javascript
/
three.js
镜像来自 https://github.com/tazdij/three.js.git


			
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							<html lang="en">
	<head>
		<title>three.js - WebGPU - Storage PBO External Element</title>
		<meta charset="utf-8">
		<meta name="viewport" content="width=device-width, user-scalable=no, minimum-scale=1.0, maximum-scale=1.0">
		<link type="text/css" rel="stylesheet" href="main.css">
	</head>
	<body>

		<div id="info">
			<a href="https://threejs.org" target="_blank" rel="noopener">three.js</a>
			<br />This example demonstrate the fetch of external element from a StorageBuffer.
			<br /> Left canvas is using WebGPU Backend, right canvas is WebGL Backend.
		</div>

		<script type="importmap">
			{
				"imports": {
					"three": "../build/three.module.js",
					"three/addons/": "./jsm/",
					"three/nodes": "./jsm/nodes/Nodes.js"
				}
			}
		</script>

		<script type="module">

			import * as THREE from 'three';
			import { storageObject, If, vec3, uv, uint, float, tslFn, instanceIndex, MeshBasicNodeMaterial } from 'three/nodes';

			import WebGPURenderer from 'three/addons/renderers/webgpu/WebGPURenderer.js';
			import StorageInstancedBufferAttribute from 'three/addons/renderers/common/StorageInstancedBufferAttribute.js';

			// WebGPU Backend
			init();

			// WebGL Backend
			init( true );

			function init( forceWebGL = false ) {

				const aspect = ( window.innerWidth / 2 ) / window.innerHeight;
				const camera = new THREE.OrthographicCamera( - aspect, aspect, 1, - 1, 0, 2 );
				camera.position.z = 1;

				const scene = new THREE.Scene();

				// texture

				const size = 1024; // non power of two buffer size is not well supported in WebGPU

				const type = [ 'float', 'vec2', 'vec3', 'vec4' ];


				const arrayBufferNodes = [];

				for ( let i = 0; i < type.length; i ++ ) {

					const typeSize = i + 1;
					const array = new Array( size * typeSize ).fill( 0 );

					const arrayBuffer = new StorageInstancedBufferAttribute( new Float32Array( array ), typeSize );

					arrayBufferNodes.push( storageObject( arrayBuffer, type[ i ], size ) );

				}

				const computeInitOrder = tslFn( () => {

					for ( let i = 0; i < type.length; i ++ ) {

						arrayBufferNodes[ i ].element( instanceIndex ).assign( instanceIndex );

					}

				} );

				const computeInvertOrder = tslFn( () => {

					for ( let i = 0; i < type.length; i ++ ) {

						const invertIndex = arrayBufferNodes[ i ].element( uint( size ).sub( instanceIndex ) );
						arrayBufferNodes[ i ].element( instanceIndex ).assign( invertIndex );

					}

				} );

				// compute

				const computeInit = computeInitOrder().compute( size );

				const compute = computeInvertOrder().compute( size );

				const material = new MeshBasicNodeMaterial( { color: 0x00ff00 } );

				material.colorNode = tslFn( () => {

					const index = uint( uv().x.mul( size ).floor() ).toVar();

					If( index.greaterThanEqual( size ), () => {

						index.assign( uint( size ).sub( 1 ) );

					} );

					const color = vec3( 0, 0, 0 ).toVar();

					If( uv().y.greaterThan( 0.0 ), () => {

						const indexValue = arrayBufferNodes[ 0 ].element( index ).toVar();
						const value = float( indexValue ).div( float( size ) ).mul( 20 ).floor().div( 20 );
			
						color.assign( vec3( value, 0, 0 ) );

					} );

					If( uv().y.greaterThan( 0.25 ), () => {

						const indexValue = arrayBufferNodes[ 1 ].element( index ).toVar();
						const value = float( indexValue ).div( float( size ) ).mul( 20 ).floor().div( 20 );
			
						color.assign( vec3( 0, value, 0 ) );

					} );

					If( uv().y.greaterThan( 0.5 ), () => {

						const indexValue = arrayBufferNodes[ 2 ].element( index ).toVar();
						const value = float( indexValue ).div( float( size ) ).mul( 20 ).floor().div( 20 );
			
						color.assign( vec3( 0, 0, value ) );

					} );

					If( uv().y.greaterThan( 0.75 ), () => {

						const indexValue = arrayBufferNodes[ 3 ].element( index ).toVar();
						const value = float( indexValue ).div( float( size ) ).mul( 20 ).floor().div( 20 );
			
						color.assign( vec3( value, value, value ) );

					} );

					return color;

				} )();
			
				// TODO: Add toAttribute() test

				//

				const plane = new THREE.Mesh( new THREE.PlaneGeometry( 1, 1 ), material );
				scene.add( plane );

				const renderer = new WebGPURenderer( { antialias: false, forceWebGL: forceWebGL } );
				renderer.setPixelRatio( window.devicePixelRatio );
				renderer.setSize( window.innerWidth / 2, window.innerHeight );

				document.body.appendChild( renderer.domElement );
				renderer.domElement.style.position = 'absolute';
				renderer.domElement.style.top = '0';
				renderer.domElement.style.left = '0';
				renderer.domElement.style.width = '50%';
				renderer.domElement.style.height = '100%';

				if ( forceWebGL ) {

					renderer.domElement.style.left = '50%';

					scene.background = new THREE.Color( 0x212121 );
			
				} else {

					scene.background = new THREE.Color( 0x313131 );

				}

				// Init Positions
				renderer.compute( computeInit );

				 const stepAnimation = async function () {

					await renderer.computeAsync( compute );
					await renderer.renderAsync( scene, camera );

					setTimeout( stepAnimation, 1000 );
			
				};

				stepAnimation();

				window.addEventListener( 'resize', onWindowResize );

				function onWindowResize() {

					renderer.setSize( window.innerWidth / 2, window.innerHeight );

					const aspect = ( window.innerWidth / 2 ) / window.innerHeight;

					const frustumHeight = camera.top - camera.bottom;

					camera.left = - frustumHeight * aspect / 2;
					camera.right = frustumHeight * aspect / 2;

					camera.updateProjectionMatrix();

					renderer.render( scene, camera );

				}

			}

		</script>
	</body>
</html>