blob: 914fe0fc84e9d426778c28116bee2af3a4ab6f04 [file] [log] [blame]
<!DOCTYPE html>
<html>
<head>
<script src="js/webgpu-functions.js"></script>
</head>
<body>
<canvas id="canvas" width="400" height="400"></canvas>
<script>
const shaderSource = `
vertex float4 vertexShader(float4 position : attribute(0)) : SV_Position {
return position;
}
fragment float4 fragmentShader(Texture2D<float4> theTexture : register(t0)) : SV_Target 0 {
return Load(theTexture, int2(0, 0));
}
`;
const canvas = document.getElementById("canvas");
async function start(device) {
const shaderModule = device.createShaderModule({code: shaderSource, isWHLSL: true});
const vertexStage = {module: shaderModule, entryPoint: "vertexShader"};
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}]; // GPUColorWriteBits.ALL
const depthStencilState = null;
const attribute0 = {shaderLocation: 0, format: "float4"};
const input0 = {stride: 16, attributeSet: [attribute0]};
const inputs = [input0];
const vertexInput = {vertexBuffers: inputs};
const bindGroupLayoutDescriptor = {bindings: [{binding: 0, visibility: 7, type: "sampled-texture"}]};
const bindGroupLayout = device.createBindGroupLayout(bindGroupLayoutDescriptor);
const pipelineLayoutDescriptor = {bindGroupLayouts: [bindGroupLayout]};
const pipelineLayout = device.createPipelineLayout(pipelineLayoutDescriptor);
const renderPipelineDescriptor = {vertexStage, fragmentStage, primitiveTopology, rasterizationState, colorStates, depthStencilState, vertexInput, sampleCount: 1, layout: pipelineLayout};
const renderPipeline = device.createRenderPipeline(renderPipelineDescriptor);
const vertexBuffer0Descriptor = {size: Float32Array.BYTES_PER_ELEMENT * 4 * 4, usage: GPUBufferUsage.VERTEX | GPUBufferUsage.MAP_WRITE};
const vertexBuffer0 = device.createBuffer(vertexBuffer0Descriptor);
const vertexBuffer0ArrayBuffer = await vertexBuffer0.mapWriteAsync();
const vertexBuffer0Float32Array = new Float32Array(vertexBuffer0ArrayBuffer);
vertexBuffer0Float32Array[0] = -0.5;
vertexBuffer0Float32Array[1] = -0.5;
vertexBuffer0Float32Array[2] = 1.0;
vertexBuffer0Float32Array[3] = 1;
vertexBuffer0Float32Array[4] = -0.5;
vertexBuffer0Float32Array[5] = 0.5;
vertexBuffer0Float32Array[6] = 1.0;
vertexBuffer0Float32Array[7] = 1;
vertexBuffer0Float32Array[8] = 0.5;
vertexBuffer0Float32Array[9] = -0.5;
vertexBuffer0Float32Array[10] = 1.0;
vertexBuffer0Float32Array[11] = 1;
vertexBuffer0Float32Array[12] = 0.5;
vertexBuffer0Float32Array[13] = 0.5;
vertexBuffer0Float32Array[14] = 1.0;
vertexBuffer0Float32Array[15] = 1;
vertexBuffer0.unmap();
const textureDataBufferDescriptor = {size: Uint8Array.BYTES_PER_ELEMENT * 4 * 2 * 2, usage: GPUBufferUsage.TRANSFER_SRC | GPUBufferUsage.MAP_WRITE};
const textureDataBuffer = device.createBuffer(textureDataBufferDescriptor);
const textureDataBufferArrayBuffer = await textureDataBuffer.mapWriteAsync();
const textureDataBufferUint8Array = new Uint8Array(textureDataBufferArrayBuffer);
textureDataBufferUint8Array[0] = 255;
textureDataBufferUint8Array[1] = 255;
textureDataBufferUint8Array[2] = 255;
textureDataBufferUint8Array[3] = 255;
textureDataBufferUint8Array[4] = 128;
textureDataBufferUint8Array[5] = 128;
textureDataBufferUint8Array[6] = 128;
textureDataBufferUint8Array[7] = 255;
textureDataBufferUint8Array[8] = 128;
textureDataBufferUint8Array[9] = 128;
textureDataBufferUint8Array[10] = 128;
textureDataBufferUint8Array[11] = 255;
textureDataBufferUint8Array[12] = 128;
textureDataBufferUint8Array[13] = 128;
textureDataBufferUint8Array[14] = 128;
textureDataBufferUint8Array[15] = 255;
textureDataBuffer.unmap();
const textureDescriptor = {size: {width: 2, height: 2, depth: 1}, format: "rgba8unorm", usage: GPUTextureUsage.SAMPLED | GPUTextureUsage.TRANSFER_DST};
const texture = device.createTexture(textureDescriptor);
const textureView = texture.createDefaultView();
const bindGroupBindings = [{binding: 0, resource: textureView}];
const bindGroupDescriptor = {layout: bindGroupLayout, bindings: bindGroupBindings};
const bindGroup = device.createBindGroup(bindGroupDescriptor);
const context = canvas.getContext("gpu");
const swapChainDescriptor = {device, format: "bgra8unorm"};
const swapChain = context.configureSwapChain(swapChainDescriptor);
const outputTexture = swapChain.getCurrentTexture();
const outputTextureView = outputTexture.createDefaultView();
const commandEncoder = device.createCommandEncoder(); // {}
const bufferCopyView = {buffer: textureDataBuffer, rowPitch: Uint8Array.BYTES_PER_ELEMENT * 4 * 2, imageHeight: Uint8Array.BYTES_PER_ELEMENT * 4 * 2 * 2};
const textureCopyView = {texture: texture};
const copySize = {width: 2, height: 2, depth: 1};
commandEncoder.copyBufferToTexture(bufferCopyView, textureCopyView, copySize);
const clearColor = {r: 0, g: 0, b: 1, a: 1};
const colorAttachments = [{attachment: outputTextureView, resolveTarget: null, loadOp: "clear", storeOp: "store", clearColor}];
const depthStencilAttachment = null;
const renderPassDescriptor = {colorAttachments, depthStencilAttachment};
const renderPassEncoder = commandEncoder.beginRenderPass(renderPassDescriptor);
renderPassEncoder.setPipeline(renderPipeline);
renderPassEncoder.setBindGroup(0, bindGroup);
renderPassEncoder.setVertexBuffers(0, [vertexBuffer0], [0]);
renderPassEncoder.draw(4, 1, 0, 0);
renderPassEncoder.endPass();
const commandBuffer = commandEncoder.finish();
device.getQueue().submit([commandBuffer]);
if (window.testRunner)
testRunner.notifyDone();
}
if (window.testRunner)
testRunner.waitUntilDone();
getBasicDevice().then(function(device) {
start(device).then(function() {
if (window.testRunner)
testRunner.notifyDone();
}, function() {
if (window.testRunner)
testRunner.notifyDone();
});
}, function() {
drawWhiteSquareOnBlueBackgroundInSoftware(canvas);
if (window.testRunner)
testRunner.notifyDone();
});
</script>
</body>
</html>