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419b342a9a
Make BC6 and BC7 CVTT faster while still having better quality than DXT5.
156 lines
6.3 KiB
C++
156 lines
6.3 KiB
C++
#pragma once
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#ifndef __CVTT_INDEXSELECTORHDR_H__
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#define __CVTT_INDEXSELECTORHDR_H__
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#include "ConvectionKernels_ParallelMath.h"
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#include "ConvectionKernels_IndexSelector.h"
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namespace cvtt
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{
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namespace Internal
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{
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ParallelMath::SInt16 UnscaleHDRValueSigned(const ParallelMath::SInt16 &v);
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ParallelMath::UInt15 UnscaleHDRValueUnsigned(const ParallelMath::UInt16 &v);
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template<int TVectorSize>
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class IndexSelectorHDR : public IndexSelector<TVectorSize>
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{
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public:
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typedef ParallelMath::UInt15 MUInt15;
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typedef ParallelMath::UInt16 MUInt16;
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typedef ParallelMath::UInt31 MUInt31;
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typedef ParallelMath::SInt16 MSInt16;
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typedef ParallelMath::SInt32 MSInt32;
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typedef ParallelMath::Float MFloat;
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private:
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MUInt15 InvertSingle(const MUInt15& anIndex) const
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{
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MUInt15 inverted = m_maxValueMinusOne - anIndex;
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return ParallelMath::Select(m_isInverted, inverted, anIndex);
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}
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void ReconstructHDRSignedUninverted(const MUInt15 &index, MSInt16* pixel) const
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{
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MUInt15 weight = ParallelMath::LosslessCast<MUInt15>::Cast(ParallelMath::RightShift(ParallelMath::CompactMultiply(g_weightReciprocals[m_range], index) + 256, 9));
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for (int ch = 0; ch < TVectorSize; ch++)
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{
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MSInt16 ep0 = ParallelMath::LosslessCast<MSInt16>::Cast(this->m_endPoint[0][ch]);
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MSInt16 ep1 = ParallelMath::LosslessCast<MSInt16>::Cast(this->m_endPoint[1][ch]);
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MSInt32 pixel32 = ParallelMath::XMultiply((ParallelMath::MakeUInt15(64) - weight), ep0) + ParallelMath::XMultiply(weight, ep1);
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pixel32 = ParallelMath::RightShift(pixel32 + ParallelMath::MakeSInt32(32), 6);
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pixel[ch] = UnscaleHDRValueSigned(ParallelMath::ToSInt16(pixel32));
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}
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}
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void ReconstructHDRUnsignedUninverted(const MUInt15 &index, MSInt16* pixel) const
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{
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MUInt15 weight = ParallelMath::LosslessCast<MUInt15>::Cast(ParallelMath::RightShift(ParallelMath::CompactMultiply(g_weightReciprocals[m_range], index) + 256, 9));
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for (int ch = 0; ch < TVectorSize; ch++)
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{
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MUInt16 ep0 = ParallelMath::LosslessCast<MUInt16>::Cast(this->m_endPoint[0][ch]);
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MUInt16 ep1 = ParallelMath::LosslessCast<MUInt16>::Cast(this->m_endPoint[1][ch]);
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MUInt31 pixel31 = ParallelMath::XMultiply((ParallelMath::MakeUInt15(64) - weight), ep0) + ParallelMath::XMultiply(weight, ep1);
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pixel31 = ParallelMath::RightShift(pixel31 + ParallelMath::MakeUInt31(32), 6);
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pixel[ch] = ParallelMath::LosslessCast<MSInt16>::Cast(UnscaleHDRValueUnsigned(ParallelMath::ToUInt16(pixel31)));
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}
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}
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MFloat ErrorForInterpolatorComponent(int index, int ch, const MFloat *pixel) const
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{
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MFloat diff = pixel[ch] - m_reconstructedInterpolators[index][ch];
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return diff * diff;
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}
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MFloat ErrorForInterpolator(int index, const MFloat *pixel) const
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{
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MFloat error = ErrorForInterpolatorComponent(index, 0, pixel);
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for (int ch = 1; ch < TVectorSize; ch++)
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error = error + ErrorForInterpolatorComponent(index, ch, pixel);
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return error;
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}
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public:
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void InitHDR(int range, bool isSigned, bool fastIndexing, const float *channelWeights)
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{
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assert(range <= 16);
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m_range = range;
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m_isInverted = ParallelMath::MakeBoolInt16(false);
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m_maxValueMinusOne = ParallelMath::MakeUInt15(static_cast<uint16_t>(range - 1));
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if (!fastIndexing)
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{
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for (int i = 0; i < range; i++)
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{
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MSInt16 recon2CL[TVectorSize];
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if (isSigned)
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ReconstructHDRSignedUninverted(ParallelMath::MakeUInt15(static_cast<uint16_t>(i)), recon2CL);
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else
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ReconstructHDRUnsignedUninverted(ParallelMath::MakeUInt15(static_cast<uint16_t>(i)), recon2CL);
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for (int ch = 0; ch < TVectorSize; ch++)
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m_reconstructedInterpolators[i][ch] = ParallelMath::TwosCLHalfToFloat(recon2CL[ch]) * channelWeights[ch];
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}
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}
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}
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void ReconstructHDRSigned(const MUInt15 &index, MSInt16* pixel) const
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{
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ReconstructHDRSignedUninverted(InvertSingle(index), pixel);
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}
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void ReconstructHDRUnsigned(const MUInt15 &index, MSInt16* pixel) const
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{
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ReconstructHDRUnsignedUninverted(InvertSingle(index), pixel);
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}
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void ConditionalInvert(const ParallelMath::Int16CompFlag &invert)
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{
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m_isInverted = invert;
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}
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MUInt15 SelectIndexHDRSlow(const MFloat* pixel, const ParallelMath::RoundTowardNearestForScope*) const
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{
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MUInt15 index = ParallelMath::MakeUInt15(0);
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MFloat bestError = ErrorForInterpolator(0, pixel);
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for (int i = 1; i < m_range; i++)
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{
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MFloat error = ErrorForInterpolator(i, pixel);
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ParallelMath::FloatCompFlag errorBetter = ParallelMath::Less(error, bestError);
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ParallelMath::ConditionalSet(index, ParallelMath::FloatFlagToInt16(errorBetter), ParallelMath::MakeUInt15(static_cast<uint16_t>(i)));
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bestError = ParallelMath::Min(bestError, error);
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}
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return InvertSingle(index);
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}
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MUInt15 SelectIndexHDRFast(const MFloat* pixel, const ParallelMath::RoundTowardNearestForScope* rtn) const
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{
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return InvertSingle(this->SelectIndexLDR(pixel, rtn));
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}
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private:
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MFloat m_reconstructedInterpolators[16][TVectorSize];
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ParallelMath::Int16CompFlag m_isInverted;
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MUInt15 m_maxValueMinusOne;
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int m_range;
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};
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}
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}
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#endif
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