node-ejs-renderer/node_modules/three/examples/jsm/renderers/webgpu/utils/WebGPUTexturePassUtils.js

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2024-06-09 13:55:01 -04:00
import { GPUTextureViewDimension, GPUIndexFormat, GPUFilterMode, GPUPrimitiveTopology, GPULoadOp, GPUStoreOp } from './WebGPUConstants.js';
class WebGPUTexturePassUtils {
constructor( device ) {
this.device = device;
const mipmapVertexSource = `
struct VarysStruct {
@builtin( position ) Position: vec4<f32>,
@location( 0 ) vTex : vec2<f32>
};
@vertex
fn main( @builtin( vertex_index ) vertexIndex : u32 ) -> VarysStruct {
var Varys : VarysStruct;
var pos = array< vec2<f32>, 4 >(
vec2<f32>( -1.0, 1.0 ),
vec2<f32>( 1.0, 1.0 ),
vec2<f32>( -1.0, -1.0 ),
vec2<f32>( 1.0, -1.0 )
);
var tex = array< vec2<f32>, 4 >(
vec2<f32>( 0.0, 0.0 ),
vec2<f32>( 1.0, 0.0 ),
vec2<f32>( 0.0, 1.0 ),
vec2<f32>( 1.0, 1.0 )
);
Varys.vTex = tex[ vertexIndex ];
Varys.Position = vec4<f32>( pos[ vertexIndex ], 0.0, 1.0 );
return Varys;
}
`;
const mipmapFragmentSource = `
@group( 0 ) @binding( 0 )
var imgSampler : sampler;
@group( 0 ) @binding( 1 )
var img : texture_2d<f32>;
@fragment
fn main( @location( 0 ) vTex : vec2<f32> ) -> @location( 0 ) vec4<f32> {
return textureSample( img, imgSampler, vTex );
}
`;
const flipYFragmentSource = `
@group( 0 ) @binding( 0 )
var imgSampler : sampler;
@group( 0 ) @binding( 1 )
var img : texture_2d<f32>;
@fragment
fn main( @location( 0 ) vTex : vec2<f32> ) -> @location( 0 ) vec4<f32> {
return textureSample( img, imgSampler, vec2( vTex.x, 1.0 - vTex.y ) );
}
`;
this.mipmapSampler = device.createSampler( { minFilter: GPUFilterMode.Linear } );
this.flipYSampler = device.createSampler( { minFilter: GPUFilterMode.Nearest } ); //@TODO?: Consider using textureLoad()
// We'll need a new pipeline for every texture format used.
this.transferPipelines = {};
this.flipYPipelines = {};
this.mipmapVertexShaderModule = device.createShaderModule( {
label: 'mipmapVertex',
code: mipmapVertexSource
} );
this.mipmapFragmentShaderModule = device.createShaderModule( {
label: 'mipmapFragment',
code: mipmapFragmentSource
} );
this.flipYFragmentShaderModule = device.createShaderModule( {
label: 'flipYFragment',
code: flipYFragmentSource
} );
}
getTransferPipeline( format ) {
let pipeline = this.transferPipelines[ format ];
if ( pipeline === undefined ) {
pipeline = this.device.createRenderPipeline( {
vertex: {
module: this.mipmapVertexShaderModule,
entryPoint: 'main'
},
fragment: {
module: this.mipmapFragmentShaderModule,
entryPoint: 'main',
targets: [ { format } ]
},
primitive: {
topology: GPUPrimitiveTopology.TriangleStrip,
stripIndexFormat: GPUIndexFormat.Uint32
},
layout: 'auto'
} );
this.transferPipelines[ format ] = pipeline;
}
return pipeline;
}
getFlipYPipeline( format ) {
let pipeline = this.flipYPipelines[ format ];
if ( pipeline === undefined ) {
pipeline = this.device.createRenderPipeline( {
vertex: {
module: this.mipmapVertexShaderModule,
entryPoint: 'main'
},
fragment: {
module: this.flipYFragmentShaderModule,
entryPoint: 'main',
targets: [ { format } ]
},
primitive: {
topology: GPUPrimitiveTopology.TriangleStrip,
stripIndexFormat: GPUIndexFormat.Uint32
},
layout: 'auto'
} );
this.flipYPipelines[ format ] = pipeline;
}
return pipeline;
}
flipY( textureGPU, textureGPUDescriptor, baseArrayLayer = 0 ) {
const format = textureGPUDescriptor.format;
const { width, height } = textureGPUDescriptor.size;
const transferPipeline = this.getTransferPipeline( format );
const flipYPipeline = this.getFlipYPipeline( format );
const tempTexture = this.device.createTexture( {
size: { width, height, depthOrArrayLayers: 1 },
format,
usage: GPUTextureUsage.RENDER_ATTACHMENT | GPUTextureUsage.TEXTURE_BINDING
} );
const srcView = textureGPU.createView( {
baseMipLevel: 0,
mipLevelCount: 1,
dimension: GPUTextureViewDimension.TwoD,
baseArrayLayer
} );
const dstView = tempTexture.createView( {
baseMipLevel: 0,
mipLevelCount: 1,
dimension: GPUTextureViewDimension.TwoD,
baseArrayLayer: 0
} );
const commandEncoder = this.device.createCommandEncoder( {} );
const pass = ( pipeline, sourceView, destinationView ) => {
const bindGroupLayout = pipeline.getBindGroupLayout( 0 ); // @TODO: Consider making this static.
const bindGroup = this.device.createBindGroup( {
layout: bindGroupLayout,
entries: [ {
binding: 0,
resource: this.flipYSampler
}, {
binding: 1,
resource: sourceView
} ]
} );
const passEncoder = commandEncoder.beginRenderPass( {
colorAttachments: [ {
view: destinationView,
loadOp: GPULoadOp.Clear,
storeOp: GPUStoreOp.Store,
clearValue: [ 0, 0, 0, 0 ]
} ]
} );
passEncoder.setPipeline( pipeline );
passEncoder.setBindGroup( 0, bindGroup );
passEncoder.draw( 4, 1, 0, 0 );
passEncoder.end();
};
pass( transferPipeline, srcView, dstView );
pass( flipYPipeline, dstView, srcView );
this.device.queue.submit( [ commandEncoder.finish() ] );
tempTexture.destroy();
}
generateMipmaps( textureGPU, textureGPUDescriptor, baseArrayLayer = 0 ) {
const pipeline = this.getTransferPipeline( textureGPUDescriptor.format );
const commandEncoder = this.device.createCommandEncoder( {} );
const bindGroupLayout = pipeline.getBindGroupLayout( 0 ); // @TODO: Consider making this static.
let srcView = textureGPU.createView( {
baseMipLevel: 0,
mipLevelCount: 1,
dimension: GPUTextureViewDimension.TwoD,
baseArrayLayer
} );
for ( let i = 1; i < textureGPUDescriptor.mipLevelCount; i ++ ) {
const bindGroup = this.device.createBindGroup( {
layout: bindGroupLayout,
entries: [ {
binding: 0,
resource: this.mipmapSampler
}, {
binding: 1,
resource: srcView
} ]
} );
const dstView = textureGPU.createView( {
baseMipLevel: i,
mipLevelCount: 1,
dimension: GPUTextureViewDimension.TwoD,
baseArrayLayer
} );
const passEncoder = commandEncoder.beginRenderPass( {
colorAttachments: [ {
view: dstView,
loadOp: GPULoadOp.Clear,
storeOp: GPUStoreOp.Store,
clearValue: [ 0, 0, 0, 0 ]
} ]
} );
passEncoder.setPipeline( pipeline );
passEncoder.setBindGroup( 0, bindGroup );
passEncoder.draw( 4, 1, 0, 0 );
passEncoder.end();
srcView = dstView;
}
this.device.queue.submit( [ commandEncoder.finish() ] );
}
}
export default WebGPUTexturePassUtils;