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RtxdiResources.cpp
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RtxdiResources.cpp
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/***************************************************************************
# Copyright (c) 2020-2023, NVIDIA CORPORATION. All rights reserved.
#
# NVIDIA CORPORATION and its licensors retain all intellectual property
# and proprietary rights in and to this software, related documentation
# and any modifications thereto. Any use, reproduction, disclosure or
# distribution of this software and related documentation without an express
# license agreement from NVIDIA CORPORATION is strictly prohibited.
**************************************************************************/
#include "RtxdiResources.h"
#include <rtxdi/ReSTIRDI.h>
#include <rtxdi/ReSTIRGI.h>
#include <rtxdi/RISBufferSegmentAllocator.h>
#include <donut/core/math/math.h>
using namespace dm;
#include "../shaders/ShaderParameters.h"
RtxdiResources::RtxdiResources(
nvrhi::IDevice* device,
const rtxdi::ReSTIRDIContext& context,
const rtxdi::RISBufferSegmentAllocator& risBufferSegmentAllocator,
uint32_t maxEmissiveMeshes,
uint32_t maxEmissiveTriangles,
uint32_t maxPrimitiveLights,
uint32_t maxGeometryInstances,
uint32_t environmentMapWidth,
uint32_t environmentMapHeight)
: m_MaxEmissiveMeshes(maxEmissiveMeshes)
, m_MaxEmissiveTriangles(maxEmissiveTriangles)
, m_MaxPrimitiveLights(maxPrimitiveLights)
, m_MaxGeometryInstances(maxGeometryInstances)
{
nvrhi::BufferDesc taskBufferDesc;
taskBufferDesc.byteSize = sizeof(PrepareLightsTask) * (maxEmissiveMeshes + maxPrimitiveLights);
taskBufferDesc.structStride = sizeof(PrepareLightsTask);
taskBufferDesc.initialState = nvrhi::ResourceStates::ShaderResource;
taskBufferDesc.keepInitialState = true;
taskBufferDesc.debugName = "TaskBuffer";
taskBufferDesc.canHaveUAVs = true;
TaskBuffer = device->createBuffer(taskBufferDesc);
nvrhi::BufferDesc primitiveLightBufferDesc;
primitiveLightBufferDesc.byteSize = sizeof(PolymorphicLightInfo) * maxPrimitiveLights;
primitiveLightBufferDesc.structStride = sizeof(PolymorphicLightInfo);
primitiveLightBufferDesc.initialState = nvrhi::ResourceStates::ShaderResource;
primitiveLightBufferDesc.keepInitialState = true;
primitiveLightBufferDesc.debugName = "PrimitiveLightBuffer";
PrimitiveLightBuffer = device->createBuffer(primitiveLightBufferDesc);
nvrhi::BufferDesc risBufferDesc;
risBufferDesc.byteSize = sizeof(uint32_t) * 2 * std::max(risBufferSegmentAllocator.getTotalSizeInElements(), 1u); // RG32_UINT per element
risBufferDesc.format = nvrhi::Format::RG32_UINT;
risBufferDesc.canHaveTypedViews = true;
risBufferDesc.initialState = nvrhi::ResourceStates::ShaderResource;
risBufferDesc.keepInitialState = true;
risBufferDesc.debugName = "RisBuffer";
risBufferDesc.canHaveUAVs = true;
RisBuffer = device->createBuffer(risBufferDesc);
risBufferDesc.byteSize = sizeof(uint32_t) * 8 * std::max(risBufferSegmentAllocator.getTotalSizeInElements(), 1u); // RGBA32_UINT x 2 per element
risBufferDesc.format = nvrhi::Format::RGBA32_UINT;
risBufferDesc.debugName = "RisLightDataBuffer";
RisLightDataBuffer = device->createBuffer(risBufferDesc);
uint32_t maxLocalLights = maxEmissiveTriangles + maxPrimitiveLights;
uint32_t lightBufferElements = maxLocalLights * 2;
nvrhi::BufferDesc lightBufferDesc;
lightBufferDesc.byteSize = sizeof(PolymorphicLightInfo) * lightBufferElements;
lightBufferDesc.structStride = sizeof(PolymorphicLightInfo);
lightBufferDesc.initialState = nvrhi::ResourceStates::ShaderResource;
lightBufferDesc.keepInitialState = true;
lightBufferDesc.debugName = "LightDataBuffer";
lightBufferDesc.canHaveUAVs = true;
LightDataBuffer = device->createBuffer(lightBufferDesc);
nvrhi::BufferDesc geometryInstanceToLightBufferDesc;
geometryInstanceToLightBufferDesc.byteSize = sizeof(uint32_t) * maxGeometryInstances;
geometryInstanceToLightBufferDesc.structStride = sizeof(uint32_t);
geometryInstanceToLightBufferDesc.initialState = nvrhi::ResourceStates::ShaderResource;
geometryInstanceToLightBufferDesc.keepInitialState = true;
geometryInstanceToLightBufferDesc.debugName = "GeometryInstanceToLightBuffer";
GeometryInstanceToLightBuffer = device->createBuffer(geometryInstanceToLightBufferDesc);
nvrhi::BufferDesc lightIndexMappingBufferDesc;
lightIndexMappingBufferDesc.byteSize = sizeof(uint32_t) * lightBufferElements;
lightIndexMappingBufferDesc.format = nvrhi::Format::R32_UINT;
lightIndexMappingBufferDesc.canHaveTypedViews = true;
lightIndexMappingBufferDesc.initialState = nvrhi::ResourceStates::ShaderResource;
lightIndexMappingBufferDesc.keepInitialState = true;
lightIndexMappingBufferDesc.debugName = "LightIndexMappingBuffer";
lightIndexMappingBufferDesc.canHaveUAVs = true;
LightIndexMappingBuffer = device->createBuffer(lightIndexMappingBufferDesc);
nvrhi::BufferDesc neighborOffsetBufferDesc;
neighborOffsetBufferDesc.byteSize = context.getStaticParameters().NeighborOffsetCount * 2;
neighborOffsetBufferDesc.format = nvrhi::Format::RG8_SNORM;
neighborOffsetBufferDesc.canHaveTypedViews = true;
neighborOffsetBufferDesc.debugName = "NeighborOffsets";
neighborOffsetBufferDesc.initialState = nvrhi::ResourceStates::ShaderResource;
neighborOffsetBufferDesc.keepInitialState = true;
NeighborOffsetsBuffer = device->createBuffer(neighborOffsetBufferDesc);
nvrhi::BufferDesc lightReservoirBufferDesc;
lightReservoirBufferDesc.byteSize = sizeof(RTXDI_PackedDIReservoir) * context.getReservoirBufferParameters().reservoirArrayPitch * rtxdi::c_NumReSTIRDIReservoirBuffers;
lightReservoirBufferDesc.structStride = sizeof(RTXDI_PackedDIReservoir);
lightReservoirBufferDesc.initialState = nvrhi::ResourceStates::UnorderedAccess;
lightReservoirBufferDesc.keepInitialState = true;
lightReservoirBufferDesc.debugName = "LightReservoirBuffer";
lightReservoirBufferDesc.canHaveUAVs = true;
LightReservoirBuffer = device->createBuffer(lightReservoirBufferDesc);
nvrhi::BufferDesc secondaryGBufferDesc;
secondaryGBufferDesc.byteSize = sizeof(SecondaryGBufferData) * context.getReservoirBufferParameters().reservoirArrayPitch;
secondaryGBufferDesc.structStride = sizeof(SecondaryGBufferData);
secondaryGBufferDesc.initialState = nvrhi::ResourceStates::UnorderedAccess;
secondaryGBufferDesc.keepInitialState = true;
secondaryGBufferDesc.debugName = "SecondaryGBuffer";
secondaryGBufferDesc.canHaveUAVs = true;
SecondaryGBuffer = device->createBuffer(secondaryGBufferDesc);
nvrhi::TextureDesc environmentPdfDesc;
environmentPdfDesc.width = environmentMapWidth;
environmentPdfDesc.height = environmentMapHeight;
environmentPdfDesc.mipLevels = uint32_t(ceilf(::log2f(float(std::max(environmentPdfDesc.width, environmentPdfDesc.height)))) + 1); // full mip chain up to 1x1
environmentPdfDesc.isUAV = true;
environmentPdfDesc.debugName = "EnvironmentPdf";
environmentPdfDesc.initialState = nvrhi::ResourceStates::ShaderResource;
environmentPdfDesc.keepInitialState = true;
environmentPdfDesc.format = nvrhi::Format::R16_FLOAT;
EnvironmentPdfTexture = device->createTexture(environmentPdfDesc);
nvrhi::TextureDesc localLightPdfDesc;
rtxdi::ComputePdfTextureSize(maxLocalLights, localLightPdfDesc.width, localLightPdfDesc.height, localLightPdfDesc.mipLevels);
assert(localLightPdfDesc.width * localLightPdfDesc.height >= maxLocalLights);
localLightPdfDesc.isUAV = true;
localLightPdfDesc.debugName = "LocalLightPdf";
localLightPdfDesc.initialState = nvrhi::ResourceStates::ShaderResource;
localLightPdfDesc.keepInitialState = true;
localLightPdfDesc.format = nvrhi::Format::R32_FLOAT; // Use FP32 here to allow a wide range of flux values, esp. when downsampled.
LocalLightPdfTexture = device->createTexture(localLightPdfDesc);
nvrhi::BufferDesc giReservoirBufferDesc;
giReservoirBufferDesc.byteSize = sizeof(RTXDI_PackedGIReservoir) * context.getReservoirBufferParameters().reservoirArrayPitch * rtxdi::c_NumReSTIRGIReservoirBuffers;
giReservoirBufferDesc.structStride = sizeof(RTXDI_PackedGIReservoir);
giReservoirBufferDesc.initialState = nvrhi::ResourceStates::UnorderedAccess;
giReservoirBufferDesc.keepInitialState = true;
giReservoirBufferDesc.debugName = "GIReservoirBuffer";
giReservoirBufferDesc.canHaveUAVs = true;
GIReservoirBuffer = device->createBuffer(giReservoirBufferDesc);
}
void RtxdiResources::InitializeNeighborOffsets(nvrhi::ICommandList* commandList, uint32_t neighborOffsetCount)
{
if (m_NeighborOffsetsInitialized)
return;
std::vector<uint8_t> offsets;
offsets.resize(neighborOffsetCount * 2);
rtxdi::FillNeighborOffsetBuffer(offsets.data(), neighborOffsetCount);
commandList->writeBuffer(NeighborOffsetsBuffer, offsets.data(), offsets.size());
m_NeighborOffsetsInitialized = true;
}