3.8 KiB
3.8 KiB
name, description, argument-hint, metadata
| name | description | argument-hint | metadata | ||||
|---|---|---|---|---|---|---|---|
| ck:shader | Write GLSL fragment shaders for procedural graphics. Topics: shapes (SDF), patterns, noise (Perlin/simplex/cellular), fBm, colors (HSB/RGB), matrices, gradients, animations. Use for generative art, textures, visual effects, WebGL, Three.js shaders. | [effect or pattern] |
|
GLSL Fragment Shaders
Write GPU-accelerated fragment shaders for procedural graphics, textures, and visual effects.
When to Use
- Creating procedural textures (wood, marble, clouds, terrain)
- Drawing shapes with distance fields (SDF)
- Generating patterns, noise, gradients
- Building visual effects and animations
- Writing custom shaders for Three.js, WebGL, Processing
Core Concepts
Fragment shaders execute simultaneously on every pixel. Each thread:
- Receives pixel position via
gl_FragCoord - Returns color via
gl_FragColor(vec4: RGBA 0.0-1.0) - Cannot communicate with other threads (stateless)
Standard Uniforms
uniform float u_time; // Elapsed seconds
uniform vec2 u_resolution; // Canvas size (width, height)
uniform vec2 u_mouse; // Mouse position in pixels
Normalize coordinates: vec2 st = gl_FragCoord.xy / u_resolution;
Essential Functions
| Function | Purpose | Example |
|---|---|---|
mix(a,b,t) |
Linear interpolate | mix(red, blue, 0.5) |
step(edge,x) |
Hard threshold | step(0.5, st.x) |
smoothstep(e0,e1,x) |
Smooth threshold | smoothstep(0.2, 0.8, st.x) |
fract(x) |
Fractional part | fract(st * 3.0) for tiling |
mod(x,y) |
Modulo | mod(st.x, 0.25) |
clamp(x,min,max) |
Constrain value | clamp(col, 0.0, 1.0) |
length(v) |
Vector magnitude | length(st - 0.5) |
distance(a,b) |
Euclidean distance | distance(st, center) |
dot(a,b) |
Dot product | dot(normal, lightDir) |
normalize(v) |
Unit vector | normalize(direction) |
atan(y,x) |
Angle (radians) | atan(st.y-0.5, st.x-0.5) |
sin/cos/pow/abs |
Math | Hardware-accelerated |
Quick Patterns
Circle:
float d = distance(st, vec2(0.5));
float circle = 1.0 - smoothstep(0.2, 0.21, d);
Rectangle:
vec2 bl = step(vec2(0.1), st);
vec2 tr = step(vec2(0.1), 1.0 - st);
float rect = bl.x * bl.y * tr.x * tr.y;
Tiling:
st = fract(st * 4.0); // 4x4 grid
Animation:
float wave = sin(st.x * 10.0 + u_time) * 0.5 + 0.5;
References (Progressive Disclosure)
Fundamentals
references/glsl-fundamentals-data-types-vectors-precision-coordinates.mdreferences/glsl-shaping-functions-step-smoothstep-curves-interpolation.md
Drawing
references/glsl-colors-rgb-hsb-gradients-mixing-color-spaces.mdreferences/glsl-shapes-sdf-circles-rectangles-polar-distance-fields.mdreferences/glsl-shapes-polygon-star-polar-sdf-combinations.md
Procedural
references/glsl-patterns-tiling-fract-matrices-transformations.mdreferences/glsl-pattern-symmetry-truchet-domain-warping.mdreferences/glsl-noise-random-perlin-simplex-cellular-voronoi.mdreferences/glsl-cellular-voronoi-worley-noise-patterns.mdreferences/glsl-fbm-fractional-brownian-motion-turbulence-octaves.mdreferences/glsl-procedural-textures-clouds-marble-wood-terrain.md
API Reference
references/glsl-shader-builtin-functions-complete-api-reference.md
Tools
- Online Editor: editor.thebookofshaders.com
- glslViewer: CLI tool for running .frag files
- glslCanvas: HTML embed for live shaders
- ShaderToy: iTime, iResolution, iMouse uniforms
External Resources
- The Book of Shaders: https://thebookofshaders.com
- LYGIA Library: https://lygia.xyz (reusable shader functions)
- ShaderToy: https://shadertoy.com
- Inigo Quilez Articles: https://iquilezles.org/articles/