This project is part of the @thi.ng/umbrella monorepo.
Function collection for modular GPGPU / shader programming with @thi.ng/shader-ast.
A growing collection (currently ~170) of useful functions & higher order constructs (incl. meta programming approaches) for GPU / shader programming, acting as optional standard library for @thi.ng/shader-ast based workflows.
These functions can be imported like normal TS/JS functions and (in TS) are fully type checked.
Some of the functions have been ported from GLSL:
- Signed Distance Field primitives and operations are based on work by Inigo Quilezles (iq), HG_SDF (Mercury).
- Hash functions (PRNGs) by Dave Hoskins
- Noise functions by Ashima Arts / Stefan Gustavson
- Various other functions ported from thi.ng/shadergraph, thi.ng/vectors, thi.ng/matrices, thi.ng/color, thi.ng/dsp
Reference:
- http://www.iquilezles.org/www/articles/distfunctions2d/distfunctions2d.htm
- http://www.iquilezles.org/www/articles/distfunctions/distfunctions.htm
- http://mercury.sexy/hg_sdf/
- https://www.shadertoy.com/view/4djSRW
- https://github.com/ashima/webgl-noise
STABLE - used in production
Search or submit any issues for this package
- @thi.ng/shader-ast-glsl - Customizable GLSL codegen for @thi.ng/shader-ast
- @thi.ng/shader-ast-js - Customizable JS codegen, compiler & runtime for @thi.ng/shader-ast
- @thi.ng/webgl - WebGL & GLSL abstraction layer
yarn add @thi.ng/shader-ast-stdlib
ES module import:
<script type="module" src="https://cdn.skypack.dev/@thi.ng/shader-ast-stdlib"></script>
For Node.js REPL:
# with flag only for < v16
node --experimental-repl-await
> const shaderAstStdlib = await import("@thi.ng/shader-ast-stdlib");
Package sizes (gzipped, pre-treeshake): ESM: 11.05 KB
Several demos in this repo's /examples directory are using this package.
A selection:
Screenshot | Description | Live demo | Source |
---|---|---|---|
2D canvas shader emulation | Demo | Source | |
Evolutionary shader generation using genetic programming | Demo | Source | |
HOF shader procedural noise function composition | Demo | Source | |
WebGL & JS canvas2D raymarch shader cross-compilation | Demo | Source | |
WebGL & JS canvas 2D SDF | Demo | Source | |
WebGL & Canvas2D textured tunnel shader | Demo | Source | |
Fork-join worker-based raymarch renderer (JS/CPU only) | Demo | Source | |
Minimal multi-pass / GPGPU example | Demo | Source | |
Shadertoy-like WebGL setup | Demo | Source | |
WebGL screenspace ambient occlusion | Demo | Source |
Below is a brief demonstration of a fully defined shader pair, implementing basic diffuse lighting:
import { assign, defMain, vec4 } from "@thi.ng/shader-ast";
import { diffuseLighting, halfLambert, transformMVP } from "@thi.ng/shader-ast-stdlib";
import { shader } from "@thi.ng/webgl";
// obtain WebGL/WebGL2 context
// the generated shader code will automatically target the right GLSL version
const gl = ...
// transpile & instantiate fully working shader
const myShader = shader(gl, {
// vertex shader fn
// given args are symbolic uniforms, attribs, varyings & GL builtin vars
// here `ins` are vertex attribs and `outs` are "varying"
vs: (gl, unis, ins, outs) => [
defMain(() => [
assign(outs.vnormal, ins.normal),
assign(gl.gl_Position, transformMVP(ins.position, unis.model, unis.view, unis.proj)),
])
],
// fragment shader fn
// here `ins` are "varying" & `outs` are output variables
fs: (gl, unis, ins, outs) => [
defMain(() => [
assign(
outs.fragCol,
vec4(
diffuseLighting(
halfLambert(normalize(ins.vnormal), unis.lightDir),
unis.diffuseCol,
unis.lightCol,
unis.ambientCol
),
1
)
)
])
],
// attribs w/ optional location info
attribs: {
position: ["vec3", 0],
normal: ["vec3", 1]
},
varying: {
vnormal: "vec3"
},
// uniforms with optional default values / functions
uniforms: {
model: "mat4",
view: "mat4",
proj: "mat4",
lightDir: ["vec3", [0, 1, 0]],
lightCol: ["vec3", [1, 1, 1]],
diffuseCol: ["vec3", [0.8, 0, 0]],
ambientCol: ["vec3", [0.1, 0.1, 0.1]]
}
});
The #define
s are auto-injected by default, but can be disabled /
customized / replaced...
#version 300 es
#ifdef GL_FRAGMENT_PRECISION_HIGH
precision highp int;
precision highp float;
#else
precision mediump int;
precision mediump float;
#endif
#ifndef PI
#define PI 3.141592653589793
#endif
#ifndef TAU
#define TAU 6.283185307179586
#endif
#ifndef HALF_PI
#define HALF_PI 1.570796326794896
#endif
uniform mat4 model;
uniform mat4 view;
uniform mat4 proj;
uniform vec3 lightDir;
uniform vec3 lightCol;
uniform vec3 diffuseCol;
uniform vec3 ambientCol;
layout(location=0) in vec3 position;
layout(location=1) in vec3 normal;
out vec3 vnormal;
void main() {
vnormal = normal;
gl_Position = ((proj * (view * model)) * vec4(position, 1.0));
}
The fragColor
output variable is auto-created by
@thi.ng/webgl
if no other output vars are defined. For WebGL v1 this is defined as an
alias for gl_FragColor
...
#version 300 es
/* (omitting #define's for brevity, same as in VS) */
uniform mat4 model;
uniform mat4 view;
uniform mat4 proj;
uniform vec3 lightDir;
uniform vec3 lightCol;
uniform vec3 diffuseCol;
uniform vec3 ambientCol;
in vec3 vnormal;
layout(location=0) out vec4 fragColor;
void main() {
fragColor = vec4((((lightCol * ((dot(normalize(vnormal), lightDir) * 0.5) + 0.5)) * diffuseCol) + ambientCol), 1.0);
}
Several of the functions included here are defined as higher-order functions, providing powerful functional compositional features not usually seen in shader code and not easily achievable via the usual string templating approach used by most other GLSL libraries.
For example, the
additive()
HOF takes a single-arg scalar function and a number of octaves. It returns a new
function which computes the summed value of fn
over the given number octaves,
with a user defined phase shift & decay factor (per octave). This can be used
for additive wave synthesis, multi-octave noise or any other similar use
cases...
Due to the way user defined AST functions keep track of their own call
graph, the anonymous function returned by additive
does not need to be
pre-declared in any way and also ensures all of its own function
dependencies are resolved and emitted in the correct topological order
during later code generation.
Below is the main shader code of the Simplex noise example.
import { add, defn, float, ret, sym, vec2, vec3, vec4 } from "@thi.ng/shader-ast";
import { additive, aspectCorrectedUV, fit1101, snoise2 } from "@thi.ng/shader-ast-stdlib";
const mainImage = defn(
"vec4",
"mainImage",
["vec2", "vec2", "float"],
(frag, res, time) => {
let uv;
let noise;
return [
// compute UV coords and assign to `uv`
uv = sym(aspectCorrectedUV(frag, res)),
// dynamically create a multi-octave version of `snoise2`
// computed over 4 octaves w/ given phase shift and decay
// factor (both per octave)
noise = sym(
additive("vec2", snoise2, 4)(add(uv, time), vec2(2), float(0.5))
),
// `noise` is in [-1..1] interval, use fit1101 to fit to [0..1]
ret(vec4(vec3(fit1101(noise)), 1))
];
}
);
Run the above-linked example and view the console to see the full generated shader code. Also check out the raymarching demo which uses several other HOFs from this library to drastically simplify user code.
TODO. For now, please see doc strings in source for details...
toLinear
toSRGB
luminanceRGB
decodeRGBE
Use the porterDuff
higher order function to define new blend modes.
See
@thi.ng/porter-duff
for reference.
12 standard PD operators for vec4
RGBA colors:
blendSrcOver
blendDestOver
blendSrcIn
blendDestIn
blendSrcOut
blendDestOut
blendSrcAtop
blendDestAtop
blendXor
blendPlus
fogLinear
fogExp
fogExp2
lambert
halfLambert
diffuseLighting
trilight
additive
cartesian2
/cartesian3
clamp01
/clamp11
cross2
/crossC2
distChebyshev2
/distChebyshev3
/distChebyshev4
distManhattan2
/distManhattan3
/distManhattan4
fit01
/fit11
/fit1101
/fit0111
magSq2
/magSq3
/magSq4
maxComp2
/maxComp3
/maxComp4
minComp2
/minComp3
/minComp4
perpendicularCCW
/perpendicularCW
orthogonal3
polar2
/polar3
sincos
/cossin
sinOsc
/sawOsc
/triOsc
/rectOsc
lookat
transformMVP
surfaceNormal
rotation2
rotationX3
/rotationY3
/rotationZ3
rotationX4
/rotationY4
/rotationZ4
hash2
/hash3
hash11
/hash12
/hash13
hash21
/hash22
/hash23
hash31
/hash32
/hash33
hash41
/hash42
/hash43
/hash44
permute
/permute3
/permute4
snoise2
voronoise2
worley2
/worleyDist
/worleyDistManhattan
raymarchAO
raymarchDir
raymarchNormal
raymarchScene
rayPointAt
aspectCorrectedUV
sdfBox2
sdfBox3
sdfCircle
sdfCylinder
sdfLine2
sdfLine3
sdfPlane2
sdfPlane3
sdfSphere
sdfTorus
sdfTriangle2
sdfDodecahedron
/sdfDodecahedronSmooth
sdfIcosahedron
/sdfIcosahedronSmooth
sdfOctahedron
/sdfOctahedronSmooth
sdfTruncatedOctahedron
/sdfTruncatedOctahedronSmooth
sdfTruncatedIcosahedron
/sdfTruncatedIcosahedronSmooth
sdfAnnular
sdfIntersect
sdfMirror2
sdfRepeat2
sdfRepeatPolar2
sdfRepeat3
sdfRound
sdfSubtract
sdfSmoothIntersect
/sdfSmoothIntersectAll
sdfSmoothSubtract
/sdfSmoothSubtractAll
sdfSmoothUnion
/sdfSmoothUnionAll
sdfUnion
indexToCoord
/coordToIndex
indexToUV
/uvToIndex
readIndex1
/readIndex2
/readIndex3
/readIndex4
Karsten Schmidt
If this project contributes to an academic publication, please cite it as:
@misc{thing-shader-ast-stdlib,
title = "@thi.ng/shader-ast-stdlib",
author = "Karsten Schmidt",
note = "https://thi.ng/shader-ast-stdlib",
year = 2019
}
© 2019 - 2021 Karsten Schmidt // Apache Software License 2.0