three#RGBADepthPacking JavaScript Examples
The following examples show how to use
three#RGBADepthPacking.
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Example #1
| Source File: BokehPass.js From Computer-Graphics with MIT License | 5 votes |
|
constructor( scene, camera, params ) {
super();
this.scene = scene;
this.camera = camera;
const focus = ( params.focus !== undefined ) ? params.focus : 1.0;
const aspect = ( params.aspect !== undefined ) ? params.aspect : camera.aspect;
const aperture = ( params.aperture !== undefined ) ? params.aperture : 0.025;
const maxblur = ( params.maxblur !== undefined ) ? params.maxblur : 1.0;
// render targets
const width = params.width || window.innerWidth || 1;
const height = params.height || window.innerHeight || 1;
this.renderTargetDepth = new WebGLRenderTarget( width, height, {
minFilter: NearestFilter,
magFilter: NearestFilter
} );
this.renderTargetDepth.texture.name = 'BokehPass.depth';
// depth material
this.materialDepth = new MeshDepthMaterial();
this.materialDepth.depthPacking = RGBADepthPacking;
this.materialDepth.blending = NoBlending;
// bokeh material
if ( BokehShader === undefined ) {
console.error( 'THREE.BokehPass relies on BokehShader' );
}
const bokehShader = BokehShader;
const bokehUniforms = UniformsUtils.clone( bokehShader.uniforms );
bokehUniforms[ 'tDepth' ].value = this.renderTargetDepth.texture;
bokehUniforms[ 'focus' ].value = focus;
bokehUniforms[ 'aspect' ].value = aspect;
bokehUniforms[ 'aperture' ].value = aperture;
bokehUniforms[ 'maxblur' ].value = maxblur;
bokehUniforms[ 'nearClip' ].value = camera.near;
bokehUniforms[ 'farClip' ].value = camera.far;
this.materialBokeh = new ShaderMaterial( {
defines: Object.assign( {}, bokehShader.defines ),
uniforms: bokehUniforms,
vertexShader: bokehShader.vertexShader,
fragmentShader: bokehShader.fragmentShader
} );
this.uniforms = bokehUniforms;
this.needsSwap = false;
this.fsQuad = new FullScreenQuad( this.materialBokeh );
this._oldClearColor = new Color();
}
Example #2
| Source File: DepthPass.js From three-viewer with MIT License | 5 votes |
|
/**
* Constructs a new depth pass.
*
* @param {Scene} scene - The scene to render.
* @param {Camera} camera - The camera to use to render the scene.
* @param {Object} [options] - The options.
* @param {Number} [options.resolutionScale=1.0] - Deprecated. Adjust the height or width instead for consistent results.
* @param {Number} [options.width=Resizer.AUTO_SIZE] - The render width.
* @param {Number} [options.height=Resizer.AUTO_SIZE] - The render height.
* @param {WebGLRenderTarget} [options.renderTarget] - A custom render target.
*/
constructor(scene, camera, {
resolutionScale = 1.0,
width = Resizer.AUTO_SIZE,
height = Resizer.AUTO_SIZE,
renderTarget
} = {}) {
super("DepthPass");
this.needsSwap = false;
/**
* A render pass.
*
* @type {RenderPass}
* @private
*/
this.renderPass = new RenderPass(scene, camera, new MeshDepthMaterial({
depthPacking: RGBADepthPacking,
morphTargets: true,
skinning: true
}));
const clearPass = this.renderPass.getClearPass();
clearPass.overrideClearColor = new Color(0xffffff);
clearPass.overrideClearAlpha = 1.0;
/**
* A render target that contains the scene depth.
*
* @type {WebGLRenderTarget}
*/
this.renderTarget = renderTarget;
if(this.renderTarget === undefined) {
this.renderTarget = new WebGLRenderTarget(1, 1, {
minFilter: NearestFilter,
magFilter: NearestFilter,
stencilBuffer: false
});
this.renderTarget.texture.name = "DepthPass.Target";
}
/**
* The desired render resolution.
*
* Use {@link Resizer.AUTO_SIZE} for the width or height to automatically
* calculate it based on its counterpart and the original aspect ratio.
*
* @type {Resizer}
*/
this.resolution = new Resizer(this, width, height);
this.resolution.scale = resolutionScale;
}
Example #3
| Source File: OutlinePass.js From Computer-Graphics with MIT License | 4 votes |
|
constructor( resolution, scene, camera, selectedObjects ) {
super();
this.renderScene = scene;
this.renderCamera = camera;
this.selectedObjects = selectedObjects !== undefined ? selectedObjects : [];
this.visibleEdgeColor = new Color( 1, 1, 1 );
this.hiddenEdgeColor = new Color( 0.1, 0.04, 0.02 );
this.edgeGlow = 0.0;
this.usePatternTexture = false;
this.edgeThickness = 1.0;
this.edgeStrength = 3.0;
this.downSampleRatio = 2;
this.pulsePeriod = 0;
this._visibilityCache = new Map();
this.resolution = ( resolution !== undefined ) ? new Vector2( resolution.x, resolution.y ) : new Vector2( 256, 256 );
const pars = { minFilter: LinearFilter, magFilter: LinearFilter, format: RGBAFormat };
const resx = Math.round( this.resolution.x / this.downSampleRatio );
const resy = Math.round( this.resolution.y / this.downSampleRatio );
this.renderTargetMaskBuffer = new WebGLRenderTarget( this.resolution.x, this.resolution.y, pars );
this.renderTargetMaskBuffer.texture.name = 'OutlinePass.mask';
this.renderTargetMaskBuffer.texture.generateMipmaps = false;
this.depthMaterial = new MeshDepthMaterial();
this.depthMaterial.side = DoubleSide;
this.depthMaterial.depthPacking = RGBADepthPacking;
this.depthMaterial.blending = NoBlending;
this.prepareMaskMaterial = this.getPrepareMaskMaterial();
this.prepareMaskMaterial.side = DoubleSide;
this.prepareMaskMaterial.fragmentShader = replaceDepthToViewZ( this.prepareMaskMaterial.fragmentShader, this.renderCamera );
this.renderTargetDepthBuffer = new WebGLRenderTarget( this.resolution.x, this.resolution.y, pars );
this.renderTargetDepthBuffer.texture.name = 'OutlinePass.depth';
this.renderTargetDepthBuffer.texture.generateMipmaps = false;
this.renderTargetMaskDownSampleBuffer = new WebGLRenderTarget( resx, resy, pars );
this.renderTargetMaskDownSampleBuffer.texture.name = 'OutlinePass.depthDownSample';
this.renderTargetMaskDownSampleBuffer.texture.generateMipmaps = false;
this.renderTargetBlurBuffer1 = new WebGLRenderTarget( resx, resy, pars );
this.renderTargetBlurBuffer1.texture.name = 'OutlinePass.blur1';
this.renderTargetBlurBuffer1.texture.generateMipmaps = false;
this.renderTargetBlurBuffer2 = new WebGLRenderTarget( Math.round( resx / 2 ), Math.round( resy / 2 ), pars );
this.renderTargetBlurBuffer2.texture.name = 'OutlinePass.blur2';
this.renderTargetBlurBuffer2.texture.generateMipmaps = false;
this.edgeDetectionMaterial = this.getEdgeDetectionMaterial();
this.renderTargetEdgeBuffer1 = new WebGLRenderTarget( resx, resy, pars );
this.renderTargetEdgeBuffer1.texture.name = 'OutlinePass.edge1';
this.renderTargetEdgeBuffer1.texture.generateMipmaps = false;
this.renderTargetEdgeBuffer2 = new WebGLRenderTarget( Math.round( resx / 2 ), Math.round( resy / 2 ), pars );
this.renderTargetEdgeBuffer2.texture.name = 'OutlinePass.edge2';
this.renderTargetEdgeBuffer2.texture.generateMipmaps = false;
const MAX_EDGE_THICKNESS = 4;
const MAX_EDGE_GLOW = 4;
this.separableBlurMaterial1 = this.getSeperableBlurMaterial( MAX_EDGE_THICKNESS );
this.separableBlurMaterial1.uniforms[ 'texSize' ].value.set( resx, resy );
this.separableBlurMaterial1.uniforms[ 'kernelRadius' ].value = 1;
this.separableBlurMaterial2 = this.getSeperableBlurMaterial( MAX_EDGE_GLOW );
this.separableBlurMaterial2.uniforms[ 'texSize' ].value.set( Math.round( resx / 2 ), Math.round( resy / 2 ) );
this.separableBlurMaterial2.uniforms[ 'kernelRadius' ].value = MAX_EDGE_GLOW;
// Overlay material
this.overlayMaterial = this.getOverlayMaterial();
// copy material
if ( CopyShader === undefined ) console.error( 'THREE.OutlinePass relies on CopyShader' );
const copyShader = CopyShader;
this.copyUniforms = UniformsUtils.clone( copyShader.uniforms );
this.copyUniforms[ 'opacity' ].value = 1.0;
this.materialCopy = new ShaderMaterial( {
uniforms: this.copyUniforms,
vertexShader: copyShader.vertexShader,
fragmentShader: copyShader.fragmentShader,
blending: NoBlending,
depthTest: false,
depthWrite: false,
transparent: true
} );
this.enabled = true;
this.needsSwap = false;
this._oldClearColor = new Color();
this.oldClearAlpha = 1;
this.fsQuad = new FullScreenQuad( null );
this.tempPulseColor1 = new Color();
this.tempPulseColor2 = new Color();
this.textureMatrix = new Matrix4();
function replaceDepthToViewZ( string, camera ) {
const type = camera.isPerspectiveCamera ? 'perspective' : 'orthographic';
return string.replace( /DEPTH_TO_VIEW_Z/g, type + 'DepthToViewZ' );
}
}
Example #4
| Source File: SAOPass.js From Computer-Graphics with MIT License | 4 votes |
|
constructor( scene, camera, useDepthTexture = false, useNormals = false, resolution = new Vector2( 256, 256 ) ) {
super();
this.scene = scene;
this.camera = camera;
this.clear = true;
this.needsSwap = false;
this.supportsDepthTextureExtension = useDepthTexture;
this.supportsNormalTexture = useNormals;
this.originalClearColor = new Color();
this._oldClearColor = new Color();
this.oldClearAlpha = 1;
this.params = {
output: 0,
saoBias: 0.5,
saoIntensity: 0.18,
saoScale: 1,
saoKernelRadius: 100,
saoMinResolution: 0,
saoBlur: true,
saoBlurRadius: 8,
saoBlurStdDev: 4,
saoBlurDepthCutoff: 0.01
};
this.resolution = new Vector2( resolution.x, resolution.y );
this.saoRenderTarget = new WebGLRenderTarget( this.resolution.x, this.resolution.y, {
minFilter: LinearFilter,
magFilter: LinearFilter,
format: RGBAFormat
} );
this.blurIntermediateRenderTarget = this.saoRenderTarget.clone();
this.beautyRenderTarget = this.saoRenderTarget.clone();
this.normalRenderTarget = new WebGLRenderTarget( this.resolution.x, this.resolution.y, {
minFilter: NearestFilter,
magFilter: NearestFilter,
format: RGBAFormat
} );
this.depthRenderTarget = this.normalRenderTarget.clone();
let depthTexture;
if ( this.supportsDepthTextureExtension ) {
depthTexture = new DepthTexture();
depthTexture.type = UnsignedShortType;
this.beautyRenderTarget.depthTexture = depthTexture;
this.beautyRenderTarget.depthBuffer = true;
}
this.depthMaterial = new MeshDepthMaterial();
this.depthMaterial.depthPacking = RGBADepthPacking;
this.depthMaterial.blending = NoBlending;
this.normalMaterial = new MeshNormalMaterial();
this.normalMaterial.blending = NoBlending;
if ( SAOShader === undefined ) {
console.error( 'THREE.SAOPass relies on SAOShader' );
}
this.saoMaterial = new ShaderMaterial( {
defines: Object.assign( {}, SAOShader.defines ),
fragmentShader: SAOShader.fragmentShader,
vertexShader: SAOShader.vertexShader,
uniforms: UniformsUtils.clone( SAOShader.uniforms )
} );
this.saoMaterial.extensions.derivatives = true;
this.saoMaterial.defines[ 'DEPTH_PACKING' ] = this.supportsDepthTextureExtension ? 0 : 1;
this.saoMaterial.defines[ 'NORMAL_TEXTURE' ] = this.supportsNormalTexture ? 1 : 0;
this.saoMaterial.defines[ 'PERSPECTIVE_CAMERA' ] = this.camera.isPerspectiveCamera ? 1 : 0;
this.saoMaterial.uniforms[ 'tDepth' ].value = ( this.supportsDepthTextureExtension ) ? depthTexture : this.depthRenderTarget.texture;
this.saoMaterial.uniforms[ 'tNormal' ].value = this.normalRenderTarget.texture;
this.saoMaterial.uniforms[ 'size' ].value.set( this.resolution.x, this.resolution.y );
this.saoMaterial.uniforms[ 'cameraInverseProjectionMatrix' ].value.copy( this.camera.projectionMatrixInverse );
this.saoMaterial.uniforms[ 'cameraProjectionMatrix' ].value = this.camera.projectionMatrix;
this.saoMaterial.blending = NoBlending;
if ( DepthLimitedBlurShader === undefined ) {
console.error( 'THREE.SAOPass relies on DepthLimitedBlurShader' );
}
this.vBlurMaterial = new ShaderMaterial( {
uniforms: UniformsUtils.clone( DepthLimitedBlurShader.uniforms ),
defines: Object.assign( {}, DepthLimitedBlurShader.defines ),
vertexShader: DepthLimitedBlurShader.vertexShader,
fragmentShader: DepthLimitedBlurShader.fragmentShader
} );
this.vBlurMaterial.defines[ 'DEPTH_PACKING' ] = this.supportsDepthTextureExtension ? 0 : 1;
this.vBlurMaterial.defines[ 'PERSPECTIVE_CAMERA' ] = this.camera.isPerspectiveCamera ? 1 : 0;
this.vBlurMaterial.uniforms[ 'tDiffuse' ].value = this.saoRenderTarget.texture;
this.vBlurMaterial.uniforms[ 'tDepth' ].value = ( this.supportsDepthTextureExtension ) ? depthTexture : this.depthRenderTarget.texture;
this.vBlurMaterial.uniforms[ 'size' ].value.set( this.resolution.x, this.resolution.y );
this.vBlurMaterial.blending = NoBlending;
this.hBlurMaterial = new ShaderMaterial( {
uniforms: UniformsUtils.clone( DepthLimitedBlurShader.uniforms ),
defines: Object.assign( {}, DepthLimitedBlurShader.defines ),
vertexShader: DepthLimitedBlurShader.vertexShader,
fragmentShader: DepthLimitedBlurShader.fragmentShader
} );
this.hBlurMaterial.defines[ 'DEPTH_PACKING' ] = this.supportsDepthTextureExtension ? 0 : 1;
this.hBlurMaterial.defines[ 'PERSPECTIVE_CAMERA' ] = this.camera.isPerspectiveCamera ? 1 : 0;
this.hBlurMaterial.uniforms[ 'tDiffuse' ].value = this.blurIntermediateRenderTarget.texture;
this.hBlurMaterial.uniforms[ 'tDepth' ].value = ( this.supportsDepthTextureExtension ) ? depthTexture : this.depthRenderTarget.texture;
this.hBlurMaterial.uniforms[ 'size' ].value.set( this.resolution.x, this.resolution.y );
this.hBlurMaterial.blending = NoBlending;
if ( CopyShader === undefined ) {
console.error( 'THREE.SAOPass relies on CopyShader' );
}
this.materialCopy = new ShaderMaterial( {
uniforms: UniformsUtils.clone( CopyShader.uniforms ),
vertexShader: CopyShader.vertexShader,
fragmentShader: CopyShader.fragmentShader,
blending: NoBlending
} );
this.materialCopy.transparent = true;
this.materialCopy.depthTest = false;
this.materialCopy.depthWrite = false;
this.materialCopy.blending = CustomBlending;
this.materialCopy.blendSrc = DstColorFactor;
this.materialCopy.blendDst = ZeroFactor;
this.materialCopy.blendEquation = AddEquation;
this.materialCopy.blendSrcAlpha = DstAlphaFactor;
this.materialCopy.blendDstAlpha = ZeroFactor;
this.materialCopy.blendEquationAlpha = AddEquation;
if ( UnpackDepthRGBAShader === undefined ) {
console.error( 'THREE.SAOPass relies on UnpackDepthRGBAShader' );
}
this.depthCopy = new ShaderMaterial( {
uniforms: UniformsUtils.clone( UnpackDepthRGBAShader.uniforms ),
vertexShader: UnpackDepthRGBAShader.vertexShader,
fragmentShader: UnpackDepthRGBAShader.fragmentShader,
blending: NoBlending
} );
this.fsQuad = new FullScreenQuad( null );
}
