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import { tslFn, int, float, vec2, vec3, vec4, If } from '../shadernode/ShaderNode.js';
import { cos, sin, abs, max, exp2, log2, clamp, fract, mix, floor, normalize, cross, all } from '../math/MathNode.js';
import { mul } from '../math/OperatorNode.js';
import { cond } from '../math/CondNode.js';
import { loop, Break } from '../utils/LoopNode.js';
// These defines must match with PMREMGenerator
const cubeUV_r0 = float( 1.0 );
const cubeUV_m0 = float( - 2.0 );
const cubeUV_r1 = float( 0.8 );
const cubeUV_m1 = float( - 1.0 );
const cubeUV_r4 = float( 0.4 );
const cubeUV_m4 = float( 2.0 );
const cubeUV_r5 = float( 0.305 );
const cubeUV_m5 = float( 3.0 );
const cubeUV_r6 = float( 0.21 );
const cubeUV_m6 = float( 4.0 );
const cubeUV_minMipLevel = float( 4.0 );
const cubeUV_minTileSize = float( 16.0 );
// These shader functions convert between the UV coordinates of a single face of
// a cubemap, the 0-5 integer index of a cube face, and the direction vector for
// sampling a textureCube (not generally normalized ).
const getFace = tslFn( ( [ direction ] ) => {
const absDirection = vec3( abs( direction ) ).toVar();
const face = float( - 1.0 ).toVar();
If( absDirection.x.greaterThan( absDirection.z ), () => {
If( absDirection.x.greaterThan( absDirection.y ), () => {
face.assign( cond( direction.x.greaterThan( 0.0 ), 0.0, 3.0 ) );
} ).else( () => {
face.assign( cond( direction.y.greaterThan( 0.0 ), 1.0, 4.0 ) );
} );
} ).else( () => {
If( absDirection.z.greaterThan( absDirection.y ), () => {
face.assign( cond( direction.z.greaterThan( 0.0 ), 2.0, 5.0 ) );
} ).else( () => {
face.assign( cond( direction.y.greaterThan( 0.0 ), 1.0, 4.0 ) );
} );
} );
return face;
} ).setLayout( {
name: 'getFace',
type: 'float',
inputs: [
{ name: 'direction', type: 'vec3' }
]
} );
// RH coordinate system; PMREM face-indexing convention
const getUV = tslFn( ( [ direction, face ] ) => {
const uv = vec2().toVar();
If( face.equal( 0.0 ), () => {
uv.assign( vec2( direction.z, direction.y ).div( abs( direction.x ) ) ); // pos x
} ).elseif( face.equal( 1.0 ), () => {
uv.assign( vec2( direction.x.negate(), direction.z.negate() ).div( abs( direction.y ) ) ); // pos y
} ).elseif( face.equal( 2.0 ), () => {
uv.assign( vec2( direction.x.negate(), direction.y ).div( abs( direction.z ) ) ); // pos z
} ).elseif( face.equal( 3.0 ), () => {
uv.assign( vec2( direction.z.negate(), direction.y ).div( abs( direction.x ) ) ); // neg x
} ).elseif( face.equal( 4.0 ), () => {
uv.assign( vec2( direction.x.negate(), direction.z ).div( abs( direction.y ) ) ); // neg y
} ).else( () => {
uv.assign( vec2( direction.x, direction.y ).div( abs( direction.z ) ) ); // neg z
} );
return mul( 0.5, uv.add( 1.0 ) );
} ).setLayout( {
name: 'getUV',
type: 'vec2',
inputs: [
{ name: 'direction', type: 'vec3' },
{ name: 'face', type: 'float' }
]
} );
const roughnessToMip = tslFn( ( [ roughness ] ) => {
const mip = float( 0.0 ).toVar();
If( roughness.greaterThanEqual( cubeUV_r1 ), () => {
mip.assign( cubeUV_r0.sub( roughness ).mul( cubeUV_m1.sub( cubeUV_m0 ) ).div( cubeUV_r0.sub( cubeUV_r1 ) ).add( cubeUV_m0 ) );
} ).elseif( roughness.greaterThanEqual( cubeUV_r4 ), () => {
mip.assign( cubeUV_r1.sub( roughness ).mul( cubeUV_m4.sub( cubeUV_m1 ) ).div( cubeUV_r1.sub( cubeUV_r4 ) ).add( cubeUV_m1 ) );
} ).elseif( roughness.greaterThanEqual( cubeUV_r5 ), () => {
mip.assign( cubeUV_r4.sub( roughness ).mul( cubeUV_m5.sub( cubeUV_m4 ) ).div( cubeUV_r4.sub( cubeUV_r5 ) ).add( cubeUV_m4 ) );
} ).elseif( roughness.greaterThanEqual( cubeUV_r6 ), () => {
mip.assign( cubeUV_r5.sub( roughness ).mul( cubeUV_m6.sub( cubeUV_m5 ) ).div( cubeUV_r5.sub( cubeUV_r6 ) ).add( cubeUV_m5 ) );
} ).else( () => {
mip.assign( float( - 2.0 ).mul( log2( mul( 1.16, roughness ) ) ) ); // 1.16 = 1.79^0.25
} );
return mip;
} ).setLayout( {
name: 'roughnessToMip',
type: 'float',
inputs: [
{ name: 'roughness', type: 'float' }
]
} );
// RH coordinate system; PMREM face-indexing convention
export const getDirection = tslFn( ( [ uv_immutable, face ] ) => {
const uv = uv_immutable.toVar();
uv.assign( mul( 2.0, uv ).sub( 1.0 ) );
const direction = vec3( uv, 1.0 ).toVar();
If( face.equal( 0.0 ), () => {
direction.assign( direction.zyx ); // ( 1, v, u ) pos x
} ).elseif( face.equal( 1.0 ), () => {
direction.assign( direction.xzy );
direction.xz.mulAssign( - 1.0 ); // ( -u, 1, -v ) pos y
} ).elseif( face.equal( 2.0 ), () => {
direction.x.mulAssign( - 1.0 ); // ( -u, v, 1 ) pos z
} ).elseif( face.equal( 3.0 ), () => {
direction.assign( direction.zyx );
direction.xz.mulAssign( - 1.0 ); // ( -1, v, -u ) neg x
} ).elseif( face.equal( 4.0 ), () => {
direction.assign( direction.xzy );
direction.xy.mulAssign( - 1.0 ); // ( -u, -1, v ) neg y
} ).elseif( face.equal( 5.0 ), () => {
direction.z.mulAssign( - 1.0 ); // ( u, v, -1 ) neg zS
} );
return direction;
} ).setLayout( {
name: 'getDirection',
type: 'vec3',
inputs: [
{ name: 'uv', type: 'vec2' },
{ name: 'face', type: 'float' }
]
} );
//
export const textureCubeUV = tslFn( ( [ envMap, sampleDir_immutable, roughness_immutable, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ] ) => {
const roughness = float( roughness_immutable );
const sampleDir = vec3( sampleDir_immutable );
const mip = clamp( roughnessToMip( roughness ), cubeUV_m0, CUBEUV_MAX_MIP );
const mipF = fract( mip );
const mipInt = floor( mip );
const color0 = vec3( bilinearCubeUV( envMap, sampleDir, mipInt, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ) ).toVar();
If( mipF.notEqual( 0.0 ), () => {
const color1 = vec3( bilinearCubeUV( envMap, sampleDir, mipInt.add( 1.0 ), CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ) ).toVar();
color0.assign( mix( color0, color1, mipF ) );
} );
return color0;
} );
const bilinearCubeUV = tslFn( ( [ envMap, direction_immutable, mipInt_immutable, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP ] ) => {
const mipInt = float( mipInt_immutable ).toVar();
const direction = vec3( direction_immutable );
const face = float( getFace( direction ) ).toVar();
const filterInt = float( max( cubeUV_minMipLevel.sub( mipInt ), 0.0 ) ).toVar();
mipInt.assign( max( mipInt, cubeUV_minMipLevel ) );
const faceSize = float( exp2( mipInt ) ).toVar();
const uv = vec2( getUV( direction, face ).mul( faceSize.sub( 2.0 ) ).add( 1.0 ) ).toVar();
If( face.greaterThan( 2.0 ), () => {
uv.y.addAssign( faceSize );
face.subAssign( 3.0 );
} );
uv.x.addAssign( face.mul( faceSize ) );
uv.x.addAssign( filterInt.mul( mul( 3.0, cubeUV_minTileSize ) ) );
uv.y.addAssign( mul( 4.0, exp2( CUBEUV_MAX_MIP ).sub( faceSize ) ) );
uv.x.mulAssign( CUBEUV_TEXEL_WIDTH );
uv.y.mulAssign( CUBEUV_TEXEL_HEIGHT );
return envMap.uv( uv ).grad( vec2(), vec2() ); // disable anisotropic filtering
} );
const getSample = tslFn( ( { envMap, mipInt, outputDirection, theta, axis, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) => {
const cosTheta = cos( theta );
// Rodrigues' axis-angle rotation
const sampleDirection = outputDirection.mul( cosTheta )
.add( axis.cross( outputDirection ).mul( sin( theta ) ) )
.add( axis.mul( axis.dot( outputDirection ).mul( cosTheta.oneMinus() ) ) );
return bilinearCubeUV( envMap, sampleDirection, mipInt, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP );
} );
export const blur = tslFn( ( { n, latitudinal, poleAxis, outputDirection, weights, samples, dTheta, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) => {
const axis = vec3( cond( latitudinal, poleAxis, cross( poleAxis, outputDirection ) ) ).toVar();
If( all( axis.equals( vec3( 0.0 ) ) ), () => {
axis.assign( vec3( outputDirection.z, 0.0, outputDirection.x.negate() ) );
} );
axis.assign( normalize( axis ) );
const gl_FragColor = vec3().toVar();
gl_FragColor.addAssign( weights.element( int( 0 ) ).mul( getSample( { theta: 0.0, axis, outputDirection, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) ) );
loop( { start: int( 1 ), end: n }, ( { i } ) => {
If( i.greaterThanEqual( samples ), () => {
Break();
} );
const theta = float( dTheta.mul( float( i ) ) ).toVar();
gl_FragColor.addAssign( weights.element( i ).mul( getSample( { theta: theta.mul( - 1.0 ), axis, outputDirection, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) ) );
gl_FragColor.addAssign( weights.element( i ).mul( getSample( { theta, axis, outputDirection, mipInt, envMap, CUBEUV_TEXEL_WIDTH, CUBEUV_TEXEL_HEIGHT, CUBEUV_MAX_MIP } ) ) );
} );
return vec4( gl_FragColor, 1 );
} );