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419b342a9a
Make BC6 and BC7 CVTT faster while still having better quality than DXT5.
127 lines
8.4 KiB
C++
127 lines
8.4 KiB
C++
#pragma once
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#ifndef __CVTT_CONVECTIONKERNELS_ETC_H__
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#define __CVTT_CONVECTIONKERNELS_ETC_H__
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#include "ConvectionKernels.h"
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#include "ConvectionKernels_ParallelMath.h"
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namespace cvtt
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{
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struct Options;
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namespace Internal
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{
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class ETCComputer
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{
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public:
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static void CompressETC1Block(uint8_t *outputBuffer, const PixelBlockU8 *inputBlocks, ETC1CompressionData *compressionData, const Options &options);
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static void CompressETC2Block(uint8_t *outputBuffer, const PixelBlockU8 *inputBlocks, ETC2CompressionData *compressionData, const Options &options, bool punchthroughAlpha);
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static void CompressETC2AlphaBlock(uint8_t *outputBuffer, const PixelBlockU8 *inputBlocks, const Options &options);
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static void CompressEACBlock(uint8_t *outputBuffer, const PixelBlockScalarS16 *inputBlocks, bool isSigned, const Options &options);
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static ETC2CompressionData *AllocETC2Data(cvtt::Kernels::allocFunc_t allocFunc, void *context, const cvtt::Options &options);
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static void ReleaseETC2Data(ETC2CompressionData *compressionData, cvtt::Kernels::freeFunc_t freeFunc);
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static ETC1CompressionData *AllocETC1Data(cvtt::Kernels::allocFunc_t allocFunc, void *context);
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static void ReleaseETC1Data(ETC1CompressionData *compressionData, cvtt::Kernels::freeFunc_t freeFunc);
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private:
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typedef ParallelMath::Float MFloat;
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typedef ParallelMath::SInt16 MSInt16;
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typedef ParallelMath::UInt15 MUInt15;
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typedef ParallelMath::UInt16 MUInt16;
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typedef ParallelMath::SInt32 MSInt32;
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typedef ParallelMath::UInt31 MUInt31;
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struct DifferentialResolveStorage
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{
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static const unsigned int MaxAttemptsPerSector = 57 + 81 + 81 + 81 + 81 + 81 + 81 + 81;
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MUInt15 diffNumAttempts[2];
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MFloat diffErrors[2][MaxAttemptsPerSector];
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MUInt16 diffSelectors[2][MaxAttemptsPerSector];
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MUInt15 diffColors[2][MaxAttemptsPerSector];
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MUInt15 diffTables[2][MaxAttemptsPerSector];
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uint16_t attemptSortIndexes[2][MaxAttemptsPerSector];
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};
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struct HModeEval
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{
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MFloat errors[62][16];
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MUInt16 signBits[62];
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MUInt15 uniqueQuantizedColors[62];
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MUInt15 numUniqueColors[2];
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};
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struct ETC1CompressionDataInternal : public cvtt::ETC1CompressionData
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{
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explicit ETC1CompressionDataInternal(void *context)
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: m_context(context)
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{
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}
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DifferentialResolveStorage m_drs;
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void *m_context;
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};
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struct ETC2CompressionDataInternal : public cvtt::ETC2CompressionData
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{
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explicit ETC2CompressionDataInternal(void *context, const cvtt::Options &options);
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HModeEval m_h;
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DifferentialResolveStorage m_drs;
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void *m_context;
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float m_chromaSideAxis0[3];
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float m_chromaSideAxis1[3];
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};
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static MFloat ComputeErrorUniform(const MUInt15 pixelA[3], const MUInt15 pixelB[3]);
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static MFloat ComputeErrorWeighted(const MUInt15 reconstructed[3], const MFloat pixelB[3], const Options options);
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static MFloat ComputeErrorFakeBT709(const MUInt15 reconstructed[3], const MFloat pixelB[3]);
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static void TestHalfBlock(MFloat &outError, MUInt16 &outSelectors, MUInt15 quantizedPackedColor, const MUInt15 pixels[8][3], const MFloat preWeightedPixels[8][3], const MSInt16 modifiers[4], bool isDifferential, const Options &options);
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static void TestHalfBlockPunchthrough(MFloat &outError, MUInt16 &outSelectors, MUInt15 quantizedPackedColor, const MUInt15 pixels[8][3], const MFloat preWeightedPixels[8][3], const ParallelMath::Int16CompFlag isTransparent[8], const MUInt15 modifier, const Options &options);
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static void FindBestDifferentialCombination(int flip, int d, const ParallelMath::Int16CompFlag canIgnoreSector[2], ParallelMath::Int16CompFlag& bestIsThisMode, MFloat& bestTotalError, MUInt15& bestFlip, MUInt15& bestD, MUInt15 bestColors[2], MUInt16 bestSelectors[2], MUInt15 bestTables[2], DifferentialResolveStorage &drs);
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static ParallelMath::Int16CompFlag ETCDifferentialIsLegalForChannel(const MUInt15 &a, const MUInt15 &b);
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static ParallelMath::Int16CompFlag ETCDifferentialIsLegal(const MUInt15 &a, const MUInt15 &b);
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static bool ETCDifferentialIsLegalForChannelScalar(const uint16_t &a, const uint16_t &b);
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static bool ETCDifferentialIsLegalScalar(const uint16_t &a, const uint16_t &b);
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static void EncodeTMode(uint8_t *outputBuffer, MFloat &bestError, const ParallelMath::Int16CompFlag isIsolated[16], const MUInt15 pixels[16][3], const MFloat preWeightedPixels[16][3], const Options &options);
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static void EncodeHMode(uint8_t *outputBuffer, MFloat &bestError, const ParallelMath::Int16CompFlag groupings[16], const MUInt15 pixels[16][3], HModeEval &he, const MFloat preWeightedPixels[16][3], const Options &options);
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static void EncodeVirtualTModePunchthrough(uint8_t *outputBuffer, MFloat &bestError, const ParallelMath::Int16CompFlag isIsolated[16], const MUInt15 pixels[16][3], const MFloat preWeightedPixels[16][3], const ParallelMath::Int16CompFlag isTransparent[16], const ParallelMath::Int16CompFlag& anyTransparent, const ParallelMath::Int16CompFlag& allTransparent, const Options &options);
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static MUInt15 DecodePlanarCoeff(const MUInt15 &coeff, int ch);
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static void EncodePlanar(uint8_t *outputBuffer, MFloat &bestError, const MUInt15 pixels[16][3], const MFloat preWeightedPixels[16][3], const Options &options);
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static void CompressETC1BlockInternal(MFloat &bestTotalError, uint8_t *outputBuffer, const MUInt15 pixels[16][3], const MFloat preWeightedPixels[16][3], DifferentialResolveStorage& compressionData, const Options &options, bool punchthrough);
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static void CompressETC1PunchthroughBlockInternal(MFloat &bestTotalError, uint8_t *outputBuffer, const MUInt15 pixels[16][3], const MFloat preWeightedPixels[16][3], const ParallelMath::Int16CompFlag isTransparent[16], DifferentialResolveStorage& compressionData, const Options &options);
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static void CompressETC2AlphaBlockInternal(uint8_t *outputBuffer, const MUInt15 pixels[16], bool is11Bit, bool isSigned, const Options &options);
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static void ExtractBlocks(MUInt15 pixels[16][3], MFloat preWeightedPixels[16][3], const PixelBlockU8 *inputBlocks, const Options &options);
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static void ResolveHalfBlockFakeBT709RoundingAccurate(MUInt15 quantized[3], const MUInt15 sectorCumulative[3], bool isDifferential);
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static void ResolveHalfBlockFakeBT709RoundingFast(MUInt15 quantized[3], const MUInt15 sectorCumulative[3], bool isDifferential);
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static void ResolveTHFakeBT709Rounding(MUInt15 quantized[3], const MUInt15 target[3], const MUInt15 &granularity);
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static void ConvertToFakeBT709(MFloat yuv[3], const MUInt15 color[3]);
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static void ConvertToFakeBT709(MFloat yuv[3], const MFloat color[3]);
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static void ConvertToFakeBT709(MFloat yuv[3], const MFloat &r, const MFloat &g, const MFloat &b);
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static void ConvertFromFakeBT709(MFloat rgb[3], const MFloat yuv[3]);
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static void QuantizeETC2Alpha(int tableIndex, const MUInt15& value, const MUInt15& baseValue, const MUInt15& multiplier, bool is11Bit, bool isSigned, MUInt15& outIndexes, MUInt15& outQuantizedValues);
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static void EmitTModeBlock(uint8_t *outputBuffer, const ParallelMath::ScalarUInt16 lineColor[3], const ParallelMath::ScalarUInt16 isolatedColor[3], int32_t packedSelectors, ParallelMath::ScalarUInt16 table, bool opaque);
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static void EmitHModeBlock(uint8_t *outputBuffer, const ParallelMath::ScalarUInt16 blockColors[2], ParallelMath::ScalarUInt16 sectorBits, ParallelMath::ScalarUInt16 signBits, ParallelMath::ScalarUInt16 table, bool opaque);
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static void EmitETC1Block(uint8_t *outputBuffer, int blockBestFlip, int blockBestD, const int blockBestColors[2][3], const int blockBestTables[2], const ParallelMath::ScalarUInt16 blockBestSelectors[2], bool transparent);
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static const int g_flipTables[2][2][8];
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};
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}
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}
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#endif
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