LayoutTests/inspector/canvas/resources/shaderProgram-utilities-webgpu.js - WebKit - Git at Google

 if (window.internals)
     window.internals.settings.setWebGPUEnabled(true);

 if (window.testRunner) {
     testRunner.dumpAsText();
     testRunner.waitUntilDone();
 }

 const computePipelineSource = `
 [numthreads(2, 1, 1)]
 compute void computeShader(device float[] buffer : register(u0), float3 threadID : SV_DispatchThreadID) {
     buffer[uint(threadID.x)] = buffer[uint(threadID.x)] * 2.0;
 }
 `;

 const renderPipelineSource = `
 vertex float4 vertexShader(float4 position : attribute(0), float i : attribute(1)) : SV_Position {
     return position;
 }

 fragment float4 fragmentShader(float4 position : SV_Position) : SV_Target 0 {
     return position;
 }
 `;

 let device = null;

 async function createComputePipeline(code = computePipelineSource) {
     // Copied from webgpu/whlsl/compute.html.
     const shaderModule = device.createShaderModule({code});
     const computeStage = {module: shaderModule, entryPoint: "computeShader"};
     const bindGroupLayoutDescriptor = {bindings: [{binding: 0, visibility: 7, type: "storage-buffer"}]};
     const bindGroupLayout = device.createBindGroupLayout(bindGroupLayoutDescriptor);
     const pipelineLayoutDescriptor = {bindGroupLayouts: [bindGroupLayout]};
     const pipelineLayout = device.createPipelineLayout(pipelineLayoutDescriptor);
     device.createComputePipeline({computeStage, layout: pipelineLayout});
 }

 async function createRenderPipeline(code = renderPipelineSource) {
     // Copied from webgpu/whlsl/whlsl.html.
     const shaderModule = device.createShaderModule({code});
     const vertexStage = {module: shaderModule, entryPoint: "vertexShader"};
     const fragmentShaderModule = device.createShaderModule({code});
     const fragmentStage = {module: shaderModule, entryPoint: "fragmentShader"};
     const primitiveTopology = "triangle-strip";
     const rasterizationState = {frontFace: "cw", cullMode: "none"};
     const alphaBlend = {};
     const colorBlend = {};
     const colorStates = [{format: "rgba8unorm", alphaBlend, colorBlend, writeMask: 15}]; // GPUColorWrite.ALL
     const depthStencilState = null;
     const attribute0 = {shaderLocation: 0, format: "float4"};
     const attribute1 = {shaderLocation: 1, format: "float"};
     const input0 = {stride: 16, attributeSet: [attribute0]};
     const input1 = {stride: 4, attributeSet: [attribute1]};
     const inputs = [input0, input1];
     const vertexInput = {vertexBuffers: inputs};
     const bindGroupLayoutDescriptor = {bindings: [{binding: 0, visibility: 7, type: "uniform-buffer"}]};
     const bindGroupLayout = device.createBindGroupLayout(bindGroupLayoutDescriptor);
     const pipelineLayoutDescriptor = {bindGroupLayouts: [bindGroupLayout]};
     const pipelineLayout = device.createPipelineLayout(pipelineLayoutDescriptor);
     device.createRenderPipeline({vertexStage, fragmentStage, primitiveTopology, rasterizationState, colorStates, depthStencilState, vertexInput, sampleCount: 1, layout: pipelineLayout});
 }

 function deleteDevice() {
     device = null;
     // Force GC to make sure the device is destroyed, otherwise the frontend
     // does not receive Canvas.canvasRemoved events.
     setTimeout(() => { GCController.collect(); }, 0);
 }

 async function load() {
     let adapter = await navigator.gpu.requestAdapter();
     device = await adapter.requestDevice();

     await Promise.all([
         createComputePipeline(),
         createRenderPipeline(),
     ]);

     if (window.beforeTest)
         await beforeTest();

     runTest();
 }

 TestPage.registerInitializer(() => {
     if (!InspectorTest.ShaderProgram)
         InspectorTest.ShaderProgram = {};

     InspectorTest.ShaderProgram.programForType = function(programType) {
         let result = null;
         for (let shaderProgram of WI.canvasManager.shaderPrograms) {
             if (shaderProgram.programType === programType) {
                 InspectorTest.assert(!result);
                 result = shaderProgram;
             }
         }
         return result;
     };
 });
	if (window.internals)
	window.internals.settings.setWebGPUEnabled(true);

	if (window.testRunner) {
	testRunner.dumpAsText();
	testRunner.waitUntilDone();
	}

	const computePipelineSource = `
	[numthreads(2, 1, 1)]
	compute void computeShader(device float[] buffer : register(u0), float3 threadID : SV_DispatchThreadID) {
	buffer[uint(threadID.x)] = buffer[uint(threadID.x)] * 2.0;
	}
	`;

	const renderPipelineSource = `
	vertex float4 vertexShader(float4 position : attribute(0), float i : attribute(1)) : SV_Position {
	return position;
	}

	fragment float4 fragmentShader(float4 position : SV_Position) : SV_Target 0 {
	return position;
	}
	`;

	let device = null;

	async function createComputePipeline(code = computePipelineSource) {
	// Copied from webgpu/whlsl/compute.html.
	const shaderModule = device.createShaderModule({code});
	const computeStage = {module: shaderModule, entryPoint: "computeShader"};
	const bindGroupLayoutDescriptor = {bindings: [{binding: 0, visibility: 7, type: "storage-buffer"}]};
	const bindGroupLayout = device.createBindGroupLayout(bindGroupLayoutDescriptor);
	const pipelineLayoutDescriptor = {bindGroupLayouts: [bindGroupLayout]};
	const pipelineLayout = device.createPipelineLayout(pipelineLayoutDescriptor);
	device.createComputePipeline({computeStage, layout: pipelineLayout});
	}

	async function createRenderPipeline(code = renderPipelineSource) {
	// Copied from webgpu/whlsl/whlsl.html.
	const shaderModule = device.createShaderModule({code});
	const vertexStage = {module: shaderModule, entryPoint: "vertexShader"};
	const fragmentShaderModule = device.createShaderModule({code});
	const fragmentStage = {module: shaderModule, entryPoint: "fragmentShader"};
	const primitiveTopology = "triangle-strip";
	const rasterizationState = {frontFace: "cw", cullMode: "none"};
	const alphaBlend = {};
	const colorBlend = {};
	const colorStates = [{format: "rgba8unorm", alphaBlend, colorBlend, writeMask: 15}]; // GPUColorWrite.ALL
	const depthStencilState = null;
	const attribute0 = {shaderLocation: 0, format: "float4"};
	const attribute1 = {shaderLocation: 1, format: "float"};
	const input0 = {stride: 16, attributeSet: [attribute0]};
	const input1 = {stride: 4, attributeSet: [attribute1]};
	const inputs = [input0, input1];
	const vertexInput = {vertexBuffers: inputs};
	const bindGroupLayoutDescriptor = {bindings: [{binding: 0, visibility: 7, type: "uniform-buffer"}]};
	const bindGroupLayout = device.createBindGroupLayout(bindGroupLayoutDescriptor);
	const pipelineLayoutDescriptor = {bindGroupLayouts: [bindGroupLayout]};
	const pipelineLayout = device.createPipelineLayout(pipelineLayoutDescriptor);
	device.createRenderPipeline({vertexStage, fragmentStage, primitiveTopology, rasterizationState, colorStates, depthStencilState, vertexInput, sampleCount: 1, layout: pipelineLayout});
	}

	function deleteDevice() {
	device = null;
	// Force GC to make sure the device is destroyed, otherwise the frontend
	// does not receive Canvas.canvasRemoved events.
	setTimeout(() => { GCController.collect(); }, 0);
	}

	async function load() {
	let adapter = await navigator.gpu.requestAdapter();
	device = await adapter.requestDevice();

	await Promise.all([
	createComputePipeline(),
	createRenderPipeline(),
	]);

	if (window.beforeTest)
	await beforeTest();

	runTest();
	}

	TestPage.registerInitializer(() => {
	if (!InspectorTest.ShaderProgram)
	InspectorTest.ShaderProgram = {};

	InspectorTest.ShaderProgram.programForType = function(programType) {
	let result = null;
	for (let shaderProgram of WI.canvasManager.shaderPrograms) {
	if (shaderProgram.programType === programType) {
	InspectorTest.assert(!result);
	result = shaderProgram;
	}
	}
	return result;
	};
	});