/** * @author alteredq / http://alteredqualia.com/ * * Screen-space ambient occlusion shader * - ported from * SSAO GLSL shader v1.2 * assembled by Martins Upitis (martinsh) (http://devlog-martinsh.blogspot.com) * original technique is made by ArKano22 (http://www.gamedev.net/topic/550699-ssao-no-halo-artifacts/) * - modifications * - modified to use RGBA packed depth texture (use clear color 1,1,1,1 for depth pass) * - refactoring and optimizations */ THREE.SSAOShader = { uniforms: { "tDiffuse": { value: null }, "tDepth": { value: null }, "size": { value: new THREE.Vector2( 512, 512 ) }, "cameraNear": { value: 1 }, "cameraFar": { value: 100 }, "onlyAO": { value: 0 }, "aoClamp": { value: 0.5 }, "lumInfluence": { value: 0.5 } }, vertexShader: [ "varying vec2 vUv;", "void main() {", "vUv = uv;", "gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );", "}" ].join( "\n" ), fragmentShader: [ "uniform float cameraNear;", "uniform float cameraFar;", "#ifdef USE_LOGDEPTHBUF", "uniform float logDepthBufFC;", "#endif", "uniform bool onlyAO;", // use only ambient occlusion pass? "uniform vec2 size;", // texture width, height "uniform float aoClamp;", // depth clamp - reduces haloing at screen edges "uniform float lumInfluence;", // how much luminance affects occlusion "uniform sampler2D tDiffuse;", "uniform sampler2D tDepth;", "varying vec2 vUv;", // "#define PI 3.14159265", "#define DL 2.399963229728653", // PI * ( 3.0 - sqrt( 5.0 ) ) "#define EULER 2.718281828459045", // user variables "const int samples = 8;", // ao sample count "const float radius = 5.0;", // ao radius "const bool useNoise = false;", // use noise instead of pattern for sample dithering "const float noiseAmount = 0.0003;", // dithering amount "const float diffArea = 0.4;", // self-shadowing reduction "const float gDisplace = 0.4;", // gauss bell center // RGBA depth "#include ", // generating noise / pattern texture for dithering "vec2 rand( const vec2 coord ) {", "vec2 noise;", "if ( useNoise ) {", "float nx = dot ( coord, vec2( 12.9898, 78.233 ) );", "float ny = dot ( coord, vec2( 12.9898, 78.233 ) * 2.0 );", "noise = clamp( fract ( 43758.5453 * sin( vec2( nx, ny ) ) ), 0.0, 1.0 );", "} else {", "float ff = fract( 1.0 - coord.s * ( size.x / 2.0 ) );", "float gg = fract( coord.t * ( size.y / 2.0 ) );", "noise = vec2( 0.25, 0.75 ) * vec2( ff ) + vec2( 0.75, 0.25 ) * gg;", "}", "return ( noise * 2.0 - 1.0 ) * noiseAmount;", "}", "float readDepth( const in vec2 coord ) {", "float cameraFarPlusNear = cameraFar + cameraNear;", "float cameraFarMinusNear = cameraFar - cameraNear;", "float cameraCoef = 2.0 * cameraNear;", "#ifdef USE_LOGDEPTHBUF", "float logz = unpackRGBAToDepth( texture2D( tDepth, coord ) );", "float w = pow(2.0, (logz / logDepthBufFC)) - 1.0;", "float z = (logz / w) + 1.0;", "#else", "float z = unpackRGBAToDepth( texture2D( tDepth, coord ) );", "#endif", "return cameraCoef / ( cameraFarPlusNear - z * cameraFarMinusNear );", "}", "float compareDepths( const in float depth1, const in float depth2, inout int far ) {", "float garea = 2.0;", // gauss bell width "float diff = ( depth1 - depth2 ) * 100.0;", // depth difference (0-100) // reduce left bell width to avoid self-shadowing "if ( diff < gDisplace ) {", "garea = diffArea;", "} else {", "far = 1;", "}", "float dd = diff - gDisplace;", "float gauss = pow( EULER, -2.0 * dd * dd / ( garea * garea ) );", "return gauss;", "}", "float calcAO( float depth, float dw, float dh ) {", "float dd = radius - depth * radius;", "vec2 vv = vec2( dw, dh );", "vec2 coord1 = vUv + dd * vv;", "vec2 coord2 = vUv - dd * vv;", "float temp1 = 0.0;", "float temp2 = 0.0;", "int far = 0;", "temp1 = compareDepths( depth, readDepth( coord1 ), far );", // DEPTH EXTRAPOLATION "if ( far > 0 ) {", "temp2 = compareDepths( readDepth( coord2 ), depth, far );", "temp1 += ( 1.0 - temp1 ) * temp2;", "}", "return temp1;", "}", "void main() {", "vec2 noise = rand( vUv );", "float depth = readDepth( vUv );", "float tt = clamp( depth, aoClamp, 1.0 );", "float w = ( 1.0 / size.x ) / tt + ( noise.x * ( 1.0 - noise.x ) );", "float h = ( 1.0 / size.y ) / tt + ( noise.y * ( 1.0 - noise.y ) );", "float ao = 0.0;", "float dz = 1.0 / float( samples );", "float z = 1.0 - dz / 2.0;", "float l = 0.0;", "for ( int i = 0; i <= samples; i ++ ) {", "float r = sqrt( 1.0 - z );", "float pw = cos( l ) * r;", "float ph = sin( l ) * r;", "ao += calcAO( depth, pw * w, ph * h );", "z = z - dz;", "l = l + DL;", "}", "ao /= float( samples );", "ao = 1.0 - ao;", "vec3 color = texture2D( tDiffuse, vUv ).rgb;", "vec3 lumcoeff = vec3( 0.299, 0.587, 0.114 );", "float lum = dot( color.rgb, lumcoeff );", "vec3 luminance = vec3( lum );", "vec3 final = vec3( color * mix( vec3( ao ), vec3( 1.0 ), luminance * lumInfluence ) );", // mix( color * ao, white, luminance ) "if ( onlyAO ) {", "final = vec3( mix( vec3( ao ), vec3( 1.0 ), luminance * lumInfluence ) );", // ambient occlusion only "}", "gl_FragColor = vec4( final, 1.0 );", "}" ].join( "\n" ) };