forked from BilalY/Rasagar
121 lines
5.4 KiB
C#
121 lines
5.4 KiB
C#
using Unity.Mathematics;
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using UnityEngine.Assertions;
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namespace UnityEngine.Rendering.UnifiedRayTracing
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{
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internal class ComputeRayTracingShader : IRayTracingShader
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{
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ComputeShader m_Shader;
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int m_KernelIndex;
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uint3 m_ThreadGroupSizes;
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private GraphicsBuffer m_DispatchBuffer; // This is a buffer to hold dispatch arguments when using non indirect dispatch
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internal ComputeRayTracingShader(ComputeShader shader, string dispatchFuncName, GraphicsBuffer dispatchBuffer)
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{
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m_Shader = shader;
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m_KernelIndex = m_Shader.FindKernel(dispatchFuncName);
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m_Shader.GetKernelThreadGroupSizes(m_KernelIndex,
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out m_ThreadGroupSizes.x, out m_ThreadGroupSizes.y, out m_ThreadGroupSizes.z);
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m_DispatchBuffer = dispatchBuffer;
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}
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public uint3 GetThreadGroupSizes()
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{
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return m_ThreadGroupSizes;
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}
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public void PopulateDispatchDimensionBuffer(CommandBuffer cmd, GraphicsBuffer dispatchDimensionsBuffer, uint3 dimensions)
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{
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Assert.IsTrue((dispatchDimensionsBuffer.target & GraphicsBuffer.Target.IndirectArguments) != 0);
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Assert.IsTrue((dispatchDimensionsBuffer.target & GraphicsBuffer.Target.Structured) != 0);
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Assert.IsTrue(dispatchDimensionsBuffer.count * dispatchDimensionsBuffer.stride == 24);
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uint3 workgroups = GraphicsHelpers.DivUp(dimensions, m_ThreadGroupSizes);
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cmd.SetBufferData(dispatchDimensionsBuffer, new uint[] { dimensions.x, dimensions.y, dimensions.z, workgroups.x, workgroups.y, workgroups.z });
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}
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public void SetAccelerationStructure(CommandBuffer cmd, string name, IRayTracingAccelStruct accelStruct)
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{
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var computeAccelStruct = accelStruct as ComputeRayTracingAccelStruct;
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Assert.IsNotNull(computeAccelStruct);
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computeAccelStruct.Bind(cmd, name, this);
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}
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public void SetIntParam(CommandBuffer cmd, int nameID, int val)
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{
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cmd.SetComputeIntParam(m_Shader, nameID, val);
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}
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public void SetFloatParam(CommandBuffer cmd, int nameID, float val)
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{
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cmd.SetComputeFloatParam(m_Shader, nameID, val);
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}
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public void SetVectorParam(CommandBuffer cmd, int nameID, Vector4 val)
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{
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cmd.SetComputeVectorParam(m_Shader, nameID, val);
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}
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public void SetMatrixParam(CommandBuffer cmd, int nameID, Matrix4x4 val)
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{
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cmd.SetComputeMatrixParam(m_Shader, nameID, val);
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}
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public void SetTextureParam(CommandBuffer cmd, int nameID, RenderTargetIdentifier rt)
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{
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cmd.SetComputeTextureParam(m_Shader, m_KernelIndex, nameID, rt);
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}
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public void SetBufferParam(CommandBuffer cmd, int nameID, GraphicsBuffer buffer)
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{
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cmd.SetComputeBufferParam(m_Shader, m_KernelIndex, nameID, buffer);
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}
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public void SetBufferParam(CommandBuffer cmd, int nameID, ComputeBuffer buffer)
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{
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cmd.SetComputeBufferParam(m_Shader, m_KernelIndex, nameID, buffer);
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}
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public void Dispatch(CommandBuffer cmd, GraphicsBuffer scratchBuffer, uint width, uint height, uint depth)
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{
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var requiredScratchSize = GetTraceScratchBufferRequiredSizeInBytes(width, height, depth);
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if (requiredScratchSize > 0 && (scratchBuffer == null || ((ulong)(scratchBuffer.count * scratchBuffer.stride) < requiredScratchSize)))
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{
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throw new System.ArgumentException("scratchBuffer size is too small");
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}
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if (requiredScratchSize > 0 && scratchBuffer.stride != 4)
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{
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throw new System.ArgumentException("scratchBuffer stride must be 4");
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}
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cmd.SetComputeBufferParam(m_Shader, m_KernelIndex, RadeonRays.SID.g_stack, scratchBuffer);
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uint workgroupsX = (uint)GraphicsHelpers.DivUp((int)width, m_ThreadGroupSizes.x);
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uint workgroupsY = (uint)GraphicsHelpers.DivUp((int)height, m_ThreadGroupSizes.y);
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uint workgroupsZ = (uint)GraphicsHelpers.DivUp((int)depth, m_ThreadGroupSizes.z);
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PopulateDispatchDimensionBuffer(cmd, m_DispatchBuffer, new uint3(width, height, depth));
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SetBufferParam(cmd, RadeonRays.SID.g_dispatch_dimensions, m_DispatchBuffer);
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cmd.DispatchCompute(m_Shader, m_KernelIndex, (int)workgroupsX, (int)workgroupsY, (int)workgroupsZ);
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}
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public ulong GetTraceScratchBufferRequiredSizeInBytes(uint width, uint height, uint depth)
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{
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uint rayCount = width * height * depth;
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return (RadeonRays.RadeonRaysAPI.GetTraceMemoryRequirements(rayCount) * 4);
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}
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public void Dispatch(CommandBuffer cmd, GraphicsBuffer scratchBuffer, GraphicsBuffer argsBuffer)
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{
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Assert.IsTrue((argsBuffer.target & GraphicsBuffer.Target.IndirectArguments) != 0);
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Assert.IsTrue((argsBuffer.target & GraphicsBuffer.Target.Structured) != 0);
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Assert.IsTrue(argsBuffer.count * argsBuffer.stride == 24);
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cmd.SetComputeBufferParam(m_Shader, m_KernelIndex, RadeonRays.SID.g_stack, scratchBuffer);
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SetBufferParam(cmd, RadeonRays.SID.g_dispatch_dimensions, argsBuffer);
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cmd.DispatchCompute(m_Shader, m_KernelIndex, argsBuffer, RayTracingHelper.k_GroupSizeByteOffset);
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}
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}
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}
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