LayoutTests/webgpu/depth-enabled-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 completely green.</p>
 <canvas width="400" height="400"></canvas>
 <script src="js/webgpu-functions.js"></script>
 <script>
 if (window.testRunner)
     testRunner.waitUntilDone();

 const shaderCode = `
 #include <metal_stdlib>

 using namespace metal;

 struct VertexIn
 {
     float4 position [[attribute(0)]];
 };

 struct VertexOut
 {
     float4 position [[position]];
     float4 color;
 };

 vertex VertexOut vertex_main(VertexIn vertexIn [[stage_in]], uint iid [[instance_id]])
 {
     VertexOut vOut;
     vOut.position = vertexIn.position;

     if (iid == 0) {
         vOut.position.z = 0.5;
         vOut.color = float4(1, 0, 0, 1);
     } else {
         vOut.color = float4(0, 1, 0, 1);
     }

     return vOut;
 }

 fragment float4 fragment_main(VertexOut v [[stage_in]])
 {
     return v.color;
 }
 `

 function createVertexBuffer(device) {
     const bufferSize = 4 * 4 * 4;
     const buffer = device.createBuffer({ size: bufferSize, usage: GPUBufferUsage.VERTEX | GPUBufferUsage.TRANSFER_DST });
     const arrayBuffer = new Float32Array([
         // float4 xyzw
         -1, 1, 0, 1,
         -1, -1, 0, 1,
         1, 1, 0, 1,
         1, -1, 0, 1
     ]).buffer;

     buffer.setSubData(0, arrayBuffer);
     return buffer;
 }

 function createInputStateDescriptor() {
     return {
         indexFormat: "uint32",
         attributes: [{
             shaderLocation: 0,
             inputSlot: 0,
             format: "float4"
         }],
         inputs: [{
             inputSlot: 0,
             stride: 4 * 4
         }]
     }
 }

 async function test() {
     const device = await getBasicDevice();
     const canvas = document.querySelector("canvas");
     const swapChain = createBasicSwapChain(canvas, device);
     // FIXME: Replace with non-MSL shaders.
     const shaderModule = device.createShaderModule({ code: shaderCode });
     const vertexBuffer = createVertexBuffer(device);
     const inputStateDescriptor = createInputStateDescriptor();
     const depthStateDescriptor = createBasicDepthStateDescriptor();
     const pipeline = createBasicPipeline(shaderModule, device, null, null, inputStateDescriptor, depthStateDescriptor);
     const commandEncoder = device.createCommandEncoder();

     const basicAttachment = {
         attachment: swapChain.getCurrentTexture().createDefaultView(),
         loadOp: "clear",
         storeOp: "store",
         clearColor: { r: 1.0, g: 0, b: 0, a: 1.0 }
     };

     const depthAttachment = {
         attachment: createBasicDepthTexture(canvas, device).createDefaultView(),
         depthLoadOp: "clear",
         depthStoreOp: "store",
         clearDepth: 1.0
     };

     const encoder = commandEncoder.beginRenderPass({
         colorAttachments: [basicAttachment],
         depthStencilAttachment: depthAttachment
     });

     encoder.setVertexBuffers(0, [vertexBuffer], [0]);
     encoder.setPipeline(pipeline);
     encoder.draw(4, 2, 0, 0);
     encoder.endPass();

     device.getQueue().submit([commandEncoder.finish()]);

     if (window.testRunner)
         testRunner.notifyDone();
 }

 test();
 </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 completely green.</p>
	<canvas width="400" height="400"></canvas>
	<script src="js/webgpu-functions.js"></script>
	<script>
	if (window.testRunner)
	testRunner.waitUntilDone();

	const shaderCode = `
	#include <metal_stdlib>

	using namespace metal;

	struct VertexIn
	{
	float4 position [[attribute(0)]];
	};

	struct VertexOut
	{
	float4 position [[position]];
	float4 color;
	};

	vertex VertexOut vertex_main(VertexIn vertexIn [[stage_in]], uint iid [[instance_id]])
	{
	VertexOut vOut;
	vOut.position = vertexIn.position;

	if (iid == 0) {
	vOut.position.z = 0.5;
	vOut.color = float4(1, 0, 0, 1);
	} else {
	vOut.color = float4(0, 1, 0, 1);
	}

	return vOut;
	}

	fragment float4 fragment_main(VertexOut v [[stage_in]])
	{
	return v.color;
	}
	`

	function createVertexBuffer(device) {
	const bufferSize = 4 * 4 * 4;
	const buffer = device.createBuffer({ size: bufferSize, usage: GPUBufferUsage.VERTEX \| GPUBufferUsage.TRANSFER_DST });
	const arrayBuffer = new Float32Array([
	// float4 xyzw
	-1, 1, 0, 1,
	-1, -1, 0, 1,
	1, 1, 0, 1,
	1, -1, 0, 1
	]).buffer;

	buffer.setSubData(0, arrayBuffer);
	return buffer;
	}

	function createInputStateDescriptor() {
	return {
	indexFormat: "uint32",
	attributes: [{
	shaderLocation: 0,
	inputSlot: 0,
	format: "float4"
	}],
	inputs: [{
	inputSlot: 0,
	stride: 4 * 4
	}]
	}
	}

	async function test() {
	const device = await getBasicDevice();
	const canvas = document.querySelector("canvas");
	const swapChain = createBasicSwapChain(canvas, device);
	// FIXME: Replace with non-MSL shaders.
	const shaderModule = device.createShaderModule({ code: shaderCode });
	const vertexBuffer = createVertexBuffer(device);
	const inputStateDescriptor = createInputStateDescriptor();
	const depthStateDescriptor = createBasicDepthStateDescriptor();
	const pipeline = createBasicPipeline(shaderModule, device, null, null, inputStateDescriptor, depthStateDescriptor);
	const commandEncoder = device.createCommandEncoder();

	const basicAttachment = {
	attachment: swapChain.getCurrentTexture().createDefaultView(),
	loadOp: "clear",
	storeOp: "store",
	clearColor: { r: 1.0, g: 0, b: 0, a: 1.0 }
	};

	const depthAttachment = {
	attachment: createBasicDepthTexture(canvas, device).createDefaultView(),
	depthLoadOp: "clear",
	depthStoreOp: "store",
	clearDepth: 1.0
	};

	const encoder = commandEncoder.beginRenderPass({
	colorAttachments: [basicAttachment],
	depthStencilAttachment: depthAttachment
	});

	encoder.setVertexBuffers(0, [vertexBuffer], [0]);
	encoder.setPipeline(pipeline);
	encoder.draw(4, 2, 0, 0);
	encoder.endPass();

	device.getQueue().submit([commandEncoder.finish()]);

	if (window.testRunner)
	testRunner.notifyDone();
	}

	test();
	</script>