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Diffstat (limited to 'src/3rdparty/angle/src/image_util/loadimage_etc.cpp')
| -rw-r--r-- | src/3rdparty/angle/src/image_util/loadimage_etc.cpp | 1729 |
1 files changed, 0 insertions, 1729 deletions
diff --git a/src/3rdparty/angle/src/image_util/loadimage_etc.cpp b/src/3rdparty/angle/src/image_util/loadimage_etc.cpp deleted file mode 100644 index 67f73837c0..0000000000 --- a/src/3rdparty/angle/src/image_util/loadimage_etc.cpp +++ /dev/null @@ -1,1729 +0,0 @@ -// -// Copyright (c) 2013-2015 The ANGLE Project Authors. All rights reserved. -// Use of this source code is governed by a BSD-style license that can be -// found in the LICENSE file. -// - -// loadimage_etc.cpp: Decodes ETC and EAC encoded textures. - -#include "image_util/loadimage.h" - -#include "common/mathutil.h" - -#include "image_util/imageformats.h" - -namespace angle -{ -namespace -{ - -using IntensityModifier = const int[4]; - -// Table 3.17.2 sorted according to table 3.17.3 -// clang-format off -static IntensityModifier intensityModifierDefault[] = -{ - { 2, 8, -2, -8 }, - { 5, 17, -5, -17 }, - { 9, 29, -9, -29 }, - { 13, 42, -13, -42 }, - { 18, 60, -18, -60 }, - { 24, 80, -24, -80 }, - { 33, 106, -33, -106 }, - { 47, 183, -47, -183 }, -}; -// clang-format on - -// Table C.12, intensity modifier for non opaque punchthrough alpha -// clang-format off -static IntensityModifier intensityModifierNonOpaque[] = -{ - { 0, 8, 0, -8 }, - { 0, 17, 0, -17 }, - { 0, 29, 0, -29 }, - { 0, 42, 0, -42 }, - { 0, 60, 0, -60 }, - { 0, 80, 0, -80 }, - { 0, 106, 0, -106 }, - { 0, 183, 0, -183 }, -}; -// clang-format on - -static const int kNumPixelsInBlock = 16; - -struct ETC2Block -{ - // Decodes unsigned single or dual channel block to bytes - void decodeAsSingleChannel(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destPixelStride, - size_t destRowPitch, - bool isSigned) const - { - for (size_t j = 0; j < 4 && (y + j) < h; j++) - { - uint8_t *row = dest + (j * destRowPitch); - for (size_t i = 0; i < 4 && (x + i) < w; i++) - { - uint8_t *pixel = row + (i * destPixelStride); - if (isSigned) - { - *pixel = clampSByte(getSingleChannel(i, j, isSigned)); - } - else - { - *pixel = clampByte(getSingleChannel(i, j, isSigned)); - } - } - } - } - - // Decodes RGB block to rgba8 - void decodeAsRGB(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destRowPitch, - const uint8_t alphaValues[4][4], - bool punchThroughAlpha) const - { - bool opaqueBit = u.idht.mode.idm.diffbit; - bool nonOpaquePunchThroughAlpha = punchThroughAlpha && !opaqueBit; - // Select mode - if (u.idht.mode.idm.diffbit || punchThroughAlpha) - { - const auto &block = u.idht.mode.idm.colors.diff; - int r = (block.R + block.dR); - int g = (block.G + block.dG); - int b = (block.B + block.dB); - if (r < 0 || r > 31) - { - decodeTBlock(dest, x, y, w, h, destRowPitch, alphaValues, - nonOpaquePunchThroughAlpha); - } - else if (g < 0 || g > 31) - { - decodeHBlock(dest, x, y, w, h, destRowPitch, alphaValues, - nonOpaquePunchThroughAlpha); - } - else if (b < 0 || b > 31) - { - decodePlanarBlock(dest, x, y, w, h, destRowPitch, alphaValues); - } - else - { - decodeDifferentialBlock(dest, x, y, w, h, destRowPitch, alphaValues, - nonOpaquePunchThroughAlpha); - } - } - else - { - decodeIndividualBlock(dest, x, y, w, h, destRowPitch, alphaValues, - nonOpaquePunchThroughAlpha); - } - } - - // Transcodes RGB block to BC1 - void transcodeAsBC1(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - const uint8_t alphaValues[4][4], - bool punchThroughAlpha) const - { - bool opaqueBit = u.idht.mode.idm.diffbit; - bool nonOpaquePunchThroughAlpha = punchThroughAlpha && !opaqueBit; - // Select mode - if (u.idht.mode.idm.diffbit || punchThroughAlpha) - { - const auto &block = u.idht.mode.idm.colors.diff; - int r = (block.R + block.dR); - int g = (block.G + block.dG); - int b = (block.B + block.dB); - if (r < 0 || r > 31) - { - transcodeTBlockToBC1(dest, x, y, w, h, alphaValues, nonOpaquePunchThroughAlpha); - } - else if (g < 0 || g > 31) - { - transcodeHBlockToBC1(dest, x, y, w, h, alphaValues, nonOpaquePunchThroughAlpha); - } - else if (b < 0 || b > 31) - { - transcodePlanarBlockToBC1(dest, x, y, w, h, alphaValues); - } - else - { - transcodeDifferentialBlockToBC1(dest, x, y, w, h, alphaValues, - nonOpaquePunchThroughAlpha); - } - } - else - { - transcodeIndividualBlockToBC1(dest, x, y, w, h, alphaValues, - nonOpaquePunchThroughAlpha); - } - } - - private: - union { - // Individual, differential, H and T modes - struct - { - union { - // Individual and differential modes - struct - { - union { - struct // Individual colors - { - unsigned char R2 : 4; - unsigned char R1 : 4; - unsigned char G2 : 4; - unsigned char G1 : 4; - unsigned char B2 : 4; - unsigned char B1 : 4; - } indiv; - struct // Differential colors - { - signed char dR : 3; - unsigned char R : 5; - signed char dG : 3; - unsigned char G : 5; - signed char dB : 3; - unsigned char B : 5; - } diff; - } colors; - bool flipbit : 1; - bool diffbit : 1; - unsigned char cw2 : 3; - unsigned char cw1 : 3; - } idm; - // T mode - struct - { - // Byte 1 - unsigned char TR1b : 2; - unsigned char TdummyB : 1; - unsigned char TR1a : 2; - unsigned char TdummyA : 3; - // Byte 2 - unsigned char TB1 : 4; - unsigned char TG1 : 4; - // Byte 3 - unsigned char TG2 : 4; - unsigned char TR2 : 4; - // Byte 4 - unsigned char Tdb : 1; - bool Tflipbit : 1; - unsigned char Tda : 2; - unsigned char TB2 : 4; - } tm; - // H mode - struct - { - // Byte 1 - unsigned char HG1a : 3; - unsigned char HR1 : 4; - unsigned char HdummyA : 1; - // Byte 2 - unsigned char HB1b : 2; - unsigned char HdummyC : 1; - unsigned char HB1a : 1; - unsigned char HG1b : 1; - unsigned char HdummyB : 3; - // Byte 3 - unsigned char HG2a : 3; - unsigned char HR2 : 4; - unsigned char HB1c : 1; - // Byte 4 - unsigned char Hdb : 1; - bool Hflipbit : 1; - unsigned char Hda : 1; - unsigned char HB2 : 4; - unsigned char HG2b : 1; - } hm; - } mode; - unsigned char pixelIndexMSB[2]; - unsigned char pixelIndexLSB[2]; - } idht; - // planar mode - struct - { - // Byte 1 - unsigned char GO1 : 1; - unsigned char RO : 6; - unsigned char PdummyA : 1; - // Byte 2 - unsigned char BO1 : 1; - unsigned char GO2 : 6; - unsigned char PdummyB : 1; - // Byte 3 - unsigned char BO3a : 2; - unsigned char PdummyD : 1; - unsigned char BO2 : 2; - unsigned char PdummyC : 3; - // Byte 4 - unsigned char RH2 : 1; - bool Pflipbit : 1; - unsigned char RH1 : 5; - unsigned char BO3b : 1; - // Byte 5 - unsigned char BHa : 1; - unsigned char GH : 7; - // Byte 6 - unsigned char RVa : 3; - unsigned char BHb : 5; - // Byte 7 - unsigned char GVa : 5; - unsigned char RVb : 3; - // Byte 8 - unsigned char BV : 6; - unsigned char GVb : 2; - } pblk; - // Single channel block - struct - { - union { - unsigned char us; - signed char s; - } base_codeword; - unsigned char table_index : 4; - unsigned char multiplier : 4; - unsigned char mc1 : 2; - unsigned char mb : 3; - unsigned char ma : 3; - unsigned char mf1 : 1; - unsigned char me : 3; - unsigned char md : 3; - unsigned char mc2 : 1; - unsigned char mh : 3; - unsigned char mg : 3; - unsigned char mf2 : 2; - unsigned char mk1 : 2; - unsigned char mj : 3; - unsigned char mi : 3; - unsigned char mn1 : 1; - unsigned char mm : 3; - unsigned char ml : 3; - unsigned char mk2 : 1; - unsigned char mp : 3; - unsigned char mo : 3; - unsigned char mn2 : 2; - } scblk; - } u; - - static unsigned char clampByte(int value) - { - return static_cast<unsigned char>(gl::clamp(value, 0, 255)); - } - - static signed char clampSByte(int value) - { - return static_cast<signed char>(gl::clamp(value, -128, 127)); - } - - static R8G8B8A8 createRGBA(int red, int green, int blue, int alpha) - { - R8G8B8A8 rgba; - rgba.R = clampByte(red); - rgba.G = clampByte(green); - rgba.B = clampByte(blue); - rgba.A = clampByte(alpha); - return rgba; - } - - static R8G8B8A8 createRGBA(int red, int green, int blue) - { - return createRGBA(red, green, blue, 255); - } - - static int extend_4to8bits(int x) { return (x << 4) | x; } - static int extend_5to8bits(int x) { return (x << 3) | (x >> 2); } - static int extend_6to8bits(int x) { return (x << 2) | (x >> 4); } - static int extend_7to8bits(int x) { return (x << 1) | (x >> 6); } - - void decodeIndividualBlock(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destRowPitch, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - const auto &block = u.idht.mode.idm.colors.indiv; - int r1 = extend_4to8bits(block.R1); - int g1 = extend_4to8bits(block.G1); - int b1 = extend_4to8bits(block.B1); - int r2 = extend_4to8bits(block.R2); - int g2 = extend_4to8bits(block.G2); - int b2 = extend_4to8bits(block.B2); - decodeIndividualOrDifferentialBlock(dest, x, y, w, h, destRowPitch, r1, g1, b1, r2, g2, b2, - alphaValues, nonOpaquePunchThroughAlpha); - } - - void decodeDifferentialBlock(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destRowPitch, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - const auto &block = u.idht.mode.idm.colors.diff; - int b1 = extend_5to8bits(block.B); - int g1 = extend_5to8bits(block.G); - int r1 = extend_5to8bits(block.R); - int r2 = extend_5to8bits(block.R + block.dR); - int g2 = extend_5to8bits(block.G + block.dG); - int b2 = extend_5to8bits(block.B + block.dB); - decodeIndividualOrDifferentialBlock(dest, x, y, w, h, destRowPitch, r1, g1, b1, r2, g2, b2, - alphaValues, nonOpaquePunchThroughAlpha); - } - - void decodeIndividualOrDifferentialBlock(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destRowPitch, - int r1, - int g1, - int b1, - int r2, - int g2, - int b2, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - const IntensityModifier *intensityModifier = - nonOpaquePunchThroughAlpha ? intensityModifierNonOpaque : intensityModifierDefault; - - R8G8B8A8 subblockColors0[4]; - R8G8B8A8 subblockColors1[4]; - for (size_t modifierIdx = 0; modifierIdx < 4; modifierIdx++) - { - const int i1 = intensityModifier[u.idht.mode.idm.cw1][modifierIdx]; - subblockColors0[modifierIdx] = createRGBA(r1 + i1, g1 + i1, b1 + i1); - - const int i2 = intensityModifier[u.idht.mode.idm.cw2][modifierIdx]; - subblockColors1[modifierIdx] = createRGBA(r2 + i2, g2 + i2, b2 + i2); - } - - if (u.idht.mode.idm.flipbit) - { - uint8_t *curPixel = dest; - for (size_t j = 0; j < 2 && (y + j) < h; j++) - { - R8G8B8A8 *row = reinterpret_cast<R8G8B8A8 *>(curPixel); - for (size_t i = 0; i < 4 && (x + i) < w; i++) - { - row[i] = subblockColors0[getIndex(i, j)]; - row[i].A = alphaValues[j][i]; - } - curPixel += destRowPitch; - } - for (size_t j = 2; j < 4 && (y + j) < h; j++) - { - R8G8B8A8 *row = reinterpret_cast<R8G8B8A8 *>(curPixel); - for (size_t i = 0; i < 4 && (x + i) < w; i++) - { - row[i] = subblockColors1[getIndex(i, j)]; - row[i].A = alphaValues[j][i]; - } - curPixel += destRowPitch; - } - } - else - { - uint8_t *curPixel = dest; - for (size_t j = 0; j < 4 && (y + j) < h; j++) - { - R8G8B8A8 *row = reinterpret_cast<R8G8B8A8 *>(curPixel); - for (size_t i = 0; i < 2 && (x + i) < w; i++) - { - row[i] = subblockColors0[getIndex(i, j)]; - row[i].A = alphaValues[j][i]; - } - for (size_t i = 2; i < 4 && (x + i) < w; i++) - { - row[i] = subblockColors1[getIndex(i, j)]; - row[i].A = alphaValues[j][i]; - } - curPixel += destRowPitch; - } - } - if (nonOpaquePunchThroughAlpha) - { - decodePunchThroughAlphaBlock(dest, x, y, w, h, destRowPitch); - } - } - - void decodeTBlock(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destRowPitch, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - // Table C.8, distance index for T and H modes - const auto &block = u.idht.mode.tm; - - int r1 = extend_4to8bits(block.TR1a << 2 | block.TR1b); - int g1 = extend_4to8bits(block.TG1); - int b1 = extend_4to8bits(block.TB1); - int r2 = extend_4to8bits(block.TR2); - int g2 = extend_4to8bits(block.TG2); - int b2 = extend_4to8bits(block.TB2); - - static int distance[8] = {3, 6, 11, 16, 23, 32, 41, 64}; - const int d = distance[block.Tda << 1 | block.Tdb]; - - const R8G8B8A8 paintColors[4] = { - createRGBA(r1, g1, b1), createRGBA(r2 + d, g2 + d, b2 + d), createRGBA(r2, g2, b2), - createRGBA(r2 - d, g2 - d, b2 - d), - }; - - uint8_t *curPixel = dest; - for (size_t j = 0; j < 4 && (y + j) < h; j++) - { - R8G8B8A8 *row = reinterpret_cast<R8G8B8A8 *>(curPixel); - for (size_t i = 0; i < 4 && (x + i) < w; i++) - { - row[i] = paintColors[getIndex(i, j)]; - row[i].A = alphaValues[j][i]; - } - curPixel += destRowPitch; - } - - if (nonOpaquePunchThroughAlpha) - { - decodePunchThroughAlphaBlock(dest, x, y, w, h, destRowPitch); - } - } - - void decodeHBlock(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destRowPitch, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - // Table C.8, distance index for T and H modes - const auto &block = u.idht.mode.hm; - - int r1 = extend_4to8bits(block.HR1); - int g1 = extend_4to8bits(block.HG1a << 1 | block.HG1b); - int b1 = extend_4to8bits(block.HB1a << 3 | block.HB1b << 1 | block.HB1c); - int r2 = extend_4to8bits(block.HR2); - int g2 = extend_4to8bits(block.HG2a << 1 | block.HG2b); - int b2 = extend_4to8bits(block.HB2); - - static const int distance[8] = {3, 6, 11, 16, 23, 32, 41, 64}; - const int orderingTrickBit = - ((r1 << 16 | g1 << 8 | b1) >= (r2 << 16 | g2 << 8 | b2) ? 1 : 0); - const int d = distance[(block.Hda << 2) | (block.Hdb << 1) | orderingTrickBit]; - - const R8G8B8A8 paintColors[4] = { - createRGBA(r1 + d, g1 + d, b1 + d), createRGBA(r1 - d, g1 - d, b1 - d), - createRGBA(r2 + d, g2 + d, b2 + d), createRGBA(r2 - d, g2 - d, b2 - d), - }; - - uint8_t *curPixel = dest; - for (size_t j = 0; j < 4 && (y + j) < h; j++) - { - R8G8B8A8 *row = reinterpret_cast<R8G8B8A8 *>(curPixel); - for (size_t i = 0; i < 4 && (x + i) < w; i++) - { - row[i] = paintColors[getIndex(i, j)]; - row[i].A = alphaValues[j][i]; - } - curPixel += destRowPitch; - } - - if (nonOpaquePunchThroughAlpha) - { - decodePunchThroughAlphaBlock(dest, x, y, w, h, destRowPitch); - } - } - - void decodePlanarBlock(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t pitch, - const uint8_t alphaValues[4][4]) const - { - int ro = extend_6to8bits(u.pblk.RO); - int go = extend_7to8bits(u.pblk.GO1 << 6 | u.pblk.GO2); - int bo = - extend_6to8bits(u.pblk.BO1 << 5 | u.pblk.BO2 << 3 | u.pblk.BO3a << 1 | u.pblk.BO3b); - int rh = extend_6to8bits(u.pblk.RH1 << 1 | u.pblk.RH2); - int gh = extend_7to8bits(u.pblk.GH); - int bh = extend_6to8bits(u.pblk.BHa << 5 | u.pblk.BHb); - int rv = extend_6to8bits(u.pblk.RVa << 3 | u.pblk.RVb); - int gv = extend_7to8bits(u.pblk.GVa << 2 | u.pblk.GVb); - int bv = extend_6to8bits(u.pblk.BV); - - uint8_t *curPixel = dest; - for (size_t j = 0; j < 4 && (y + j) < h; j++) - { - R8G8B8A8 *row = reinterpret_cast<R8G8B8A8 *>(curPixel); - - int ry = static_cast<int>(j) * (rv - ro) + 2; - int gy = static_cast<int>(j) * (gv - go) + 2; - int by = static_cast<int>(j) * (bv - bo) + 2; - for (size_t i = 0; i < 4 && (x + i) < w; i++) - { - row[i] = createRGBA(((static_cast<int>(i) * (rh - ro) + ry) >> 2) + ro, - ((static_cast<int>(i) * (gh - go) + gy) >> 2) + go, - ((static_cast<int>(i) * (bh - bo) + by) >> 2) + bo, - alphaValues[j][i]); - } - curPixel += pitch; - } - } - - // Index for individual, differential, H and T modes - size_t getIndex(size_t x, size_t y) const - { - size_t bitIndex = x * 4 + y; - size_t bitOffset = bitIndex & 7; - size_t lsb = (u.idht.pixelIndexLSB[1 - (bitIndex >> 3)] >> bitOffset) & 1; - size_t msb = (u.idht.pixelIndexMSB[1 - (bitIndex >> 3)] >> bitOffset) & 1; - return (msb << 1) | lsb; - } - - void decodePunchThroughAlphaBlock(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - size_t destRowPitch) const - { - uint8_t *curPixel = dest; - for (size_t j = 0; j < 4 && (y + j) < h; j++) - { - R8G8B8A8 *row = reinterpret_cast<R8G8B8A8 *>(curPixel); - for (size_t i = 0; i < 4 && (x + i) < w; i++) - { - if (getIndex(i, j) == 2) // msb == 1 && lsb == 0 - { - row[i] = createRGBA(0, 0, 0, 0); - } - } - curPixel += destRowPitch; - } - } - - uint16_t RGB8ToRGB565(const R8G8B8A8 &rgba) const - { - return (static_cast<uint16_t>(rgba.R >> 3) << 11) | - (static_cast<uint16_t>(rgba.G >> 2) << 5) | - (static_cast<uint16_t>(rgba.B >> 3) << 0); - } - - uint32_t matchBC1Bits(const int *pixelIndices, - const int *pixelIndexCounts, - const R8G8B8A8 *subblockColors, - size_t numColors, - const R8G8B8A8 &minColor, - const R8G8B8A8 &maxColor, - bool nonOpaquePunchThroughAlpha) const - { - // Project each pixel on the (maxColor, minColor) line to decide which - // BC1 code to assign to it. - - uint8_t decodedColors[2][3] = {{maxColor.R, maxColor.G, maxColor.B}, - {minColor.R, minColor.G, minColor.B}}; - - int direction[3]; - for (int ch = 0; ch < 3; ch++) - { - direction[ch] = decodedColors[0][ch] - decodedColors[1][ch]; - } - - int stops[2]; - for (int i = 0; i < 2; i++) - { - stops[i] = decodedColors[i][0] * direction[0] + decodedColors[i][1] * direction[1] + - decodedColors[i][2] * direction[2]; - } - - ASSERT(numColors <= kNumPixelsInBlock); - - int encodedColors[kNumPixelsInBlock]; - if (nonOpaquePunchThroughAlpha) - { - for (size_t i = 0; i < numColors; i++) - { - const int count = pixelIndexCounts[i]; - if (count > 0) - { - // In non-opaque mode, 3 is for tranparent pixels. - - if (0 == subblockColors[i].A) - { - encodedColors[i] = 3; - } - else - { - const R8G8B8A8 &pixel = subblockColors[i]; - const int dot = pixel.R * direction[0] + pixel.G * direction[1] + - pixel.B * direction[2]; - const int factor = gl::clamp( - static_cast<int>( - (static_cast<float>(dot - stops[1]) / (stops[0] - stops[1])) * 2 + - 0.5f), - 0, 2); - switch (factor) - { - case 0: - encodedColors[i] = 0; - break; - case 1: - encodedColors[i] = 2; - break; - case 2: - default: - encodedColors[i] = 1; - break; - } - } - } - } - } - else - { - for (size_t i = 0; i < numColors; i++) - { - const int count = pixelIndexCounts[i]; - if (count > 0) - { - // In opaque mode, the code is from 0 to 3. - - const R8G8B8A8 &pixel = subblockColors[i]; - const int dot = - pixel.R * direction[0] + pixel.G * direction[1] + pixel.B * direction[2]; - const int factor = gl::clamp( - static_cast<int>( - (static_cast<float>(dot - stops[1]) / (stops[0] - stops[1])) * 3 + - 0.5f), - 0, 3); - switch (factor) - { - case 0: - encodedColors[i] = 1; - break; - case 1: - encodedColors[i] = 3; - break; - case 2: - encodedColors[i] = 2; - break; - case 3: - default: - encodedColors[i] = 0; - break; - } - } - } - } - - uint32_t bits = 0; - for (int i = kNumPixelsInBlock - 1; i >= 0; i--) - { - bits <<= 2; - bits |= encodedColors[pixelIndices[i]]; - } - - return bits; - } - - void packBC1(void *bc1, - const int *pixelIndices, - const int *pixelIndexCounts, - const R8G8B8A8 *subblockColors, - size_t numColors, - int minColorIndex, - int maxColorIndex, - bool nonOpaquePunchThroughAlpha) const - { - const R8G8B8A8 &minColor = subblockColors[minColorIndex]; - const R8G8B8A8 &maxColor = subblockColors[maxColorIndex]; - - uint32_t bits; - uint16_t max16 = RGB8ToRGB565(maxColor); - uint16_t min16 = RGB8ToRGB565(minColor); - if (max16 != min16) - { - // Find the best BC1 code for each pixel - bits = matchBC1Bits(pixelIndices, pixelIndexCounts, subblockColors, numColors, minColor, - maxColor, nonOpaquePunchThroughAlpha); - } - else - { - // Same colors, BC1 index 0 is the color in both opaque and transparent mode - bits = 0; - // BC1 index 3 is transparent - if (nonOpaquePunchThroughAlpha) - { - for (int i = 0; i < kNumPixelsInBlock; i++) - { - if (0 == subblockColors[pixelIndices[i]].A) - { - bits |= (3 << (i * 2)); - } - } - } - } - - if (max16 < min16) - { - std::swap(max16, min16); - - uint32_t xorMask = 0; - if (nonOpaquePunchThroughAlpha) - { - // In transparent mode switching the colors is doing the - // following code swap: 0 <-> 1. 0xA selects the second bit of - // each code, bits >> 1 selects the first bit of the code when - // the seconds bit is set (case 2 and 3). We invert all the - // non-selected bits, that is the first bit when the code is - // 0 or 1. - xorMask = ~((bits >> 1) | 0xAAAAAAAA); - } - else - { - // In opaque mode switching the two colors is doing the - // following code swaps: 0 <-> 1 and 2 <-> 3. This is - // equivalent to flipping the first bit of each code - // (5 = 0b0101) - xorMask = 0x55555555; - } - bits ^= xorMask; - } - - struct BC1Block - { - uint16_t color0; - uint16_t color1; - uint32_t bits; - }; - - // Encode the opaqueness in the order of the two BC1 colors - BC1Block *dest = reinterpret_cast<BC1Block *>(bc1); - if (nonOpaquePunchThroughAlpha) - { - dest->color0 = min16; - dest->color1 = max16; - } - else - { - dest->color0 = max16; - dest->color1 = min16; - } - dest->bits = bits; - } - - void transcodeIndividualBlockToBC1(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - const auto &block = u.idht.mode.idm.colors.indiv; - int r1 = extend_4to8bits(block.R1); - int g1 = extend_4to8bits(block.G1); - int b1 = extend_4to8bits(block.B1); - int r2 = extend_4to8bits(block.R2); - int g2 = extend_4to8bits(block.G2); - int b2 = extend_4to8bits(block.B2); - transcodeIndividualOrDifferentialBlockToBC1(dest, x, y, w, h, r1, g1, b1, r2, g2, b2, - alphaValues, nonOpaquePunchThroughAlpha); - } - - void transcodeDifferentialBlockToBC1(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - const auto &block = u.idht.mode.idm.colors.diff; - int b1 = extend_5to8bits(block.B); - int g1 = extend_5to8bits(block.G); - int r1 = extend_5to8bits(block.R); - int r2 = extend_5to8bits(block.R + block.dR); - int g2 = extend_5to8bits(block.G + block.dG); - int b2 = extend_5to8bits(block.B + block.dB); - transcodeIndividualOrDifferentialBlockToBC1(dest, x, y, w, h, r1, g1, b1, r2, g2, b2, - alphaValues, nonOpaquePunchThroughAlpha); - } - - void extractPixelIndices(int *pixelIndices, - int *pixelIndicesCounts, - size_t x, - size_t y, - size_t w, - size_t h, - bool flipbit, - size_t subblockIdx) const - { - size_t dxBegin = 0; - size_t dxEnd = 4; - size_t dyBegin = subblockIdx * 2; - size_t dyEnd = dyBegin + 2; - if (!flipbit) - { - std::swap(dxBegin, dyBegin); - std::swap(dxEnd, dyEnd); - } - - for (size_t j = dyBegin; j < dyEnd; j++) - { - int *row = &pixelIndices[j * 4]; - for (size_t i = dxBegin; i < dxEnd; i++) - { - const size_t pixelIndex = subblockIdx * 4 + getIndex(i, j); - row[i] = static_cast<int>(pixelIndex); - pixelIndicesCounts[pixelIndex]++; - } - } - } - - void selectEndPointPCA(const int *pixelIndexCounts, - const R8G8B8A8 *subblockColors, - size_t numColors, - int *minColorIndex, - int *maxColorIndex) const - { - // determine color distribution - int mu[3], min[3], max[3]; - for (int ch = 0; ch < 3; ch++) - { - int muv = 0; - int minv = 255; - int maxv = 0; - for (size_t i = 0; i < numColors; i++) - { - const int count = pixelIndexCounts[i]; - if (count > 0) - { - const auto &pixel = subblockColors[i]; - if (pixel.A > 0) - { - // Non-transparent pixels - muv += (&pixel.R)[ch] * count; - minv = std::min<int>(minv, (&pixel.R)[ch]); - maxv = std::max<int>(maxv, (&pixel.R)[ch]); - } - } - } - - mu[ch] = (muv + kNumPixelsInBlock / 2) / kNumPixelsInBlock; - min[ch] = minv; - max[ch] = maxv; - } - - // determine covariance matrix - int cov[6] = {0, 0, 0, 0, 0, 0}; - for (size_t i = 0; i < numColors; i++) - { - const int count = pixelIndexCounts[i]; - if (count > 0) - { - const auto &pixel = subblockColors[i]; - if (pixel.A > 0) - { - int r = pixel.R - mu[0]; - int g = pixel.G - mu[1]; - int b = pixel.B - mu[2]; - - cov[0] += r * r * count; - cov[1] += r * g * count; - cov[2] += r * b * count; - cov[3] += g * g * count; - cov[4] += g * b * count; - cov[5] += b * b * count; - } - } - } - - // Power iteration algorithm to get the eigenvalues and eigenvector - - // Starts with diagonal vector - float vfr = static_cast<float>(max[0] - min[0]); - float vfg = static_cast<float>(max[1] - min[1]); - float vfb = static_cast<float>(max[2] - min[2]); - float eigenvalue; - - static const size_t kPowerIterations = 4; - for (size_t i = 0; i < kPowerIterations; i++) - { - float r = vfr * cov[0] + vfg * cov[1] + vfb * cov[2]; - float g = vfr * cov[1] + vfg * cov[3] + vfb * cov[4]; - float b = vfr * cov[2] + vfg * cov[4] + vfb * cov[5]; - - vfr = r; - vfg = g; - vfb = b; - - eigenvalue = sqrt(r * r + g * g + b * b); - if (eigenvalue > 0) - { - float invNorm = 1.0f / eigenvalue; - vfr *= invNorm; - vfg *= invNorm; - vfb *= invNorm; - } - } - - int vr, vg, vb; - - static const float kDefaultLuminanceThreshold = 4.0f * 255; - static const float kQuantizeRange = 512.0f; - if (eigenvalue < kDefaultLuminanceThreshold) // too small, default to luminance - { - // Luminance weights defined by ITU-R Recommendation BT.601, scaled by 1000 - vr = 299; - vg = 587; - vb = 114; - } - else - { - // From the eigenvalue and eigenvector, choose the axis to project - // colors on. When projecting colors we want to do integer computations - // for speed, so we normalize the eigenvector to the [0, 512] range. - float magn = std::max(std::max(std::abs(vfr), std::abs(vfg)), std::abs(vfb)); - magn = kQuantizeRange / magn; - vr = static_cast<int>(vfr * magn); - vg = static_cast<int>(vfg * magn); - vb = static_cast<int>(vfb * magn); - } - - // Pick colors at extreme points - int minD = INT_MAX; - int maxD = 0; - size_t minIndex = 0; - size_t maxIndex = 0; - for (size_t i = 0; i < numColors; i++) - { - const int count = pixelIndexCounts[i]; - if (count > 0) - { - const auto &pixel = subblockColors[i]; - if (pixel.A > 0) - { - int dot = pixel.R * vr + pixel.G * vg + pixel.B * vb; - if (dot < minD) - { - minD = dot; - minIndex = i; - } - if (dot > maxD) - { - maxD = dot; - maxIndex = i; - } - } - } - } - - *minColorIndex = static_cast<int>(minIndex); - *maxColorIndex = static_cast<int>(maxIndex); - } - - void transcodeIndividualOrDifferentialBlockToBC1(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - int r1, - int g1, - int b1, - int r2, - int g2, - int b2, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - // A BC1 block has 2 endpoints, pixels is encoded as linear - // interpolations of them. A ETC1/ETC2 individual or differential block - // has 2 subblocks. Each subblock has one color and a modifier. We - // select axis by principal component analysis (PCA) to use as - // our two BC1 endpoints and then map pixels to BC1 by projecting on the - // line between the two endpoints and choosing the right fraction. - - // The goal of this algorithm is make it faster than decode ETC to RGBs - // and then encode to BC. To achieve this, we only extract subblock - // colors, pixel indices, and counts of each pixel indices from ETC. - // With those information, we can only encode used subblock colors - // to BC1, and copy the bits to the right pixels. - // Fully decode and encode need to process 16 RGBA pixels. With this - // algorithm, it's 8 pixels at maximum for a individual or - // differential block. Saves us bandwidth and computations. - - static const size_t kNumColors = 8; - - const IntensityModifier *intensityModifier = - nonOpaquePunchThroughAlpha ? intensityModifierNonOpaque : intensityModifierDefault; - - // Compute the colors that pixels can have in each subblock both for - // the decoding of the RGBA data and BC1 encoding - R8G8B8A8 subblockColors[kNumColors]; - for (size_t modifierIdx = 0; modifierIdx < 4; modifierIdx++) - { - if (nonOpaquePunchThroughAlpha && (modifierIdx == 2)) - { - // In ETC opaque punch through formats, individual and - // differential blocks take index 2 as transparent pixel. - // Thus we don't need to compute its color, just assign it - // as black. - subblockColors[modifierIdx] = createRGBA(0, 0, 0, 0); - subblockColors[4 + modifierIdx] = createRGBA(0, 0, 0, 0); - } - else - { - const int i1 = intensityModifier[u.idht.mode.idm.cw1][modifierIdx]; - subblockColors[modifierIdx] = createRGBA(r1 + i1, g1 + i1, b1 + i1); - - const int i2 = intensityModifier[u.idht.mode.idm.cw2][modifierIdx]; - subblockColors[4 + modifierIdx] = createRGBA(r2 + i2, g2 + i2, b2 + i2); - } - } - - int pixelIndices[kNumPixelsInBlock]; - int pixelIndexCounts[kNumColors] = {0}; - // Extract pixel indices from a ETC block. - for (size_t blockIdx = 0; blockIdx < 2; blockIdx++) - { - extractPixelIndices(pixelIndices, pixelIndexCounts, x, y, w, h, u.idht.mode.idm.flipbit, - blockIdx); - } - - int minColorIndex, maxColorIndex; - selectEndPointPCA(pixelIndexCounts, subblockColors, kNumColors, &minColorIndex, - &maxColorIndex); - - packBC1(dest, pixelIndices, pixelIndexCounts, subblockColors, kNumColors, minColorIndex, - maxColorIndex, nonOpaquePunchThroughAlpha); - } - - void transcodeTBlockToBC1(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - static const size_t kNumColors = 4; - - // Table C.8, distance index for T and H modes - const auto &block = u.idht.mode.tm; - - int r1 = extend_4to8bits(block.TR1a << 2 | block.TR1b); - int g1 = extend_4to8bits(block.TG1); - int b1 = extend_4to8bits(block.TB1); - int r2 = extend_4to8bits(block.TR2); - int g2 = extend_4to8bits(block.TG2); - int b2 = extend_4to8bits(block.TB2); - - static int distance[8] = {3, 6, 11, 16, 23, 32, 41, 64}; - const int d = distance[block.Tda << 1 | block.Tdb]; - - // In ETC opaque punch through formats, index == 2 means transparent pixel. - // Thus we don't need to compute its color, just assign it as black. - const R8G8B8A8 paintColors[kNumColors] = { - createRGBA(r1, g1, b1), createRGBA(r2 + d, g2 + d, b2 + d), - nonOpaquePunchThroughAlpha ? createRGBA(0, 0, 0, 0) : createRGBA(r2, g2, b2), - createRGBA(r2 - d, g2 - d, b2 - d), - }; - - int pixelIndices[kNumPixelsInBlock]; - int pixelIndexCounts[kNumColors] = {0}; - for (size_t j = 0; j < 4; j++) - { - int *row = &pixelIndices[j * 4]; - for (size_t i = 0; i < 4; i++) - { - const size_t pixelIndex = getIndex(i, j); - row[i] = static_cast<int>(pixelIndex); - pixelIndexCounts[pixelIndex]++; - } - } - - int minColorIndex, maxColorIndex; - selectEndPointPCA(pixelIndexCounts, paintColors, kNumColors, &minColorIndex, - &maxColorIndex); - - packBC1(dest, pixelIndices, pixelIndexCounts, paintColors, kNumColors, minColorIndex, - maxColorIndex, nonOpaquePunchThroughAlpha); - } - - void transcodeHBlockToBC1(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - const uint8_t alphaValues[4][4], - bool nonOpaquePunchThroughAlpha) const - { - static const size_t kNumColors = 4; - - // Table C.8, distance index for T and H modes - const auto &block = u.idht.mode.hm; - - int r1 = extend_4to8bits(block.HR1); - int g1 = extend_4to8bits(block.HG1a << 1 | block.HG1b); - int b1 = extend_4to8bits(block.HB1a << 3 | block.HB1b << 1 | block.HB1c); - int r2 = extend_4to8bits(block.HR2); - int g2 = extend_4to8bits(block.HG2a << 1 | block.HG2b); - int b2 = extend_4to8bits(block.HB2); - - static const int distance[8] = {3, 6, 11, 16, 23, 32, 41, 64}; - const int orderingTrickBit = - ((r1 << 16 | g1 << 8 | b1) >= (r2 << 16 | g2 << 8 | b2) ? 1 : 0); - const int d = distance[(block.Hda << 2) | (block.Hdb << 1) | orderingTrickBit]; - - // In ETC opaque punch through formats, index == 2 means transparent pixel. - // Thus we don't need to compute its color, just assign it as black. - const R8G8B8A8 paintColors[kNumColors] = { - createRGBA(r1 + d, g1 + d, b1 + d), createRGBA(r1 - d, g1 - d, b1 - d), - nonOpaquePunchThroughAlpha ? createRGBA(0, 0, 0, 0) - : createRGBA(r2 + d, g2 + d, b2 + d), - createRGBA(r2 - d, g2 - d, b2 - d), - }; - - int pixelIndices[kNumPixelsInBlock]; - int pixelIndexCounts[kNumColors] = {0}; - for (size_t j = 0; j < 4; j++) - { - int *row = &pixelIndices[j * 4]; - for (size_t i = 0; i < 4; i++) - { - const size_t pixelIndex = getIndex(i, j); - row[i] = static_cast<int>(pixelIndex); - pixelIndexCounts[pixelIndex]++; - } - } - - int minColorIndex, maxColorIndex; - selectEndPointPCA(pixelIndexCounts, paintColors, kNumColors, &minColorIndex, - &maxColorIndex); - - packBC1(dest, pixelIndices, pixelIndexCounts, paintColors, kNumColors, minColorIndex, - maxColorIndex, nonOpaquePunchThroughAlpha); - } - - void transcodePlanarBlockToBC1(uint8_t *dest, - size_t x, - size_t y, - size_t w, - size_t h, - const uint8_t alphaValues[4][4]) const - { - static const size_t kNumColors = kNumPixelsInBlock; - - R8G8B8A8 rgbaBlock[kNumColors]; - decodePlanarBlock(reinterpret_cast<uint8_t *>(rgbaBlock), x, y, w, h, sizeof(R8G8B8A8) * 4, - alphaValues); - - // Planar block doesn't have a color table, fill indices as full - int pixelIndices[kNumPixelsInBlock] = {0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15}; - int pixelIndexCounts[kNumColors] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1}; - - int minColorIndex, maxColorIndex; - selectEndPointPCA(pixelIndexCounts, rgbaBlock, kNumColors, &minColorIndex, &maxColorIndex); - - packBC1(dest, pixelIndices, pixelIndexCounts, rgbaBlock, kNumColors, minColorIndex, - maxColorIndex, false); - } - - // Single channel utility functions - int getSingleChannel(size_t x, size_t y, bool isSigned) const - { - int codeword = isSigned ? u.scblk.base_codeword.s : u.scblk.base_codeword.us; - return codeword + getSingleChannelModifier(x, y) * u.scblk.multiplier; - } - - int getSingleChannelIndex(size_t x, size_t y) const - { - ASSERT(x < 4 && y < 4); - - // clang-format off - switch (x * 4 + y) - { - case 0: return u.scblk.ma; - case 1: return u.scblk.mb; - case 2: return u.scblk.mc1 << 1 | u.scblk.mc2; - case 3: return u.scblk.md; - case 4: return u.scblk.me; - case 5: return u.scblk.mf1 << 2 | u.scblk.mf2; - case 6: return u.scblk.mg; - case 7: return u.scblk.mh; - case 8: return u.scblk.mi; - case 9: return u.scblk.mj; - case 10: return u.scblk.mk1 << 1 | u.scblk.mk2; - case 11: return u.scblk.ml; - case 12: return u.scblk.mm; - case 13: return u.scblk.mn1 << 2 | u.scblk.mn2; - case 14: return u.scblk.mo; - case 15: return u.scblk.mp; - default: UNREACHABLE(); return 0; - } - // clang-format on - } - - int getSingleChannelModifier(size_t x, size_t y) const - { - // clang-format off - static const int modifierTable[16][8] = - { - { -3, -6, -9, -15, 2, 5, 8, 14 }, - { -3, -7, -10, -13, 2, 6, 9, 12 }, - { -2, -5, -8, -13, 1, 4, 7, 12 }, - { -2, -4, -6, -13, 1, 3, 5, 12 }, - { -3, -6, -8, -12, 2, 5, 7, 11 }, - { -3, -7, -9, -11, 2, 6, 8, 10 }, - { -4, -7, -8, -11, 3, 6, 7, 10 }, - { -3, -5, -8, -11, 2, 4, 7, 10 }, - { -2, -6, -8, -10, 1, 5, 7, 9 }, - { -2, -5, -8, -10, 1, 4, 7, 9 }, - { -2, -4, -8, -10, 1, 3, 7, 9 }, - { -2, -5, -7, -10, 1, 4, 6, 9 }, - { -3, -4, -7, -10, 2, 3, 6, 9 }, - { -1, -2, -3, -10, 0, 1, 2, 9 }, - { -4, -6, -8, -9, 3, 5, 7, 8 }, - { -3, -5, -7, -9, 2, 4, 6, 8 } - }; - // clang-format on - - return modifierTable[u.scblk.table_index][getSingleChannelIndex(x, y)]; - } -}; - -// clang-format off -static const uint8_t DefaultETCAlphaValues[4][4] = -{ - { 255, 255, 255, 255 }, - { 255, 255, 255, 255 }, - { 255, 255, 255, 255 }, - { 255, 255, 255, 255 }, -}; -// clang-format on - -void LoadR11EACToR8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch, - bool isSigned) -{ - for (size_t z = 0; z < depth; z++) - { - for (size_t y = 0; y < height; y += 4) - { - const ETC2Block *sourceRow = - priv::OffsetDataPointer<ETC2Block>(input, y / 4, z, inputRowPitch, inputDepthPitch); - uint8_t *destRow = - priv::OffsetDataPointer<uint8_t>(output, y, z, outputRowPitch, outputDepthPitch); - - for (size_t x = 0; x < width; x += 4) - { - const ETC2Block *sourceBlock = sourceRow + (x / 4); - uint8_t *destPixels = destRow + x; - - sourceBlock->decodeAsSingleChannel(destPixels, x, y, width, height, 1, - outputRowPitch, isSigned); - } - } - } -} - -void LoadRG11EACToRG8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch, - bool isSigned) -{ - for (size_t z = 0; z < depth; z++) - { - for (size_t y = 0; y < height; y += 4) - { - const ETC2Block *sourceRow = - priv::OffsetDataPointer<ETC2Block>(input, y / 4, z, inputRowPitch, inputDepthPitch); - uint8_t *destRow = - priv::OffsetDataPointer<uint8_t>(output, y, z, outputRowPitch, outputDepthPitch); - - for (size_t x = 0; x < width; x += 4) - { - uint8_t *destPixelsRed = destRow + (x * 2); - const ETC2Block *sourceBlockRed = sourceRow + (x / 2); - sourceBlockRed->decodeAsSingleChannel(destPixelsRed, x, y, width, height, 2, - outputRowPitch, isSigned); - - uint8_t *destPixelsGreen = destPixelsRed + 1; - const ETC2Block *sourceBlockGreen = sourceBlockRed + 1; - sourceBlockGreen->decodeAsSingleChannel(destPixelsGreen, x, y, width, height, 2, - outputRowPitch, isSigned); - } - } - } -} - -void LoadETC2RGB8ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch, - bool punchthroughAlpha) -{ - for (size_t z = 0; z < depth; z++) - { - for (size_t y = 0; y < height; y += 4) - { - const ETC2Block *sourceRow = - priv::OffsetDataPointer<ETC2Block>(input, y / 4, z, inputRowPitch, inputDepthPitch); - uint8_t *destRow = - priv::OffsetDataPointer<uint8_t>(output, y, z, outputRowPitch, outputDepthPitch); - - for (size_t x = 0; x < width; x += 4) - { - const ETC2Block *sourceBlock = sourceRow + (x / 4); - uint8_t *destPixels = destRow + (x * 4); - - sourceBlock->decodeAsRGB(destPixels, x, y, width, height, outputRowPitch, - DefaultETCAlphaValues, punchthroughAlpha); - } - } - } -} - -void LoadETC2RGB8ToBC1(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch, - bool punchthroughAlpha) -{ - for (size_t z = 0; z < depth; z++) - { - for (size_t y = 0; y < height; y += 4) - { - const ETC2Block *sourceRow = - priv::OffsetDataPointer<ETC2Block>(input, y / 4, z, inputRowPitch, inputDepthPitch); - uint8_t *destRow = priv::OffsetDataPointer<uint8_t>(output, y / 4, z, outputRowPitch, - outputDepthPitch); - - for (size_t x = 0; x < width; x += 4) - { - const ETC2Block *sourceBlock = sourceRow + (x / 4); - uint8_t *destPixels = destRow + (x * 2); - - sourceBlock->transcodeAsBC1(destPixels, x, y, width, height, DefaultETCAlphaValues, - punchthroughAlpha); - } - } - } -} - -void LoadETC2RGBA8ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch, - bool srgb) -{ - uint8_t decodedAlphaValues[4][4]; - - for (size_t z = 0; z < depth; z++) - { - for (size_t y = 0; y < height; y += 4) - { - const ETC2Block *sourceRow = - priv::OffsetDataPointer<ETC2Block>(input, y / 4, z, inputRowPitch, inputDepthPitch); - uint8_t *destRow = - priv::OffsetDataPointer<uint8_t>(output, y, z, outputRowPitch, outputDepthPitch); - - for (size_t x = 0; x < width; x += 4) - { - const ETC2Block *sourceBlockAlpha = sourceRow + (x / 2); - sourceBlockAlpha->decodeAsSingleChannel( - reinterpret_cast<uint8_t *>(decodedAlphaValues), x, y, width, height, 1, 4, - false); - - uint8_t *destPixels = destRow + (x * 4); - const ETC2Block *sourceBlockRGB = sourceBlockAlpha + 1; - sourceBlockRGB->decodeAsRGB(destPixels, x, y, width, height, outputRowPitch, - decodedAlphaValues, false); - } - } - } -} - -} // anonymous namespace - -void LoadETC1RGB8ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToRGBA8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadETC1RGB8ToBC1(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToBC1(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadEACR11ToR8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadR11EACToR8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadEACR11SToR8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadR11EACToR8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, true); -} - -void LoadEACRG11ToRG8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadRG11EACToRG8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadEACRG11SToRG8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadRG11EACToRG8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, true); -} - -void LoadETC2RGB8ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToRGBA8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadETC2RGB8ToBC1(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToBC1(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadETC2SRGB8ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToRGBA8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadETC2SRGB8ToBC1(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToBC1(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadETC2RGB8A1ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToRGBA8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, true); -} - -void LoadETC2RGB8A1ToBC1(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToBC1(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, true); -} - -void LoadETC2SRGB8A1ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToRGBA8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, true); -} - -void LoadETC2SRGB8A1ToBC1(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGB8ToBC1(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, true); -} - -void LoadETC2RGBA8ToRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGBA8ToRGBA8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, false); -} - -void LoadETC2SRGBA8ToSRGBA8(size_t width, - size_t height, - size_t depth, - const uint8_t *input, - size_t inputRowPitch, - size_t inputDepthPitch, - uint8_t *output, - size_t outputRowPitch, - size_t outputDepthPitch) -{ - LoadETC2RGBA8ToRGBA8(width, height, depth, input, inputRowPitch, inputDepthPitch, output, - outputRowPitch, outputDepthPitch, true); -} - -} // namespace angle |