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( function () {
/**
* TODO
*/
const DepthLimitedBlurShader = {
defines: {
'KERNEL_RADIUS': 4,
'DEPTH_PACKING': 1,
'PERSPECTIVE_CAMERA': 1
},
uniforms: {
'tDiffuse': {
value: null
},
'size': {
value: new THREE.Vector2( 512, 512 )
},
'sampleUvOffsets': {
value: [ new THREE.Vector2( 0, 0 ) ]
},
'sampleWeights': {
value: [ 1.0 ]
},
'tDepth': {
value: null
},
'cameraNear': {
value: 10
},
'cameraFar': {
value: 1000
},
'depthCutoff': {
value: 10
}
},
vertexShader: /* glsl */`
#include <common>
uniform vec2 size;
varying vec2 vUv;
varying vec2 vInvSize;
void main() {
vUv = uv;
vInvSize = 1.0 / size;
gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );
}`,
fragmentShader: /* glsl */`
#include <common>
#include <packing>
uniform sampler2D tDiffuse;
uniform sampler2D tDepth;
uniform float cameraNear;
uniform float cameraFar;
uniform float depthCutoff;
uniform vec2 sampleUvOffsets[ KERNEL_RADIUS + 1 ];
uniform float sampleWeights[ KERNEL_RADIUS + 1 ];
varying vec2 vUv;
varying vec2 vInvSize;
float getDepth( const in vec2 screenPosition ) {
#if DEPTH_PACKING == 1
return unpackRGBAToDepth( texture2D( tDepth, screenPosition ) );
#else
return texture2D( tDepth, screenPosition ).x;
#endif
}
float getViewZ( const in float depth ) {
#if PERSPECTIVE_CAMERA == 1
return perspectiveDepthToViewZ( depth, cameraNear, cameraFar );
#else
return orthographicDepthToViewZ( depth, cameraNear, cameraFar );
#endif
}
void main() {
float depth = getDepth( vUv );
if( depth >= ( 1.0 - EPSILON ) ) {
discard;
}
float centerViewZ = -getViewZ( depth );
bool rBreak = false, lBreak = false;
float weightSum = sampleWeights[0];
vec4 diffuseSum = texture2D( tDiffuse, vUv ) * weightSum;
for( int i = 1; i <= KERNEL_RADIUS; i ++ ) {
float sampleWeight = sampleWeights[i];
vec2 sampleUvOffset = sampleUvOffsets[i] * vInvSize;
vec2 sampleUv = vUv + sampleUvOffset;
float viewZ = -getViewZ( getDepth( sampleUv ) );
if( abs( viewZ - centerViewZ ) > depthCutoff ) rBreak = true;
if( ! rBreak ) {
diffuseSum += texture2D( tDiffuse, sampleUv ) * sampleWeight;
weightSum += sampleWeight;
}
sampleUv = vUv - sampleUvOffset;
viewZ = -getViewZ( getDepth( sampleUv ) );
if( abs( viewZ - centerViewZ ) > depthCutoff ) lBreak = true;
if( ! lBreak ) {
diffuseSum += texture2D( tDiffuse, sampleUv ) * sampleWeight;
weightSum += sampleWeight;
}
}
gl_FragColor = diffuseSum / weightSum;
}`
};
const BlurShaderUtils = {
createSampleWeights: function ( kernelRadius, stdDev ) {
const weights = [];
for ( let i = 0; i <= kernelRadius; i ++ ) {
weights.push( gaussian( i, stdDev ) );
}
return weights;
},
createSampleOffsets: function ( kernelRadius, uvIncrement ) {
const offsets = [];
for ( let i = 0; i <= kernelRadius; i ++ ) {
offsets.push( uvIncrement.clone().multiplyScalar( i ) );
}
return offsets;
},
configure: function ( material, kernelRadius, stdDev, uvIncrement ) {
material.defines[ 'KERNEL_RADIUS' ] = kernelRadius;
material.uniforms[ 'sampleUvOffsets' ].value = BlurShaderUtils.createSampleOffsets( kernelRadius, uvIncrement );
material.uniforms[ 'sampleWeights' ].value = BlurShaderUtils.createSampleWeights( kernelRadius, stdDev );
material.needsUpdate = true;
}
};
function gaussian( x, stdDev ) {
return Math.exp( - ( x * x ) / ( 2.0 * ( stdDev * stdDev ) ) ) / ( Math.sqrt( 2.0 * Math.PI ) * stdDev );
}
THREE.BlurShaderUtils = BlurShaderUtils;
THREE.DepthLimitedBlurShader = DepthLimitedBlurShader;
} )();