass.js";
import { ColorCorrectionShader } from "three/addons/shaders/ColorCorrectionShader.js";
const colorPass = new ShaderPass(ColorCorrectionShader);
colorPass.uniforms["powRGB"].value = new THREE.Vector3(1.2, 1.2, 1.2); // Power
colorPass.uniforms["mulRGB"].value = new THREE.Vector3(1.0, 1.0, 1.0); // Multiply
composer.addPass(colorPass);
```
### Gamma Correction
```javascript
import { GammaCorrectionShader } from "three/addons/shaders/GammaCorrectionShader.js";
const gammaPass = new ShaderPass(GammaCorrectionShader);
composer.addPass(gammaPass);
```
### Pixelation
```javascript
import { RenderPixelatedPass } from "three/addons/postprocessing/RenderPixelatedPass.js";
const pixelPass = new RenderPixelatedPass(6, scene, camera); // 6 = pixel size
composer.addPass(pixelPass);
```
### Glitch Effect
```javascript
import { GlitchPass } from "three/addons/postprocessing/GlitchPass.js";
const glitchPass = new GlitchPass();
glitchPass.goWild = false; // Continuous glitching
composer.addPass(glitchPass);
```
### Halftone
```javascript
import { HalftonePass } from "three/addons/postprocessing/HalftonePass.js";
const halftonePass = new HalftonePass(window.innerWidth, window.innerHeight, {
shape: 1, // 1 = dot, 2 = ellipse, 3 = line, 4 = square
radius: 4, // Dot size
rotateR: Math.PI / 12,
rotateB: (Math.PI / 12) * 2,
rotateG: (Math.PI / 12) * 3,
scatter: 0,
blending: 1,
blendingMode: 1,
greyscale: false,
});
composer.addPass(halftonePass);
```
### Outline
```javascript
import { OutlinePass } from "three/addons/postprocessing/OutlinePass.js";
const outlinePass = new OutlinePass(
new THREE.Vector2(window.innerWidth, window.innerHeight),
scene,
camera,
);
outlinePass.edgeStrength = 3;
outlinePass.edgeGlow = 0;
outlinePass.edgeThickness = 1;
outlinePass.pulsePeriod = 0;
outlinePass.visibleEdgeColor.set(0xffffff);
outlinePass.hiddenEdgeColor.set(0x190a05);
// Select objects to outline
outlinePass.selectedObjects = [mesh1, mesh2];
composer.addPass(outlinePass);
```
## Custom ShaderPass
Create your own post-processing effects.
```javascript
import { ShaderPass } from "three/addons/postprocessing/ShaderPass.js";
const CustomShader = {
uniforms: {
tDiffuse: { value: null }, // Required: input texture
time: { value: 0 },
intensity: { value: 1.0 },
},
vertexShader: `
varying vec2 vUv;
void main() {
vUv = uv;
gl_Position = projectionMatrix * modelViewMatrix * vec4(position, 1.0);
}
`,
fragmentShader: `
uniform sampler2D tDiffuse;
uniform float time;
uniform float intensity;
varying vec2 vUv;
void main() {
vec2 uv = vUv;
// Wave distortion
uv.x += sin(uv.y * 10.0 + time) * 0.01 * intensity;
vec4 color = texture2D(tDiffuse, uv);
gl_FragColor = color;
}
`,
};
const customPass = new ShaderPass(CustomShader);
composer.addPass(customPass);
// Update in animation loop
customPass.uniforms.time.value = clock.getElapsedTime();
```
### Invert Colors Shader
```javascript
const InvertShader = {
uniforms: {
tDiffuse: { value: null },
},
vertexShader: `
varying vec2 vUv;
void main() {
vUv = uv;
gl_Position = projectionMatrix * modelViewMatrix * vec4(position, 1.0);
}
`,
fragmentShader: `
uniform sampler2D tDiffuse;
varying vec2 vUv;
void main() {
vec4 color = texture2D(tDiffuse, vUv);
gl_FragColor = vec4(1.0 - color.rgb, color.a);
}
`,
};
```
### Chromatic Aberration
```javascript
const ChromaticAberrationShader = {
uniforms: {
tDiffuse: { value: null },
amount: { value: 0.005 },
},
vertexShader: `
varying vec2 vUv;
void main() {
vUv = uv;
gl_Position = projectionMatrix * modelViewMatrix * vec4(position, 1.0);
}
`,
fragmentShader: `
uniform sampler2D tDiffuse;
uniform float amount;
varying vec2 vUv;
void main() {
vec2 dir = vUv - 0.5;
float dist = length(dir);
float r = texture2D(tDiffuse, vUv - dir * amount * dist).r;
float g = texture2D(tDiffuse, vUv).g;
float b = texture2D(tDiffuse, vUv + dir * amount * dist).b;
gl_FragColor = vec4(r, g, b, 1.0);
}
`,
};
```
## Combining Multiple Effects
```javascript
import { EffectComposer } from "three/addons/postprocessing/EffectComposer.js";
import { RenderPass } from "three/addons/postprocessing/RenderPass.js";
import { UnrealBloomPass } from "three/addons/postprocessing/UnrealBloomPass.js";
import { ShaderPass } from "three/addons/postprocessing/ShaderPass.js";
import { FXAAShader } from "three/addons/shaders/FXAAShader.js";
import { VignetteShader } from "three/addons/shaders/VignetteShader.js";
import { GammaCorrectionShader } from "three/addons/shaders/GammaCorrectionShader.js";
const composer = new EffectComposer(renderer);
// 1. Render scene
composer.addPass(new RenderPass(scene, camera));
// 2. Bloom
const bloomPass = new UnrealBloomPass(
new THREE.Vector2(window.innerWidth, window.innerHeight),
0.5,
0.4,
0.85,
);
composer.addPass(bloomPass);
// 3. Vignette
const vignettePass = new ShaderPass(VignetteShader);
vignettePass.uniforms["offset"].value = 0.95;
vignettePass.uniforms["darkness"].value = 1.0;
composer.addPass(vignettePass);
// 4. Gamma correction
composer.addPass(new ShaderPass(GammaCorrectionShader));
// 5. Anti-aliasing (always last before output)
const fxaaPass = new ShaderPass(FXAAShader);
fxaaPass.uniforms["resolution"].value.set(
1 / window.innerWidth,
1 / window.innerHeight,
);
composer.addPass(fxaaPass);
```
## Render to Texture
```javascript
// Create render target
const renderTarget = new THREE.WebGLRenderTarget(512, 512);
// Render scene to target
renderer.setRenderTarget(renderTarget);
renderer.render(scene, camera);
renderer.setRenderTarget(null);
// Use texture
const texture = renderTarget.texture;
otherMaterial.map = texture;
```
## Multi-Pass Rendering
```javascript
// Multiple composers for different scenes/layers
const bgComposer = new EffectComposer(renderer);
bgComposer.addPass(new RenderPass(bgScene, camera));
const fgComposer = new EffectComposer(renderer);
fgComposer.addPass(new RenderPass(fgScene, camera));
fgComposer.addPass(bloomPass);
// Combine in render loop
function animate() {
// Render background without clearing
renderer.autoClear = false;
renderer.clear();
bgComposer.render();
// Render foreground over it
renderer.clearDepth();
fgComposer.render();
}
```
## WebGPU Post-Processing (Three.js r150+)
```javascript
import { postProcessing } from "three/addons/nodes/Nodes.js";
import { pass, bloom, dof } from "three/addons/nodes/Nodes.js";
// Using node-based system
const scenePass = pass(scene, camera);
const bloomNode = bloom(scenePass, 0.5, 0.4, 0.85);
const postProcessing = new THREE.PostProcessing(renderer);
postProcessing.outputNode = bloomNode;
// Render
function animate() {
postProcessing.render();
}
```
## Performance Tips
1. **Limit passes**: Each pass adds a full-screen render
2. **Lower resolution**: Use smaller render targets for blur passes
3. **Disable unused effects**: Toggle passes on/off
4. **Use FXAA over MSAA**: Less expensive anti-aliasing
5. **Profile with DevTools**: Check GPU usage
```javascript
// Disable pass
bloomPass.enabled = false;
// Reduce bloom resolution
const bloomPass = new UnrealBloomPass(
new THREE.Vector2(window.innerWidth / 2, window.innerHeight / 2),
strength,
radius,
threshold,
);
// Only apply effects in high-performance scenarios
const isMobile = /iPhone|iPad|Android/i.test(navigator.userAgent);
if (!isMobile) {
composer.addPass(expensivePass);
}
```
## Handle Resize
```javascript
function onWindowResize() {
const width = window.innerWidth;
const height = window.innerHeight;
const pixelRatio = renderer.getPixelRatio();
camera.aspect = width / height;
camera.updateProjectionMatrix();
renderer.setSize(width, height);
composer.setSize(width, height);
// Update pass-specific resolutions
if (fxaaPass) {
fxaaPass.material.uniforms["resolution"].value.set(
1 / (width * pixelRatio),
1 / (height * pixelRatio),
);
}
if (bloomPass) {
bloomPass.resolution.set(width, height);
}
}
window.addEventListener("resize", onWindowResize);
```
## See Also
- `threejs-shaders` - Custom shader development
- `threejs-textures` - Render targets
- `threejs-fundamentals` - Renderer setup
This skill bundles practical patterns and ready-to-use snippets for Three.js post-processing using EffectComposer and common passes (bloom, DOF, FXAA, SMAA, SSAO, film, vignette, outline, and custom ShaderPasses). It focuses on adding glow, blur, color grading, screen-space shaders, and multi-pass pipelines while balancing visual quality and performance. Use it to prototype, tune, and ship polished screen effects in WebGL scenes.
The skill shows how to create an EffectComposer, add a RenderPass and a sequence of effect passes, and render the composer instead of the renderer. It covers configuring built-in passes (UnrealBloomPass, BokehPass, SSAOPass, FXAAShader, etc.), making selective bloom via layers, writing custom ShaderPasses, combining multiple composers, and using render-to-texture workflows. It also includes resize handling, WebGPU node-based examples, and performance tips.
Should I call renderer.render() or composer.render()?
Use composer.render() when you have an EffectComposer. Use renderer.render() only when you render directly to screen or a render target.
How do I update passes on window resize?
Update camera aspect, call renderer.setSize and composer.setSize, and update pass-specific uniforms or resolutions (e.g., FXAA resolution and bloom resolution).