mirror of
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189 lines
5.9 KiB
C++
189 lines
5.9 KiB
C++
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// This file is part of the FidelityFX SDK.
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//
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// Copyright (c) 2022-2023 Advanced Micro Devices, Inc. All rights reserved.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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FFX_GROUPSHARED FfxUInt32 spdCounter;
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#ifndef SPD_PACKED_ONLY
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FFX_GROUPSHARED FfxFloat32 spdIntermediateR[16][16];
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FFX_GROUPSHARED FfxFloat32 spdIntermediateG[16][16];
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FFX_GROUPSHARED FfxFloat32 spdIntermediateB[16][16];
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FFX_GROUPSHARED FfxFloat32 spdIntermediateA[16][16];
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FfxFloat32x4 SpdLoadSourceImage(FfxFloat32x2 tex, FfxUInt32 slice)
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{
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FfxFloat32x2 fUv = (tex + 0.5f + Jitter()) / RenderSize();
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fUv = ClampUv(fUv, RenderSize(), InputColorResourceDimensions());
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FfxFloat32x3 fRgb = SampleInputColor(fUv);
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fRgb /= PreExposure();
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//compute log luma
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const FfxFloat32 fLogLuma = log(ffxMax(FSR2_EPSILON, RGBToLuma(fRgb)));
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// Make sure out of screen pixels contribute no value to the end result
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const FfxFloat32 result = all(FFX_LESS_THAN(tex, RenderSize())) ? fLogLuma : 0.0f;
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return FfxFloat32x4(result, 0, 0, 0);
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}
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FfxFloat32x4 SpdLoad(FfxInt32x2 tex, FfxUInt32 slice)
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{
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return SPD_LoadMipmap5(tex);
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}
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void SpdStore(FfxInt32x2 pix, FfxFloat32x4 outValue, FfxUInt32 index, FfxUInt32 slice)
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{
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if (index == LumaMipLevelToUse() || index == 5)
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{
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SPD_SetMipmap(pix, index, outValue.r);
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}
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if (index == MipCount() - 1) { //accumulate on 1x1 level
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if (all(FFX_EQUAL(pix, FfxInt32x2(0, 0))))
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{
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FfxFloat32 prev = SPD_LoadExposureBuffer().y;
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FfxFloat32 result = outValue.r;
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if (prev < resetAutoExposureAverageSmoothing) // Compare Lavg, so small or negative values
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{
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FfxFloat32 rate = 1.0f;
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result = prev + (result - prev) * (1 - exp(-DeltaTime() * rate));
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}
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FfxFloat32x2 spdOutput = FfxFloat32x2(ComputeAutoExposureFromLavg(result), result);
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SPD_SetExposureBuffer(spdOutput);
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}
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}
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}
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void SpdIncreaseAtomicCounter(FfxUInt32 slice)
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{
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SPD_IncreaseAtomicCounter(spdCounter);
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}
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FfxUInt32 SpdGetAtomicCounter()
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{
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return spdCounter;
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}
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void SpdResetAtomicCounter(FfxUInt32 slice)
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{
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SPD_ResetAtomicCounter();
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}
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FfxFloat32x4 SpdLoadIntermediate(FfxUInt32 x, FfxUInt32 y)
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{
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return FfxFloat32x4(
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spdIntermediateR[x][y],
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spdIntermediateG[x][y],
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spdIntermediateB[x][y],
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spdIntermediateA[x][y]);
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}
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void SpdStoreIntermediate(FfxUInt32 x, FfxUInt32 y, FfxFloat32x4 value)
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{
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spdIntermediateR[x][y] = value.x;
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spdIntermediateG[x][y] = value.y;
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spdIntermediateB[x][y] = value.z;
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spdIntermediateA[x][y] = value.w;
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}
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FfxFloat32x4 SpdReduce4(FfxFloat32x4 v0, FfxFloat32x4 v1, FfxFloat32x4 v2, FfxFloat32x4 v3)
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{
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return (v0 + v1 + v2 + v3) * 0.25f;
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}
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#endif
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// define fetch and store functions Packed
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#if FFX_HALF
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#error Callback must be implemented
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FFX_GROUPSHARED FfxFloat16x2 spdIntermediateRG[16][16];
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FFX_GROUPSHARED FfxFloat16x2 spdIntermediateBA[16][16];
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FfxFloat16x4 SpdLoadSourceImageH(FfxFloat32x2 tex, FfxUInt32 slice)
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{
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return FfxFloat16x4(imgDst[0][FfxFloat32x3(tex, slice)]);
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}
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FfxFloat16x4 SpdLoadH(FfxInt32x2 p, FfxUInt32 slice)
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{
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return FfxFloat16x4(imgDst6[FfxUInt32x3(p, slice)]);
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}
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void SpdStoreH(FfxInt32x2 p, FfxFloat16x4 value, FfxUInt32 mip, FfxUInt32 slice)
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{
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if (index == LumaMipLevelToUse() || index == 5)
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{
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imgDst6[FfxUInt32x3(p, slice)] = FfxFloat32x4(value);
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return;
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}
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imgDst[mip + 1][FfxUInt32x3(p, slice)] = FfxFloat32x4(value);
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}
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void SpdIncreaseAtomicCounter(FfxUInt32 slice)
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{
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InterlockedAdd(rw_spd_global_atomic[FfxInt16x2(0, 0)].counter[slice], 1, spdCounter);
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}
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FfxUInt32 SpdGetAtomicCounter()
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{
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return spdCounter;
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}
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void SpdResetAtomicCounter(FfxUInt32 slice)
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{
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rw_spd_global_atomic[FfxInt16x2(0, 0)].counter[slice] = 0;
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}
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FfxFloat16x4 SpdLoadIntermediateH(FfxUInt32 x, FfxUInt32 y)
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{
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return FfxFloat16x4(
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spdIntermediateRG[x][y].x,
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spdIntermediateRG[x][y].y,
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spdIntermediateBA[x][y].x,
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spdIntermediateBA[x][y].y);
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}
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void SpdStoreIntermediateH(FfxUInt32 x, FfxUInt32 y, FfxFloat16x4 value)
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{
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spdIntermediateRG[x][y] = value.xy;
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spdIntermediateBA[x][y] = value.zw;
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}
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FfxFloat16x4 SpdReduce4H(FfxFloat16x4 v0, FfxFloat16x4 v1, FfxFloat16x4 v2, FfxFloat16x4 v3)
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{
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return (v0 + v1 + v2 + v3) * FfxFloat16(0.25);
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}
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#endif
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#include "ffx_spd.h"
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void ComputeAutoExposure(FfxUInt32x3 WorkGroupId, FfxUInt32 LocalThreadIndex)
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{
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#if FFX_HALF
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SpdDownsampleH(
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FfxUInt32x2(WorkGroupId.xy),
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FfxUInt32(LocalThreadIndex),
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FfxUInt32(MipCount()),
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FfxUInt32(NumWorkGroups()),
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FfxUInt32(WorkGroupId.z),
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FfxUInt32x2(WorkGroupOffset()));
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#else
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SpdDownsample(
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FfxUInt32x2(WorkGroupId.xy),
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FfxUInt32(LocalThreadIndex),
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FfxUInt32(MipCount()),
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FfxUInt32(NumWorkGroups()),
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FfxUInt32(WorkGroupId.z),
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FfxUInt32x2(WorkGroupOffset()));
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#endif
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}
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