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419b342a9a
Make BC6 and BC7 CVTT faster while still having better quality than DXT5.
281 lines
11 KiB
C++
281 lines
11 KiB
C++
/*
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Convection Texture Tools
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Copyright (c) 2018 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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#pragma once
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#ifndef __CVTT_CONVECTION_KERNELS__
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#define __CVTT_CONVECTION_KERNELS__
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#include <stddef.h>
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#include <stdint.h>
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namespace cvtt
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{
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namespace Flags
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{
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// Use fast indexing in BC7 encoding (about 2x faster, slightly worse quality)
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const uint32_t BC7_FastIndexing = 0x008;
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// Try precomputed single-color lookups where applicable (slightly slower, small quality increase on specific blocks)
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const uint32_t BC7_TrySingleColor = 0x010;
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// Don't allow non-zero or non-max alpha values in blocks that only contain one or the other
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const uint32_t BC7_RespectPunchThrough = 0x020;
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// Use fast indexing in HDR formats (faster, worse quality)
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const uint32_t BC6H_FastIndexing = 0x040;
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// Exhaustive search RGB orderings when encoding BC1-BC3 (much slower, better quality)
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const uint32_t S3TC_Exhaustive = 0x080;
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// Penalize distant endpoints, improving quality on inaccurate GPU decoders
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const uint32_t S3TC_Paranoid = 0x100;
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// Uniform color channel importance
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const uint32_t Uniform = 0x200;
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// Use fake BT.709 color space for etc2comp compatibility (slower)
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const uint32_t ETC_UseFakeBT709 = 0x400;
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// Use accurate quantization functions when quantizing fake BT.709 (much slower, marginal improvement on specific blocks)
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const uint32_t ETC_FakeBT709Accurate = 0x800;
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// Misc useful default flag combinations
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const uint32_t Fastest = (BC6H_FastIndexing | BC7_FastIndexing | S3TC_Paranoid);
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const uint32_t Faster = (BC6H_FastIndexing | BC7_FastIndexing | S3TC_Paranoid);
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const uint32_t Fast = (BC7_FastIndexing | S3TC_Paranoid);
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const uint32_t Default = (BC7_FastIndexing | S3TC_Paranoid);
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const uint32_t Better = (S3TC_Paranoid | S3TC_Exhaustive);
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const uint32_t Ultra = (BC7_TrySingleColor | S3TC_Paranoid | S3TC_Exhaustive | ETC_FakeBT709Accurate);
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}
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const unsigned int NumParallelBlocks = 8;
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struct Options
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{
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uint32_t flags; // Bitmask of cvtt::Flags values
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float threshold; // Alpha test threshold for BC1
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float redWeight; // Red channel importance
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float greenWeight; // Green channel importance
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float blueWeight; // Blue channel importance
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float alphaWeight; // Alpha channel importance
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int refineRoundsBC7; // Number of refine rounds for BC7
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int refineRoundsBC6H; // Number of refine rounds for BC6H (max 3)
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int refineRoundsIIC; // Number of refine rounds for independent interpolated channels (BC3 alpha, BC4, BC5)
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int refineRoundsS3TC; // Number of refine rounds for S3TC RGB
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int seedPoints; // Number of seed points (min 1, max 4)
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Options()
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: flags(Flags::Default)
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, threshold(0.5f)
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, redWeight(0.2125f / 0.7154f)
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, greenWeight(1.0f)
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, blueWeight(0.0721f / 0.7154f)
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, alphaWeight(1.0f)
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, refineRoundsBC7(2)
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, refineRoundsBC6H(3)
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, refineRoundsIIC(8)
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, refineRoundsS3TC(2)
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, seedPoints(4)
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{
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}
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};
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struct BC7FineTuningParams
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{
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// Seed point counts for each mode+configuration combination
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uint8_t mode0SP[16];
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uint8_t mode1SP[64];
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uint8_t mode2SP[64];
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uint8_t mode3SP[64];
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uint8_t mode4SP[4][2];
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uint8_t mode5SP[4];
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uint8_t mode6SP;
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uint8_t mode7SP[64];
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BC7FineTuningParams()
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{
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for (int i = 0; i < 16; i++)
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this->mode0SP[i] = 4;
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for (int i = 0; i < 64; i++)
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{
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this->mode1SP[i] = 4;
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this->mode2SP[i] = 4;
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this->mode3SP[i] = 4;
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this->mode7SP[i] = 4;
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}
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for (int i = 0; i < 4; i++)
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{
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for (int j = 0; j < 2; j++)
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this->mode4SP[i][j] = 4;
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this->mode5SP[i] = 4;
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}
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this->mode6SP = 4;
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}
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};
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struct BC7EncodingPlan
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{
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static const int kNumRGBAShapes = 129;
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static const int kNumRGBShapes = 243;
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uint64_t mode1PartitionEnabled;
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uint64_t mode2PartitionEnabled;
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uint64_t mode3PartitionEnabled;
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uint16_t mode0PartitionEnabled;
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uint64_t mode7RGBAPartitionEnabled;
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uint64_t mode7RGBPartitionEnabled;
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uint8_t mode4SP[4][2];
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uint8_t mode5SP[4];
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bool mode6Enabled;
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uint8_t seedPointsForShapeRGB[kNumRGBShapes];
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uint8_t seedPointsForShapeRGBA[kNumRGBAShapes];
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uint8_t rgbaShapeList[kNumRGBAShapes];
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uint8_t rgbaNumShapesToEvaluate;
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uint8_t rgbShapeList[kNumRGBShapes];
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uint8_t rgbNumShapesToEvaluate;
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BC7EncodingPlan()
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{
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for (int i = 0; i < kNumRGBShapes; i++)
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{
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this->rgbShapeList[i] = i;
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this->seedPointsForShapeRGB[i] = 4;
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}
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this->rgbNumShapesToEvaluate = kNumRGBShapes;
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for (int i = 0; i < kNumRGBAShapes; i++)
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{
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this->rgbaShapeList[i] = i;
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this->seedPointsForShapeRGBA[i] = 4;
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}
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this->rgbaNumShapesToEvaluate = kNumRGBAShapes;
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this->mode0PartitionEnabled = 0xffff;
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this->mode1PartitionEnabled = 0xffffffffffffffffULL;
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this->mode2PartitionEnabled = 0xffffffffffffffffULL;
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this->mode3PartitionEnabled = 0xffffffffffffffffULL;
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this->mode6Enabled = true;
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this->mode7RGBPartitionEnabled = 0xffffffffffffffffULL;
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this->mode7RGBAPartitionEnabled = 0xffffffffffffffffULL;
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for (int i = 0; i < 4; i++)
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{
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for (int j = 0; j < 2; j++)
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this->mode4SP[i][j] = 4;
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this->mode5SP[i] = 4;
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}
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}
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};
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// RGBA input block for unsigned 8-bit formats
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struct PixelBlockU8
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{
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uint8_t m_pixels[16][4];
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};
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// RGBA input block for signed 8-bit formats
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struct PixelBlockS8
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{
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int8_t m_pixels[16][4];
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};
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struct PixelBlockScalarS16
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{
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int16_t m_pixels[16];
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};
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// RGBA input block for half-precision float formats (bit-cast to int16_t)
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struct PixelBlockF16
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{
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int16_t m_pixels[16][4];
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};
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class ETC2CompressionData
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{
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protected:
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ETC2CompressionData() {}
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};
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class ETC1CompressionData
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{
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protected:
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ETC1CompressionData() {}
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};
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namespace Kernels
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{
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typedef void* allocFunc_t(void *context, size_t size);
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typedef void freeFunc_t(void *context, void* ptr, size_t size);
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// NOTE: All functions accept and output NumParallelBlocks blocks at once
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void EncodeBC1(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options);
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void EncodeBC2(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options);
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void EncodeBC3(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options);
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void EncodeBC4U(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options);
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void EncodeBC4S(uint8_t *pBC, const PixelBlockS8 *pBlocks, const Options &options);
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void EncodeBC5U(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options);
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void EncodeBC5S(uint8_t *pBC, const PixelBlockS8 *pBlocks, const Options &options);
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void EncodeBC6HU(uint8_t *pBC, const PixelBlockF16 *pBlocks, const Options &options);
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void EncodeBC6HS(uint8_t *pBC, const PixelBlockF16 *pBlocks, const Options &options);
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void EncodeBC7(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options, const BC7EncodingPlan &encodingPlan);
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void EncodeETC1(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options, ETC1CompressionData *compressionData);
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void EncodeETC2(uint8_t *pBC, const PixelBlockU8 *pBlocks, const Options &options, ETC2CompressionData *compressionData);
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void EncodeETC2RGBA(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options, cvtt::ETC2CompressionData *compressionData);
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void EncodeETC2PunchthroughAlpha(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options, cvtt::ETC2CompressionData *compressionData);
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void EncodeETC2Alpha(uint8_t *pBC, const PixelBlockU8 *pBlocks, const cvtt::Options &options);
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void EncodeETC2Alpha11(uint8_t *pBC, const PixelBlockScalarS16 *pBlocks, bool isSigned, const cvtt::Options &options);
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// Generates a BC7 encoding plan from a quality parameter that ranges from 1 (fastest) to 100 (best)
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void ConfigureBC7EncodingPlanFromQuality(BC7EncodingPlan &encodingPlan, int quality);
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// Generates a BC7 encoding plan from fine-tuning parameters.
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bool ConfigureBC7EncodingPlanFromFineTuningParams(BC7EncodingPlan &encodingPlan, const BC7FineTuningParams ¶ms);
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// ETC compression requires temporary storage that normally consumes a large amount of stack space.
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// To allocate and release it, use one of these functions.
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ETC2CompressionData *AllocETC2Data(allocFunc_t allocFunc, void *context, const cvtt::Options &options);
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void ReleaseETC2Data(ETC2CompressionData *compressionData, freeFunc_t freeFunc);
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ETC1CompressionData *AllocETC1Data(allocFunc_t allocFunc, void *context);
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void ReleaseETC1Data(ETC1CompressionData *compressionData, freeFunc_t freeFunc);
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void DecodeBC6HU(PixelBlockF16 *pBlocks, const uint8_t *pBC);
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void DecodeBC6HS(PixelBlockF16 *pBlocks, const uint8_t *pBC);
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void DecodeBC7(PixelBlockU8 *pBlocks, const uint8_t *pBC);
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}
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}
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#endif
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