419b342a9a
Make BC6 and BC7 CVTT faster while still having better quality than DXT5.
182 lines
6.7 KiB
C++
182 lines
6.7 KiB
C++
#pragma once
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#ifndef __CVTT_ENDPOINTREFINER_H__
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#define __CVTT_ENDPOINTREFINER_H__
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#include "ConvectionKernels_ParallelMath.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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// Solve for a, b where v = a*t + b
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// This allows endpoints to be mapped to where T=0 and T=1
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// Least squares from totals:
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// a = (tv - t*v/w)/(tt - t*t/w)
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// b = (v - a*t)/w
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template<int TVectorSize>
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class EndpointRefiner
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{
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public:
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typedef ParallelMath::Float MFloat;
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typedef ParallelMath::UInt16 MUInt16;
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typedef ParallelMath::UInt15 MUInt15;
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typedef ParallelMath::AInt16 MAInt16;
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typedef ParallelMath::SInt16 MSInt16;
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typedef ParallelMath::SInt32 MSInt32;
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MFloat m_tv[TVectorSize];
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MFloat m_v[TVectorSize];
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MFloat m_tt;
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MFloat m_t;
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MFloat m_w;
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int m_wu;
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float m_rcpMaxIndex;
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float m_channelWeights[TVectorSize];
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float m_rcpChannelWeights[TVectorSize];
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void Init(int indexRange, const float channelWeights[TVectorSize])
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{
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for (int ch = 0; ch < TVectorSize; ch++)
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{
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m_tv[ch] = ParallelMath::MakeFloatZero();
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m_v[ch] = ParallelMath::MakeFloatZero();
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}
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m_tt = ParallelMath::MakeFloatZero();
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m_t = ParallelMath::MakeFloatZero();
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m_w = ParallelMath::MakeFloatZero();
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m_rcpMaxIndex = 1.0f / static_cast<float>(indexRange - 1);
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for (int ch = 0; ch < TVectorSize; ch++)
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{
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m_channelWeights[ch] = channelWeights[ch];
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m_rcpChannelWeights[ch] = 1.0f;
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if (m_channelWeights[ch] != 0.0f)
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m_rcpChannelWeights[ch] = 1.0f / channelWeights[ch];
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}
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m_wu = 0;
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}
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void ContributePW(const MFloat *pwFloatPixel, const MUInt15 &index, const MFloat &weight)
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{
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MFloat t = ParallelMath::ToFloat(index) * m_rcpMaxIndex;
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for (int ch = 0; ch < TVectorSize; ch++)
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{
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MFloat v = pwFloatPixel[ch] * weight;
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m_tv[ch] = m_tv[ch] + t * v;
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m_v[ch] = m_v[ch] + v;
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}
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m_tt = m_tt + weight * t * t;
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m_t = m_t + weight * t;
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m_w = m_w + weight;
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}
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void ContributeUnweightedPW(const MFloat *pwFloatPixel, const MUInt15 &index, int numRealChannels)
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{
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MFloat t = ParallelMath::ToFloat(index) * m_rcpMaxIndex;
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for (int ch = 0; ch < numRealChannels; ch++)
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{
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MFloat v = pwFloatPixel[ch];
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m_tv[ch] = m_tv[ch] + t * v;
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m_v[ch] = m_v[ch] + v;
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}
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m_tt = m_tt + t * t;
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m_t = m_t + t;
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m_wu++;
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}
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void ContributeUnweightedPW(const MFloat *floatPixel, const MUInt15 &index)
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{
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ContributeUnweightedPW(floatPixel, index, TVectorSize);
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}
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void GetRefinedEndpoints(MFloat endPoint[2][TVectorSize])
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{
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// a = (tv - t*v/w)/(tt - t*t/w)
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// b = (v - a*t)/w
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MFloat w = m_w + ParallelMath::MakeFloat(static_cast<float>(m_wu));
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ParallelMath::MakeSafeDenominator(w);
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MFloat wRcp = ParallelMath::Reciprocal(w);
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MFloat adenom = (m_tt * w - m_t * m_t) * wRcp;
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ParallelMath::FloatCompFlag adenomZero = ParallelMath::Equal(adenom, ParallelMath::MakeFloatZero());
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ParallelMath::ConditionalSet(adenom, adenomZero, ParallelMath::MakeFloat(1.0f));
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for (int ch = 0; ch < TVectorSize; ch++)
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{
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/*
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if (adenom == 0.0)
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p1 = p2 = er.v / er.w;
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else
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{
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float4 a = (er.tv - er.t*er.v / er.w) / adenom;
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float4 b = (er.v - a * er.t) / er.w;
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p1 = b;
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p2 = a + b;
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}
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*/
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MFloat a = (m_tv[ch] - m_t * m_v[ch] * wRcp) / adenom;
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MFloat b = (m_v[ch] - a * m_t) * wRcp;
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MFloat p1 = b;
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MFloat p2 = a + b;
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ParallelMath::ConditionalSet(p1, adenomZero, (m_v[ch] * wRcp));
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ParallelMath::ConditionalSet(p2, adenomZero, p1);
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// Unweight
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float inverseWeight = m_rcpChannelWeights[ch];
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endPoint[0][ch] = p1 * inverseWeight;
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endPoint[1][ch] = p2 * inverseWeight;
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}
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}
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void GetRefinedEndpointsLDR(MUInt15 endPoint[2][TVectorSize], int numRealChannels, const ParallelMath::RoundTowardNearestForScope *roundingMode)
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{
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MFloat floatEndPoint[2][TVectorSize];
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GetRefinedEndpoints(floatEndPoint);
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for (int epi = 0; epi < 2; epi++)
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for (int ch = 0; ch < TVectorSize; ch++)
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endPoint[epi][ch] = ParallelMath::RoundAndConvertToU15(ParallelMath::Clamp(floatEndPoint[epi][ch], 0.0f, 255.0f), roundingMode);
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}
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void GetRefinedEndpointsLDR(MUInt15 endPoint[2][TVectorSize], const ParallelMath::RoundTowardNearestForScope *roundingMode)
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{
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GetRefinedEndpointsLDR(endPoint, TVectorSize, roundingMode);
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}
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void GetRefinedEndpointsHDR(MSInt16 endPoint[2][TVectorSize], bool isSigned, const ParallelMath::RoundTowardNearestForScope *roundingMode)
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{
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MFloat floatEndPoint[2][TVectorSize];
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GetRefinedEndpoints(floatEndPoint);
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for (int epi = 0; epi < 2; epi++)
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{
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for (int ch = 0; ch < TVectorSize; ch++)
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{
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MFloat f = floatEndPoint[epi][ch];
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if (isSigned)
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endPoint[epi][ch] = ParallelMath::LosslessCast<MSInt16>::Cast(ParallelMath::RoundAndConvertToS16(ParallelMath::Clamp(f, -31743.0f, 31743.0f), roundingMode));
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else
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endPoint[epi][ch] = ParallelMath::LosslessCast<MSInt16>::Cast(ParallelMath::RoundAndConvertToU15(ParallelMath::Clamp(f, 0.0f, 31743.0f), roundingMode));
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}
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}
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}
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};
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}
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}
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#endif
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