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472 lines
15 KiB
472 lines
15 KiB
////////////////////////// NVIDIA SHADER EXTENSIONS ///////////////// |
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// internal functions |
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// Functions in this file are not expected to be called by apps directly |
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#include "nvShaderExtnEnums.h" |
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struct NvShaderExtnStruct |
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{ |
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uint opcode; // opcode |
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uint rid; // resource ID |
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uint sid; // sampler ID |
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uint4 dst1u; // destination operand 1 (for instructions that need extra destination operands) |
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uint4 padding0[3]; // currently unused |
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uint4 src0u; // uint source operand 0 |
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uint4 src1u; // uint source operand 0 |
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uint4 src2u; // uint source operand 0 |
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uint4 dst0u; // uint destination operand |
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uint markUavRef; // the next store to UAV is fake and is used only to identify the uav slot |
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float padding1[28];// struct size: 256 bytes |
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}; |
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// RW structured buffer for Nvidia shader extensions |
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// Application needs to define NV_SHADER_EXTN_SLOT as a unused slot, which should be |
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// set using NvAPI_D3D11_SetNvShaderExtnSlot() call before creating the first shader that |
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// uses nvidia shader extensions. E.g before including this file in shader define it as: |
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// #define NV_SHADER_EXTN_SLOT u7 |
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// Note that other operations to this UAV will be ignored so application |
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// should bind a null resource |
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RWStructuredBuffer<NvShaderExtnStruct> g_NvidiaExt : register( NV_SHADER_EXTN_SLOT ); |
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//----------------------------------------------------------------------------// |
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// the exposed SHFL instructions accept a mask parameter in src2 |
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// To compute lane mask from width of segment: |
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// minLaneID : currentLaneId & src2[12:8] |
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// maxLaneID : minLaneId | (src2[4:0] & ~src2[12:8]) |
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// where [minLaneId, maxLaneId] defines the segment where currentLaneId belongs |
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// we always set src2[4:0] to 11111 (0x1F), and set src2[12:8] as (32 - width) |
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int __NvGetShflMaskFromWidth(uint width) |
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{ |
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return ((NV_WARP_SIZE - width) << 8) | 0x1F; |
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} |
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//----------------------------------------------------------------------------// |
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void __NvReferenceUAVForOp(RWByteAddressBuffer uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav.Store(index, 0); |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<float2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = float2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<float2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = float2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<float2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = float2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<float4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = float4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<float4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = float4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<float4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = float4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<float> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = 0.0f; |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<float> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = 0.0f; |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<float> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = 0.0f; |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<uint2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = uint2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<uint2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = uint2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<uint2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = uint2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<uint4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = uint4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<uint4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = uint4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<uint4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = uint4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<uint> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = 0; |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<uint> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = 0; |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<uint> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = 0; |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<int2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = int2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<int2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = int2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<int2> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = int2(0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<int4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = int4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<int4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = int4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<int4> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = int4(0,0,0,0); |
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} |
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void __NvReferenceUAVForOp(RWTexture1D<int> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[index] = 0; |
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} |
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void __NvReferenceUAVForOp(RWTexture2D<int> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint2(index,index)] = 0; |
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} |
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void __NvReferenceUAVForOp(RWTexture3D<int> uav) |
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{ |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].markUavRef = 1; |
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uav[uint3(index,index,index)] = 0; |
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} |
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//----------------------------------------------------------------------------// |
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// ATOMIC op sub-opcodes |
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#define NV_EXTN_ATOM_ADD 3 |
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#define NV_EXTN_ATOM_MAX 6 |
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#define NV_EXTN_ATOM_MIN 7 |
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//----------------------------------------------------------------------------// |
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// performs Atomic operation on two consecutive fp16 values in the given UAV |
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// the uint paramater 'fp16x2Val' is treated as two fp16 values |
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// the passed sub-opcode 'op' should be an immediate constant |
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// byteAddress must be multiple of 4 |
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// the returned value are the two fp16 values packed into a single uint |
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uint __NvAtomicOpFP16x2(RWByteAddressBuffer uav, uint byteAddress, uint fp16x2Val, uint atomicOpType) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.x = byteAddress; |
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g_NvidiaExt[index].src1u.x = fp16x2Val; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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return g_NvidiaExt[index].dst0u.x; |
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} |
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//----------------------------------------------------------------------------// |
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// performs Atomic operation on a R16G16_FLOAT UAV at the given address |
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// the uint paramater 'fp16x2Val' is treated as two fp16 values |
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// the passed sub-opcode 'op' should be an immediate constant |
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// the returned value are the two fp16 values (.x and .y components) packed into a single uint |
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// Warning: Behaviour of these set of functions is undefined if the UAV is not |
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// of R16G16_FLOAT format (might result in app crash or TDR) |
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uint __NvAtomicOpFP16x2(RWTexture1D<float2> uav, uint address, uint fp16x2Val, uint atomicOpType) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.x = address; |
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g_NvidiaExt[index].src1u.x = fp16x2Val; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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return g_NvidiaExt[index].dst0u.x; |
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} |
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uint __NvAtomicOpFP16x2(RWTexture2D<float2> uav, uint2 address, uint fp16x2Val, uint atomicOpType) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xy = address; |
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g_NvidiaExt[index].src1u.x = fp16x2Val; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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return g_NvidiaExt[index].dst0u.x; |
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} |
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uint __NvAtomicOpFP16x2(RWTexture3D<float2> uav, uint3 address, uint fp16x2Val, uint atomicOpType) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xyz = address; |
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g_NvidiaExt[index].src1u.x = fp16x2Val; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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return g_NvidiaExt[index].dst0u.x; |
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} |
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//----------------------------------------------------------------------------// |
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// performs Atomic operation on a R16G16B16A16_FLOAT UAV at the given address |
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// the uint2 paramater 'fp16x2Val' is treated as four fp16 values |
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// i.e, fp16x2Val.x = uav.xy and fp16x2Val.y = uav.yz |
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// the passed sub-opcode 'op' should be an immediate constant |
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// the returned value are the four fp16 values (.xyzw components) packed into uint2 |
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// Warning: Behaviour of these set of functions is undefined if the UAV is not |
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// of R16G16B16A16_FLOAT format (might result in app crash or TDR) |
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uint2 __NvAtomicOpFP16x2(RWTexture1D<float4> uav, uint address, uint2 fp16x2Val, uint atomicOpType) |
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{ |
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__NvReferenceUAVForOp(uav); |
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// break it down into two fp16x2 atomic ops |
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uint2 retVal; |
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// first op has x-coordinate = x * 2 |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.x = address * 2; |
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g_NvidiaExt[index].src1u.x = fp16x2Val.x; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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retVal.x = g_NvidiaExt[index].dst0u.x; |
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// second op has x-coordinate = x * 2 + 1 |
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index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.x = address * 2 + 1; |
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g_NvidiaExt[index].src1u.x = fp16x2Val.y; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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retVal.y = g_NvidiaExt[index].dst0u.x; |
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return retVal; |
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} |
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uint2 __NvAtomicOpFP16x2(RWTexture2D<float4> uav, uint2 address, uint2 fp16x2Val, uint atomicOpType) |
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{ |
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__NvReferenceUAVForOp(uav); |
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// break it down into two fp16x2 atomic ops |
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uint2 retVal; |
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// first op has x-coordinate = x * 2 |
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uint2 addressTemp = uint2(address.x * 2, address.y); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xy = addressTemp; |
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g_NvidiaExt[index].src1u.x = fp16x2Val.x; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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retVal.x = g_NvidiaExt[index].dst0u.x; |
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// second op has x-coordinate = x * 2 + 1 |
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addressTemp.x++; |
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index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xy = addressTemp; |
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g_NvidiaExt[index].src1u.x = fp16x2Val.y; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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retVal.y = g_NvidiaExt[index].dst0u.x; |
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return retVal; |
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} |
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uint2 __NvAtomicOpFP16x2(RWTexture3D<float4> uav, uint3 address, uint2 fp16x2Val, uint atomicOpType) |
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{ |
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__NvReferenceUAVForOp(uav); |
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// break it down into two fp16x2 atomic ops |
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uint2 retVal; |
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// first op has x-coordinate = x * 2 |
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uint3 addressTemp = uint3(address.x * 2, address.y, address.z); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xyz = addressTemp; |
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g_NvidiaExt[index].src1u.x = fp16x2Val.x; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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retVal.x = g_NvidiaExt[index].dst0u.x; |
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// second op has x-coordinate = x * 2 + 1 |
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addressTemp.x++; |
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index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xyz = addressTemp; |
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g_NvidiaExt[index].src1u.x = fp16x2Val.y; |
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g_NvidiaExt[index].src2u.x = atomicOpType; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP16_ATOMIC; |
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retVal.y = g_NvidiaExt[index].dst0u.x; |
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return retVal; |
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} |
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uint __fp32x2Tofp16x2(float2 val) |
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{ |
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return (f32tof16(val.y)<<16) | f32tof16(val.x) ; |
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} |
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uint2 __fp32x4Tofp16x4(float4 val) |
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{ |
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return uint2( (f32tof16(val.y)<<16) | f32tof16(val.x), (f32tof16(val.w)<<16) | f32tof16(val.z) ) ; |
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} |
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// FP32 Atomic functions |
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// performs Atomic operation treating the uav as float (fp32) values |
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// the passed sub-opcode 'op' should be an immediate constant |
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// byteAddress must be multiple of 4 |
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float __NvAtomicAddFP32(RWByteAddressBuffer uav, uint byteAddress, float val) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.x = byteAddress; |
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g_NvidiaExt[index].src1u.x = asuint(val); // passing as uint to make it more convinient for the driver to translate |
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g_NvidiaExt[index].src2u.x = NV_EXTN_ATOM_ADD; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP32_ATOMIC; |
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return asfloat(g_NvidiaExt[index].dst0u.x); |
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} |
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float __NvAtomicAddFP32(RWTexture1D<float> uav, uint address, float val) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.x = address; |
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g_NvidiaExt[index].src1u.x = asuint(val); |
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g_NvidiaExt[index].src2u.x = NV_EXTN_ATOM_ADD; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP32_ATOMIC; |
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return asfloat(g_NvidiaExt[index].dst0u.x); |
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} |
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float __NvAtomicAddFP32(RWTexture2D<float> uav, uint2 address, float val) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xy = address; |
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g_NvidiaExt[index].src1u.x = asuint(val); |
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g_NvidiaExt[index].src2u.x = NV_EXTN_ATOM_ADD; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP32_ATOMIC; |
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return asfloat(g_NvidiaExt[index].dst0u.x); |
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} |
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float __NvAtomicAddFP32(RWTexture3D<float> uav, uint3 address, float val) |
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{ |
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__NvReferenceUAVForOp(uav); |
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uint index = g_NvidiaExt.IncrementCounter(); |
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g_NvidiaExt[index].src0u.xyz = address; |
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g_NvidiaExt[index].src1u.x = asuint(val); |
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g_NvidiaExt[index].src2u.x = NV_EXTN_ATOM_ADD; |
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g_NvidiaExt[index].opcode = NV_EXTN_OP_FP32_ATOMIC; |
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return asfloat(g_NvidiaExt[index].dst0u.x); |
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} |
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