LayoutTests/webgpu/texture-triangle-strip.html - WebKit - Git at Google

 <!DOCTYPE html>
 <meta charset="utf-8">
 <title>WebGPU Hello Triangles</title>
 <meta name="assert" content="WebGPU correctly renders a green canvas.">
 <link rel="match" href="vertex-buffer-triangle-strip-expected.html">
 <p>Pass if square canvas below is a 4 by 4 blue/green checkerboard.</p>
 <canvas width="400" height="400"></canvas>
 <script src="js/webgpu-functions.js"></script>
 <script>
 if (window.testRunner)
     testRunner.waitUntilDone();

 const positionBufferIndex = 0;
 const texCoordsBufferIndex = 1;
 const positionAttributeNum = 0;
 const texCoordsAttributeNum = 1;
 const bindGroupIndex = 0;
 const textureBindingNum = 0;
 const samplerBindingNum = 1;

 const shaderCode = `
 struct VertexOut
 {
     float4 position : SV_Position;
     float2 texCoords : attribute(0);
 };

 vertex VertexOut vertex_main(float4 position : attribute(${positionAttributeNum}), float2 texCoords : attribute(${texCoordsAttributeNum})) {
     VertexOut vOut;
     vOut.position = position;
     vOut.texCoords = texCoords;
     return vOut;
 }

 struct TextureSampler
 {
     Texture2D<float4> t : register(t${textureBindingNum}, space${bindGroupIndex});
     sampler s : register(s${samplerBindingNum}, space${bindGroupIndex});
 };

 fragment float4 fragment_main(float2 texCoords : attribute(0), TextureSampler textureSampler) : SV_Target 0
 {
     return Sample(textureSampler.t, textureSampler.s, texCoords);
 }
 `

 function createVertexInputDescriptor() {
     var bufferDescriptors = [];
     bufferDescriptors[positionBufferIndex] = {
         stride: 4 * 4,
         attributeSet: [{
             format: "float4",
             shaderLocation: positionAttributeNum
         }]
     };
     bufferDescriptors[texCoordsBufferIndex] = {
         stride: 4 * 2,
         attributeSet: [{
             format: "float2",
             shaderLocation: texCoordsAttributeNum
         }]
     };

     return { vertexBuffers: bufferDescriptors };
 }

 const canvas = document.querySelector("canvas");

 async function test(device) {
     const swapChain = createBasicSwapChain(canvas, device);
     // FIXME: Replace with non-MSL shaders.
     const shaderModule = device.createShaderModule({ code: shaderCode });

     const positionArray = new Float32Array([
         // float4 xyzw
         -1, 1, 0, 1,
         -1, -1, 0, 1,
         1, 1, 0, 1,
         1, -1, 0, 1
     ]);
     const positionBuffer = createBufferWithData(device, { size: positionArray.byteLength, usage: GPUBufferUsage.VERTEX }, positionArray.buffer);

     const texCoordsArray = new Float32Array([
         // float2 texCoords
         0, 0,
         0, 1,
         1, 0,
         1, 1
     ]);
     const textureCoordBuffer = createBufferWithData(device, { size: texCoordsArray.byteLength, usage: GPUBufferUsage.VERTEX }, texCoordsArray.buffer);

     const vertexInputDescriptor = createVertexInputDescriptor();

     // Load texture image
     const image = new Image();
     const imageLoadPromise = new Promise(resolve => {
         image.onload = () => resolve();
         image.src = "resources/blue-checkered.png";
     });
     await Promise.resolve(imageLoadPromise);

     // Convert image to data and fill GPUBuffer
     const canvas2d = document.createElement("canvas");
     canvas2d.width = image.width;
     canvas2d.height = image.height;
     const context2d = canvas2d.getContext("2d");
     context2d.drawImage(image, 0, 0);
     const imageData = context2d.getImageData(0, 0, image.width, image.height);

     const textureBufferDescriptor = {
         size: imageData.data.length,
         usage: GPUBufferUsage.COPY_SRC
     };
     const textureBuffer = createBufferWithData(device, textureBufferDescriptor, imageData.data.buffer);

     // Create GPUTexture
     const textureSize = {
         width: image.width,
         height: image.height,
         depth: 1
     };

     const textureDescriptor = {
         size: { width: image.width, height: image.height, depth: 1 },
         format: "rgba8unorm",
         usage: GPUTextureUsage.COPY_DST | GPUTextureUsage.SAMPLED
     };
     const texture = device.createTexture(textureDescriptor);

     // Bind texture and a sampler to pipeline
     const textureLayoutBinding = {
         binding: textureBindingNum,
         visibility: GPUShaderStage.FRAGMENT,
         type: "sampled-texture"
     };
     const samplerLayoutBinding = {
         binding: samplerBindingNum,
         visibility: GPUShaderStage.FRAGMENT,
         type: "sampler"
     };

     const bindGroupLayoutDescriptor = {
         bindings: [textureLayoutBinding, samplerLayoutBinding]
     };
     bindGroupLayout = device.createBindGroupLayout(bindGroupLayoutDescriptor);
     const pipelineLayout = device.createPipelineLayout({ bindGroupLayouts: [bindGroupLayout] });

     const textureBinding = {
         binding: textureBindingNum,
         resource: texture.createDefaultView()
     };
     const samplerBinding = {
         binding: samplerBindingNum,
         resource: device.createSampler({ minFilter: "nearest", magFilter: "nearest" })
     };

     const bindGroupDescriptor = {
         layout: bindGroupLayout,
         bindings: [textureBinding, samplerBinding]
     };
     const bindGroup = device.createBindGroup(bindGroupDescriptor);

     // Pipeline and render
     const pipeline = createBasicPipeline(shaderModule, device, null, pipelineLayout, vertexInputDescriptor);
     const commandEncoder = device.createCommandEncoder();

     const bufferCopyView = {
         buffer: textureBuffer,
         rowPitch: image.width * 4,
         imageHeight: 0
     };
     const textureCopyView = { texture: texture };
     commandEncoder.copyBufferToTexture(bufferCopyView, textureCopyView, textureSize);
     const passEncoder = beginBasicRenderPass(swapChain, commandEncoder);
     passEncoder.setPipeline(pipeline);
     passEncoder.setBindGroup(bindGroupIndex, bindGroup);
     passEncoder.setVertexBuffers(positionBufferIndex, [positionBuffer, textureCoordBuffer], [0, 0]);
     passEncoder.draw(4, 1, 0, 0);
     passEncoder.endPass();

     const queue = device.getQueue();
     queue.submit([commandEncoder.finish()]);
     positionBuffer.destroy();
     textureCoordBuffer.destroy();
     texture.destroy();
 }

 getBasicDevice().then(function(device) {
     test(device).then(function() {
         if (window.testRunner)
             testRunner.notifyDone();
     }, function() {
         if (window.testRunner)
             testRunner.notifyDone();
     });
 }, function() {
     drawGreenAndBlueCheckerboardInSoftware(canvas);
     if (window.testRunner)
         testRunner.notifyDone();
 });
 </script>
	<!DOCTYPE html>
	<meta charset="utf-8">
	<title>WebGPU Hello Triangles</title>
	<meta name="assert" content="WebGPU correctly renders a green canvas.">
	<link rel="match" href="vertex-buffer-triangle-strip-expected.html">
	<p>Pass if square canvas below is a 4 by 4 blue/green checkerboard.</p>
	<canvas width="400" height="400"></canvas>
	<script src="js/webgpu-functions.js"></script>
	<script>
	if (window.testRunner)
	testRunner.waitUntilDone();

	const positionBufferIndex = 0;
	const texCoordsBufferIndex = 1;
	const positionAttributeNum = 0;
	const texCoordsAttributeNum = 1;
	const bindGroupIndex = 0;
	const textureBindingNum = 0;
	const samplerBindingNum = 1;

	const shaderCode = `
	struct VertexOut
	{
	float4 position : SV_Position;
	float2 texCoords : attribute(0);
	};

	vertex VertexOut vertex_main(float4 position : attribute(${positionAttributeNum}), float2 texCoords : attribute(${texCoordsAttributeNum})) {
	VertexOut vOut;
	vOut.position = position;
	vOut.texCoords = texCoords;
	return vOut;
	}

	struct TextureSampler
	{
	Texture2D<float4> t : register(t${textureBindingNum}, space${bindGroupIndex});
	sampler s : register(s${samplerBindingNum}, space${bindGroupIndex});
	};

	fragment float4 fragment_main(float2 texCoords : attribute(0), TextureSampler textureSampler) : SV_Target 0
	{
	return Sample(textureSampler.t, textureSampler.s, texCoords);
	}
	`

	function createVertexInputDescriptor() {
	var bufferDescriptors = [];
	bufferDescriptors[positionBufferIndex] = {
	stride: 4 * 4,
	attributeSet: [{
	format: "float4",
	shaderLocation: positionAttributeNum
	}]
	};
	bufferDescriptors[texCoordsBufferIndex] = {
	stride: 4 * 2,
	attributeSet: [{
	format: "float2",
	shaderLocation: texCoordsAttributeNum
	}]
	};

	return { vertexBuffers: bufferDescriptors };
	}

	const canvas = document.querySelector("canvas");

	async function test(device) {
	const swapChain = createBasicSwapChain(canvas, device);
	// FIXME: Replace with non-MSL shaders.
	const shaderModule = device.createShaderModule({ code: shaderCode });

	const positionArray = new Float32Array([
	// float4 xyzw
	-1, 1, 0, 1,
	-1, -1, 0, 1,
	1, 1, 0, 1,
	1, -1, 0, 1
	]);
	const positionBuffer = createBufferWithData(device, { size: positionArray.byteLength, usage: GPUBufferUsage.VERTEX }, positionArray.buffer);

	const texCoordsArray = new Float32Array([
	// float2 texCoords
	0, 0,
	0, 1,
	1, 0,
	1, 1
	]);
	const textureCoordBuffer = createBufferWithData(device, { size: texCoordsArray.byteLength, usage: GPUBufferUsage.VERTEX }, texCoordsArray.buffer);

	const vertexInputDescriptor = createVertexInputDescriptor();

	// Load texture image
	const image = new Image();
	const imageLoadPromise = new Promise(resolve => {
	image.onload = () => resolve();
	image.src = "resources/blue-checkered.png";
	});
	await Promise.resolve(imageLoadPromise);

	// Convert image to data and fill GPUBuffer
	const canvas2d = document.createElement("canvas");
	canvas2d.width = image.width;
	canvas2d.height = image.height;
	const context2d = canvas2d.getContext("2d");
	context2d.drawImage(image, 0, 0);
	const imageData = context2d.getImageData(0, 0, image.width, image.height);

	const textureBufferDescriptor = {
	size: imageData.data.length,
	usage: GPUBufferUsage.COPY_SRC
	};
	const textureBuffer = createBufferWithData(device, textureBufferDescriptor, imageData.data.buffer);

	// Create GPUTexture
	const textureSize = {
	width: image.width,
	height: image.height,
	depth: 1
	};

	const textureDescriptor = {
	size: { width: image.width, height: image.height, depth: 1 },
	format: "rgba8unorm",
	usage: GPUTextureUsage.COPY_DST \| GPUTextureUsage.SAMPLED
	};
	const texture = device.createTexture(textureDescriptor);

	// Bind texture and a sampler to pipeline
	const textureLayoutBinding = {
	binding: textureBindingNum,
	visibility: GPUShaderStage.FRAGMENT,
	type: "sampled-texture"
	};
	const samplerLayoutBinding = {
	binding: samplerBindingNum,
	visibility: GPUShaderStage.FRAGMENT,
	type: "sampler"
	};

	const bindGroupLayoutDescriptor = {
	bindings: [textureLayoutBinding, samplerLayoutBinding]
	};
	bindGroupLayout = device.createBindGroupLayout(bindGroupLayoutDescriptor);
	const pipelineLayout = device.createPipelineLayout({ bindGroupLayouts: [bindGroupLayout] });

	const textureBinding = {
	binding: textureBindingNum,
	resource: texture.createDefaultView()
	};
	const samplerBinding = {
	binding: samplerBindingNum,
	resource: device.createSampler({ minFilter: "nearest", magFilter: "nearest" })
	};

	const bindGroupDescriptor = {
	layout: bindGroupLayout,
	bindings: [textureBinding, samplerBinding]
	};
	const bindGroup = device.createBindGroup(bindGroupDescriptor);

	// Pipeline and render
	const pipeline = createBasicPipeline(shaderModule, device, null, pipelineLayout, vertexInputDescriptor);
	const commandEncoder = device.createCommandEncoder();

	const bufferCopyView = {
	buffer: textureBuffer,
	rowPitch: image.width * 4,
	imageHeight: 0
	};
	const textureCopyView = { texture: texture };
	commandEncoder.copyBufferToTexture(bufferCopyView, textureCopyView, textureSize);
	const passEncoder = beginBasicRenderPass(swapChain, commandEncoder);
	passEncoder.setPipeline(pipeline);
	passEncoder.setBindGroup(bindGroupIndex, bindGroup);
	passEncoder.setVertexBuffers(positionBufferIndex, [positionBuffer, textureCoordBuffer], [0, 0]);
	passEncoder.draw(4, 1, 0, 0);
	passEncoder.endPass();

	const queue = device.getQueue();
	queue.submit([commandEncoder.finish()]);
	positionBuffer.destroy();
	textureCoordBuffer.destroy();
	texture.destroy();
	}

	getBasicDevice().then(function(device) {
	test(device).then(function() {
	if (window.testRunner)
	testRunner.notifyDone();
	}, function() {
	if (window.testRunner)
	testRunner.notifyDone();
	});
	}, function() {
	drawGreenAndBlueCheckerboardInSoftware(canvas);
	if (window.testRunner)
	testRunner.notifyDone();
	});
	</script>