Language:

Version: WebGL 2.0

WebGL 2.0 Arithmetic: ( ) + - ! * / %

( ) + - ! * / % Logical/Relatonal: ~ < > <= >= == != && ||

~ < > <= >= == != && || Bit Operators: & ^ | << >>

& ^ | << >> Comments: // /* */

// /* */ Types: void bool int uint float vec2 vec3 vec4 bvec2 bvec3 bvec4 ivec2 ivec3 ivec4 uvec2 uvec3 uvec4 mat2 mat3 mat4 mat?x? sampler2D, sampler3D, samplerCube

void bool int uint float vec2 vec3 vec4 bvec2 bvec3 bvec4 ivec2 ivec3 ivec4 uvec2 uvec3 uvec4 mat2 mat3 mat4 mat?x? sampler2D, sampler3D, samplerCube Format: float a = 1.0; int b = 1; uint i = 1U; int i = 0x1;

float a = 1.0; int b = 1; uint i = 1U; int i = 0x1; Function Parameter Qualifiers: [none], in, out, inout

[none], in, out, inout Global Variable Qualifiers: const

const Vector Components: .xyzw .rgba .stpq

.xyzw .rgba .stpq Flow Control: if else for return break continue switch/case

if else for return break continue switch/case Output: vec4 fragColor

vec4 fragColor Input: vec2 fragCoord

vec2 fragCoord Preprocessor: # #define #undef #if #ifdef #ifndef #else #elif #endif #error #pragma #line

Built-in Functions:

type radians (type degrees)

type degrees (type radians)

type sin (type angle)

type cos (type angle)

type tan (type angle)

type asin (type x)

type acos (type x)

type atan (type y, type x)

type atan (type y_over_x)

type sinh (type x)

type cosh (type x)

type tanh (type x)

type asinh (type x)

type acosh (type x)

type atanh (type x) type pow (type x, type y)

type exp (type x)

type log (type x)

type exp2 (type x)

type log2 (type x)

type sqrt (type x)

type inversesqrt (type x) type abs (type x)

type sign (type x)

type floor (type x)

type ceil (type x)

type trunc (type x)

type fract (type x)

type mod (type x, float y)

type modf (type x, out type i)

type min (type x, type y)

type max (type x, type y)

type clamp (type x, type minV, type maxV)

type mix (type x, type y, type a)

type step (type edge, type x)

type smoothstep (type a, type b, type x) float length (type x)

float distance (type p0, type p1)

float dot (type x, type y)

vec3 cross (vec3 x, vec3 y)

type normalize (type x)

type faceforward (type N, type I, type Nref)

type reflect (type I, type N)

type refract (type I, type N,float eta)

float determinant(mat? m)

mat?x? outerProduct(vec? c, vec? r)

type matrixCompMult (type x, type y)

type inverse (type inverse)

type transpose (type inverse) vec4 texture( sampler? , vec? coord [, float bias])

vec4 textureLod( sampler, vec? coord, float lod)

vec4 textureLodOffset( sampler? sampler, vec? coord, float lod, ivec? offset)

vec4 textureGrad( sampler? , vec? coord, vec2 dPdx, vec2 dPdy)

vec4 textureGradOffset sampler? , vec? coord, vec? dPdx, vec? dPdy, vec? offset)

vec4 textureProj( sampler? , vec? coord [, float bias])

vec4 textureProjLod( sampler? , vec? coord, float lod)

vec4 textureProjLodOffset( sampler? , vec? coord, float lod, vec? offset)

vec4 textureProjGrad( sampler? , vec? coord, vec2 dPdx, vec2 dPdy)

vec4 texelFetch( sampler? , ivec? coord, int lod)

vec4 texelFetchOffset( sampler?, ivec? coord, int lod, ivec? offset )

ivec? textureSize( sampler? , int lod) type dFdx (type x)

type dFdy (type x)

type fwidth (type p) type isnan (type x)

type isinf (type x)

float intBitsToFloat (int v)

uint uintBitsToFloat (uint v)

int floatBitsToInt (float v)

uint floatBitsToUint (float v)

uint packSnorm2x16 (vec2 v)

uint packUnorm2x16 (vec2 v)

vec2 unpackSnorm2x16 (uint p)

vec2 unpackUnorm2x16 (uint p) bvec lessThan (type x, type y)

bvec lessThanEqual (type x, type y)

bvec greaterThan (type x, type y)

bvec greaterThanEqual (type x, type y)

bvec equal (type x, type y)

bvec notEqual (type x, type y)

bool any (bvec x)

bool all (bvec x)

bvec not (bvec x)

How-to

Use structs: struct myDataType { float occlusion; vec3 color; }; myDataType myData = myDataType(0.7, vec3(1.0, 2.0, 3.0));

struct myDataType { float occlusion; vec3 color; }; myDataType myData = myDataType(0.7, vec3(1.0, 2.0, 3.0)); Initialize arrays: float[] x = float[] (0.0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6);

float[] x = float[] (0.0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6); Do conversions: int a = 3; float b = float(a);

int a = 3; float b = float(a); Do component swizzling: vec4 a = vec4(1.0,2.0,3.0,4.0); vec4 b = a.zyyw;

vec4 a = vec4(1.0,2.0,3.0,4.0); vec4 b = a.zyyw; Access matrix components: mat4 m; m[1] = vec4(2.0); m[0][0] = 1.0; m[2][3] = 2.0;

Be careful!

the f suffix for floating pont numbers: 1.0f is illegal in GLSL. You must use 1.0

1.0f is illegal in GLSL. You must use 1.0 saturate(): saturate(x) doesn't exist in GLSL. Use clamp(x,0.0,1.0) instead

saturate(x) doesn't exist in GLSL. Use clamp(x,0.0,1.0) instead pow/sqrt: please don't feed sqrt() and pow() with negative numbers. Add an abs() or max(0.0,) to the argument

please don't feed sqrt() and pow() with negative numbers. Add an abs() or max(0.0,) to the argument mod: please don't do mod(x,0.0). This is undefined in some platforms

please don't do mod(x,0.0). This is undefined in some platforms variables: initialize your variables! Don't assume they'll be set to zero by default

initialize your variables! Don't assume they'll be set to zero by default functions: don't call your functions the same as some of your variables

Shadertoy Inputs

vec3 iResolution image/buffer The viewport resolution (z is pixel aspect ratio, usually 1.0) float iTime image/sound/buffer Current time in seconds float iTimeDelta image/buffer Time it takes to render a frame, in seconds int iFrame image/buffer Current frame float iFrameRate image/buffer Number of frames rendered per second float iChannelTime[4] image/buffer Time for channel (if video or sound), in seconds vec3 iChannelResolution[4] image/buffer/sound Input texture resolution for each channel vec4 iMouse image/buffer xy = current pixel coords (if LMB is down). zw = click pixel sampler2D iChannel{i} image/buffer/sound Sampler for input textures i vec4 iDate image/buffer/sound Year, month, day, time in seconds in .xyzw float iSampleRate image/buffer/sound The sound sample rate (typically 44100)

Shadertoy Outputs

This help only covers the parts of GLSL ES that are relevant for Shadertoy. For the complete specification please have a look at GLSL ES specification Image shaders: fragColor is used as output channel. It is not, for now, mandatory but recommended to leave the alpha channel to 1.0.Sound shaders: the mainSound() function returns a vec2 containing the left and right (stereo) sound channel wave data.