// Copyright (c) the JPEG XL 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. #ifndef LIB_JXL_MODULAR_TRANSFORM_PALETTE_H_ #define LIB_JXL_MODULAR_TRANSFORM_PALETTE_H_ #include #include #include #include #include "lib/jxl/base/compiler_specific.h" #include "lib/jxl/base/data_parallel.h" #include "lib/jxl/base/status.h" #include "lib/jxl/modular/encoding/context_predict.h" #include "lib/jxl/modular/modular_image.h" #include "lib/jxl/modular/options.h" namespace jxl { namespace palette_internal { static constexpr int kMaxPaletteLookupTableSize = 1 << 16; static constexpr int kRgbChannels = 3; // 5x5x5 color cube for the larger cube. static constexpr int kLargeCube = 5; // Smaller interleaved color cube to fill the holes of the larger cube. static constexpr int kSmallCube = 4; static constexpr int kSmallCubeBits = 2; // kSmallCube ** 3 static constexpr int kLargeCubeOffset = kSmallCube * kSmallCube * kSmallCube; static constexpr int kImplicitPaletteSize = kLargeCubeOffset + kLargeCube * kLargeCube * kLargeCube; static inline pixel_type Scale(uint64_t value, uint64_t bit_depth, uint64_t denom) { // return (value * ((static_cast(1) << bit_depth) - 1)) / denom; // We only call this function with kSmallCube or kLargeCube - 1 as denom, // allowing us to avoid a division here. JXL_ASSERT(denom == 4); return (value * ((static_cast(1) << bit_depth) - 1)) >> 2; } // The purpose of this function is solely to extend the interpretation of // palette indices to implicit values. If index < nb_deltas, indicating that the // result is a delta palette entry, it is the responsibility of the caller to // treat it as such. static JXL_MAYBE_UNUSED pixel_type GetPaletteValue(const pixel_type *const palette, int index, const size_t c, const int palette_size, const int onerow, const int bit_depth) { if (index < 0) { static constexpr std::array, 72> kDeltaPalette = { { {{0, 0, 0}}, {{4, 4, 4}}, {{11, 0, 0}}, {{0, 0, -13}}, {{0, -12, 0}}, {{-10, -10, -10}}, {{-18, -18, -18}}, {{-27, -27, -27}}, {{-18, -18, 0}}, {{0, 0, -32}}, {{-32, 0, 0}}, {{-37, -37, -37}}, {{0, -32, -32}}, {{24, 24, 45}}, {{50, 50, 50}}, {{-45, -24, -24}}, {{-24, -45, -45}}, {{0, -24, -24}}, {{-34, -34, 0}}, {{-24, 0, -24}}, {{-45, -45, -24}}, {{64, 64, 64}}, {{-32, 0, -32}}, {{0, -32, 0}}, {{-32, 0, 32}}, {{-24, -45, -24}}, {{45, 24, 45}}, {{24, -24, -45}}, {{-45, -24, 24}}, {{80, 80, 80}}, {{64, 0, 0}}, {{0, 0, -64}}, {{0, -64, -64}}, {{-24, -24, 45}}, {{96, 96, 96}}, {{64, 64, 0}}, {{45, -24, -24}}, {{34, -34, 0}}, {{112, 112, 112}}, {{24, -45, -45}}, {{45, 45, -24}}, {{0, -32, 32}}, {{24, -24, 45}}, {{0, 96, 96}}, {{45, -24, 24}}, {{24, -45, -24}}, {{-24, -45, 24}}, {{0, -64, 0}}, {{96, 0, 0}}, {{128, 128, 128}}, {{64, 0, 64}}, {{144, 144, 144}}, {{96, 96, 0}}, {{-36, -36, 36}}, {{45, -24, -45}}, {{45, -45, -24}}, {{0, 0, -96}}, {{0, 128, 128}}, {{0, 96, 0}}, {{45, 24, -45}}, {{-128, 0, 0}}, {{24, -45, 24}}, {{-45, 24, -45}}, {{64, 0, -64}}, {{64, -64, -64}}, {{96, 0, 96}}, {{45, -45, 24}}, {{24, 45, -45}}, {{64, 64, -64}}, {{128, 128, 0}}, {{0, 0, -128}}, {{-24, 45, -45}}, }}; if (c >= kRgbChannels) { return 0; } // Do not open the brackets, otherwise INT32_MIN negation could overflow. index = -(index + 1); index %= 1 + 2 * (kDeltaPalette.size() - 1); static constexpr int kMultiplier[] = {-1, 1}; pixel_type result = kDeltaPalette[((index + 1) >> 1)][c] * kMultiplier[index & 1]; if (bit_depth > 8) { result *= static_cast(1) << (bit_depth - 8); } return result; } else if (palette_size <= index && index < palette_size + kLargeCubeOffset) { if (c >= kRgbChannels) return 0; index -= palette_size; index >>= c * kSmallCubeBits; return Scale(index % kSmallCube, bit_depth, kSmallCube) + (1 << (std::max(0, bit_depth - 3))); } else if (palette_size + kLargeCubeOffset <= index) { if (c >= kRgbChannels) return 0; index -= palette_size + kLargeCubeOffset; // TODO(eustas): should we take care of ambiguity created by // index >= kLargeCube ** 3 ? switch (c) { case 0: default: break; case 1: index /= kLargeCube; break; case 2: index /= kLargeCube * kLargeCube; break; } return Scale(index % kLargeCube, bit_depth, kLargeCube - 1); } return palette[c * onerow + static_cast(index)]; } } // namespace palette_internal Status InvPalette(Image &input, uint32_t begin_c, uint32_t nb_colors, uint32_t nb_deltas, Predictor predictor, const weighted::Header &wp_header, ThreadPool *pool); Status MetaPalette(Image &input, uint32_t begin_c, uint32_t end_c, uint32_t nb_colors, uint32_t nb_deltas, bool lossy); } // namespace jxl #endif // LIB_JXL_MODULAR_TRANSFORM_PALETTE_H_