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test_multi_queue.rpsl
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test_multi_queue.rpsl
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// Copyright (c) 2023 Advanced Micro Devices, Inc. All rights reserved.
//
// This file is part of the AMD Render Pipeline Shaders SDK which is
// released under the AMD INTERNAL EVALUATION LICENSE.
//
// See file LICENSE.txt for full license details.
node UpdateInstanceData([writeonly(cpu)] buffer uploadBuffer, [writeonly(cpu)] buffer constBuffer);
compute node Procedural([readwrite(cs)] texture proceduralTexture, [readonly(cb, cs)] buffer constBuffer, uint2 outputDim);
compute node GenMip([writeonly(cs)] texture outMip, [readwrite(cs)] texture inMip, uint2 outputDim);
node ShadowMap([readonly(vs)] buffer instanceBuffer, [readonly(cb, vs)] buffer constBuffer, dsv shadowMap : SV_DepthStencil);
node ShadingPass(rtv colorBuffer : SV_Target0,
dsv depthBuffer : SV_DepthStencil,
[readonly(vs)] buffer instanceBuffer,
[readonly(ps)] texture shadowMap,
[readonly(ps)] texture proceduralTexture,
[readonly(cb, vs, ps)] buffer constBuffer);
node UploadInstanceData([writeonly(copy)] buffer instanceBuffer, [readonly(copy)] buffer uploadBuffer)
{
return copy_buffer(instanceBuffer, uploadBuffer);
}
struct InstanceData
{
float4x3 transform;
float4 color;
};
struct CBufferData
{
float4x4 viewProjMat;
float4x4 lightViewProjMat;
float3 lightDir;
float timeInSeconds;
};
export void main([readonly(present)] texture backBuffer, uint numBoxes, uint shadowMapDim, uint proceduralTextureDim)
{
clear(backBuffer, float4(0.0, 0.2, 0.4, 1.0));
ResourceDesc backBufferDesc = backBuffer.desc();
buffer uploadBuffer = create_buffer(
sizeof(InstanceData) * numBoxes, backBufferDesc.TemporalLayers, RPS_RESOURCE_FLAG_PREFER_GPU_LOCAL_CPU_VISIBLE);
buffer constantBuffer = create_buffer(
sizeof(CBufferData), backBufferDesc.TemporalLayers, RPS_RESOURCE_FLAG_PREFER_GPU_LOCAL_CPU_VISIBLE);
buffer instanceBuffer = create_buffer(sizeof(InstanceData) * numBoxes);
// setting buffer view size to UINT64_MAX for RPS_BUFFER_WHOLE_SIZE test.
buffer constantBufferView = constantBuffer.bytes(0, 0xffffffffffffffff);
buffer instanceBufferView = instanceBuffer.bytes(0, 0xffffffffffffffff);
texture proceduralTexture = create_tex2d(RPS_FORMAT_R8G8B8A8_UNORM, proceduralTextureDim, proceduralTextureDim, 0);
texture depthBuffer = create_tex2d(RPS_FORMAT_R32G8X24_TYPELESS, backBufferDesc.Width, backBufferDesc.Height);
texture shadowMap = create_tex2d(RPS_FORMAT_R32_TYPELESS, shadowMapDim, shadowMapDim);
UpdateInstanceData(uploadBuffer, constantBufferView);
async UploadInstanceData(instanceBufferView, uploadBuffer);
ResourceDesc proceduralTextureDesc = proceduralTexture.desc();
async Procedural(proceduralTexture, constantBufferView, uint2(proceduralTextureDim, proceduralTextureDim));
for (uint i = 0; (i + 1) < proceduralTextureDesc.MipLevels; i++)
{
async GenMip(proceduralTexture.mips(i + 1),
proceduralTexture.mips(i),
uint2(proceduralTextureDim, proceduralTextureDim) >> (i + 1));
}
clear_depth(shadowMap.format(RPS_FORMAT_D32_FLOAT), 1.0f);
ShadowMap(instanceBufferView.stride(sizeof(InstanceData)), constantBufferView, shadowMap.format(RPS_FORMAT_D32_FLOAT));
clear(depthBuffer.format(RPS_FORMAT_D32_FLOAT_S8X24_UINT), 1.0f, 0);
ShadingPass(backBuffer,
depthBuffer.format(RPS_FORMAT_D32_FLOAT_S8X24_UINT),
instanceBufferView.stride(sizeof(InstanceData)),
shadowMap.format(RPS_FORMAT_R32_FLOAT),
proceduralTexture,
constantBufferView);
}