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419b342a9a
Make BC6 and BC7 CVTT faster while still having better quality than DXT5.
347 lines
14 KiB
C++
347 lines
14 KiB
C++
/*
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Convection Texture Tools
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Copyright (c) 2018-2019 Eric Lasota
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Permission is hereby granted, free of charge, to any person obtaining
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a copy of this software and associated documentation files (the
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"Software"), to deal in the Software without restriction, including
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without limitation the rights to use, copy, modify, merge, publish,
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distribute, sublicense, and/or sell copies of the Software, and to
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permit persons to whom the Software is furnished to do so, subject
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to the following conditions:
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The above copyright notice and this permission notice shall be included
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in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#include "ConvectionKernels_Config.h"
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#if !defined(CVTT_SINGLE_FILE) || defined(CVTT_SINGLE_FILE_IMPL)
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#include <stdint.h>
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#include "ConvectionKernels.h"
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#include "ConvectionKernels_Util.h"
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#include "ConvectionKernels_BC67.h"
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#include "ConvectionKernels_ETC.h"
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#include "ConvectionKernels_S3TC.h"
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#include <assert.h>
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namespace cvtt
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{
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namespace Kernels
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{
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void EncodeBC7(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options, const BC7EncodingPlan &encodingPlan)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::BC7Computer::Pack(options.flags, pBlocks + blockBase, pBC, channelWeights, encodingPlan, options.refineRoundsBC7);
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pBC += ParallelMath::ParallelSize * 16;
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}
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}
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void EncodeBC6HU(uint8_t *pBC, const PixelBlockF16 *pBlocks, const cvtt::Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::BC6HComputer::Pack(options.flags, pBlocks + blockBase, pBC, channelWeights, false, options.seedPoints, options.refineRoundsBC6H);
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pBC += ParallelMath::ParallelSize * 16;
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}
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}
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void EncodeBC6HS(uint8_t *pBC, const PixelBlockF16 *pBlocks, const cvtt::Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::BC6HComputer::Pack(options.flags, pBlocks + blockBase, pBC, channelWeights, true, options.seedPoints, options.refineRoundsBC6H);
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pBC += ParallelMath::ParallelSize * 16;
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}
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}
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void EncodeBC1(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::S3TCComputer::PackRGB(options.flags, pBlocks + blockBase, pBC, 8, channelWeights, true, options.threshold, (options.flags & Flags::S3TC_Exhaustive) != 0, options.seedPoints, options.refineRoundsS3TC);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeBC2(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::S3TCComputer::PackRGB(options.flags, pBlocks + blockBase, pBC + 8, 16, channelWeights, false, 1.0f, (options.flags & Flags::S3TC_Exhaustive) != 0, options.seedPoints, options.refineRoundsS3TC);
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Internal::S3TCComputer::PackExplicitAlpha(options.flags, pBlocks + blockBase, 3, pBC, 16);
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pBC += ParallelMath::ParallelSize * 16;
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}
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}
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void EncodeBC3(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::S3TCComputer::PackRGB(options.flags, pBlocks + blockBase, pBC + 8, 16, channelWeights, false, 1.0f, (options.flags & Flags::S3TC_Exhaustive) != 0, options.seedPoints, options.refineRoundsS3TC);
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Internal::S3TCComputer::PackInterpolatedAlpha(options.flags, pBlocks + blockBase, 3, pBC, 16, false, options.seedPoints, options.refineRoundsIIC);
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pBC += ParallelMath::ParallelSize * 16;
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}
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}
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void EncodeBC4U(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::S3TCComputer::PackInterpolatedAlpha(options.flags, pBlocks + blockBase, 0, pBC, 8, false, options.seedPoints, options.refineRoundsIIC);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeBC4S(uint8_t *pBC, const PixelBlockS8 *pBlocks, const Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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PixelBlockU8 inputBlocks[ParallelMath::ParallelSize];
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Util::BiasSignedInput(inputBlocks, pBlocks + blockBase);
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Internal::S3TCComputer::PackInterpolatedAlpha(options.flags, inputBlocks, 0, pBC, 8, true, options.seedPoints, options.refineRoundsIIC);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeBC5U(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::S3TCComputer::PackInterpolatedAlpha(options.flags, pBlocks + blockBase, 0, pBC, 16, false, options.seedPoints, options.refineRoundsIIC);
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Internal::S3TCComputer::PackInterpolatedAlpha(options.flags, pBlocks + blockBase, 1, pBC + 8, 16, false, options.seedPoints, options.refineRoundsIIC);
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pBC += ParallelMath::ParallelSize * 16;
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}
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}
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void EncodeBC5S(uint8_t *pBC, const PixelBlockS8 *pBlocks, const Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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PixelBlockU8 inputBlocks[ParallelMath::ParallelSize];
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Util::BiasSignedInput(inputBlocks, pBlocks + blockBase);
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Internal::S3TCComputer::PackInterpolatedAlpha(options.flags, inputBlocks, 0, pBC, 16, true, options.seedPoints, options.refineRoundsIIC);
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Internal::S3TCComputer::PackInterpolatedAlpha(options.flags, inputBlocks, 1, pBC + 8, 16, true, options.seedPoints, options.refineRoundsIIC);
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pBC += ParallelMath::ParallelSize * 16;
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}
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}
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void EncodeETC1(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options, cvtt::ETC1CompressionData *compressionData)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::ETCComputer::CompressETC1Block(pBC, pBlocks + blockBase, compressionData, options);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeETC2(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options, cvtt::ETC2CompressionData *compressionData)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::ETCComputer::CompressETC2Block(pBC, pBlocks + blockBase, compressionData, options, false);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeETC2PunchthroughAlpha(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options, cvtt::ETC2CompressionData *compressionData)
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{
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assert(pBlocks);
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assert(pBC);
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float channelWeights[4];
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Util::FillWeights(options, channelWeights);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::ETCComputer::CompressETC2Block(pBC, pBlocks + blockBase, compressionData, options, true);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeETC2Alpha(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::ETCComputer::CompressETC2AlphaBlock(pBC, pBlocks + blockBase, options);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeETC2Alpha11(uint8_t *pBC, const PixelBlockScalarS16 *pBlocks, bool isSigned, const cvtt::Options &options)
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{
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assert(pBlocks);
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assert(pBC);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase += ParallelMath::ParallelSize)
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{
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Internal::ETCComputer::CompressEACBlock(pBC, pBlocks + blockBase, isSigned, options);
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pBC += ParallelMath::ParallelSize * 8;
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}
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}
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void EncodeETC2RGBA(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options, cvtt::ETC2CompressionData *compressionData)
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{
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uint8_t alphaBlockData[cvtt::NumParallelBlocks * 8];
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uint8_t colorBlockData[cvtt::NumParallelBlocks * 8];
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EncodeETC2(colorBlockData, pBlocks, options, compressionData);
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EncodeETC2Alpha(alphaBlockData, pBlocks, options);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase++)
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{
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for (size_t blockData = 0; blockData < 8; blockData++)
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pBC[blockBase * 16 + blockData] = alphaBlockData[blockBase * 8 + blockData];
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for (size_t blockData = 0; blockData < 8; blockData++)
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pBC[blockBase * 16 + 8 + blockData] = colorBlockData[blockBase * 8 + blockData];
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}
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}
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void DecodeBC7(PixelBlockU8 *pBlocks, const uint8_t *pBC)
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{
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assert(pBlocks);
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assert(pBC);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase++)
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{
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Internal::BC7Computer::UnpackOne(pBlocks[blockBase], pBC);
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pBC += 16;
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}
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}
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void DecodeBC6HU(PixelBlockF16 *pBlocks, const uint8_t *pBC)
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{
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assert(pBlocks);
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assert(pBC);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase++)
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{
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Internal::BC6HComputer::UnpackOne(pBlocks[blockBase], pBC, false);
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pBC += 16;
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}
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}
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void DecodeBC6HS(PixelBlockF16 *pBlocks, const uint8_t *pBC)
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{
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assert(pBlocks);
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assert(pBC);
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for (size_t blockBase = 0; blockBase < cvtt::NumParallelBlocks; blockBase++)
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{
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Internal::BC6HComputer::UnpackOne(pBlocks[blockBase], pBC, true);
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pBC += 16;
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}
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}
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ETC1CompressionData *AllocETC1Data(allocFunc_t allocFunc, void *context)
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{
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return cvtt::Internal::ETCComputer::AllocETC1Data(allocFunc, context);
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}
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void ReleaseETC1Data(ETC1CompressionData *compressionData, freeFunc_t freeFunc)
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{
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cvtt::Internal::ETCComputer::ReleaseETC1Data(compressionData, freeFunc);
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}
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ETC2CompressionData *AllocETC2Data(allocFunc_t allocFunc, void *context, const cvtt::Options &options)
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{
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return cvtt::Internal::ETCComputer::AllocETC2Data(allocFunc, context, options);
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}
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void ReleaseETC2Data(ETC2CompressionData *compressionData, freeFunc_t freeFunc)
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{
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cvtt::Internal::ETCComputer::ReleaseETC2Data(compressionData, freeFunc);
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}
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}
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}
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#endif
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