ref: 320fb4c34a6d6bed560fbe564e7e1eae328be100
dir: /third_party/libwebm/common/hdr_util.cc/
// Copyright (c) 2016 The WebM 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 in the root of the source // tree. An additional intellectual property rights grant can be found // in the file PATENTS. All contributing project authors may // be found in the AUTHORS file in the root of the source tree. #include "hdr_util.h" #include <climits> #include <cstddef> #include <new> #include "mkvparser/mkvparser.h" namespace libwebm { const int Vp9CodecFeatures::kValueNotPresent = INT_MAX; bool CopyPrimaryChromaticity(const mkvparser::PrimaryChromaticity& parser_pc, PrimaryChromaticityPtr* muxer_pc) { muxer_pc->reset(new (std::nothrow) mkvmuxer::PrimaryChromaticity(parser_pc.x, parser_pc.y)); if (!muxer_pc->get()) return false; return true; } bool MasteringMetadataValuePresent(double value) { return value != mkvparser::MasteringMetadata::kValueNotPresent; } bool CopyMasteringMetadata(const mkvparser::MasteringMetadata& parser_mm, mkvmuxer::MasteringMetadata* muxer_mm) { if (MasteringMetadataValuePresent(parser_mm.luminance_max)) muxer_mm->set_luminance_max(parser_mm.luminance_max); if (MasteringMetadataValuePresent(parser_mm.luminance_min)) muxer_mm->set_luminance_min(parser_mm.luminance_min); PrimaryChromaticityPtr r_ptr(nullptr); PrimaryChromaticityPtr g_ptr(nullptr); PrimaryChromaticityPtr b_ptr(nullptr); PrimaryChromaticityPtr wp_ptr(nullptr); if (parser_mm.r) { if (!CopyPrimaryChromaticity(*parser_mm.r, &r_ptr)) return false; } if (parser_mm.g) { if (!CopyPrimaryChromaticity(*parser_mm.g, &g_ptr)) return false; } if (parser_mm.b) { if (!CopyPrimaryChromaticity(*parser_mm.b, &b_ptr)) return false; } if (parser_mm.white_point) { if (!CopyPrimaryChromaticity(*parser_mm.white_point, &wp_ptr)) return false; } if (!muxer_mm->SetChromaticity(r_ptr.get(), g_ptr.get(), b_ptr.get(), wp_ptr.get())) { return false; } return true; } bool ColourValuePresent(long long value) { return value != mkvparser::Colour::kValueNotPresent; } bool CopyColour(const mkvparser::Colour& parser_colour, mkvmuxer::Colour* muxer_colour) { if (!muxer_colour) return false; if (ColourValuePresent(parser_colour.matrix_coefficients)) muxer_colour->set_matrix_coefficients(parser_colour.matrix_coefficients); if (ColourValuePresent(parser_colour.bits_per_channel)) muxer_colour->set_bits_per_channel(parser_colour.bits_per_channel); if (ColourValuePresent(parser_colour.chroma_subsampling_horz)) { muxer_colour->set_chroma_subsampling_horz( parser_colour.chroma_subsampling_horz); } if (ColourValuePresent(parser_colour.chroma_subsampling_vert)) { muxer_colour->set_chroma_subsampling_vert( parser_colour.chroma_subsampling_vert); } if (ColourValuePresent(parser_colour.cb_subsampling_horz)) muxer_colour->set_cb_subsampling_horz(parser_colour.cb_subsampling_horz); if (ColourValuePresent(parser_colour.cb_subsampling_vert)) muxer_colour->set_cb_subsampling_vert(parser_colour.cb_subsampling_vert); if (ColourValuePresent(parser_colour.chroma_siting_horz)) muxer_colour->set_chroma_siting_horz(parser_colour.chroma_siting_horz); if (ColourValuePresent(parser_colour.chroma_siting_vert)) muxer_colour->set_chroma_siting_vert(parser_colour.chroma_siting_vert); if (ColourValuePresent(parser_colour.range)) muxer_colour->set_range(parser_colour.range); if (ColourValuePresent(parser_colour.transfer_characteristics)) { muxer_colour->set_transfer_characteristics( parser_colour.transfer_characteristics); } if (ColourValuePresent(parser_colour.primaries)) muxer_colour->set_primaries(parser_colour.primaries); if (ColourValuePresent(parser_colour.max_cll)) muxer_colour->set_max_cll(parser_colour.max_cll); if (ColourValuePresent(parser_colour.max_fall)) muxer_colour->set_max_fall(parser_colour.max_fall); if (parser_colour.mastering_metadata) { mkvmuxer::MasteringMetadata muxer_mm; if (!CopyMasteringMetadata(*parser_colour.mastering_metadata, &muxer_mm)) return false; if (!muxer_colour->SetMasteringMetadata(muxer_mm)) return false; } return true; } // Format of VPx private data: // // 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ // | ID Byte | Length | | // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | // | | // : Bytes 1..Length of Codec Feature : // | | // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ // // ID Byte Format // ID byte is an unsigned byte. // 0 1 2 3 4 5 6 7 // +-+-+-+-+-+-+-+-+ // |X| ID | // +-+-+-+-+-+-+-+-+ // // The X bit is reserved. // // See the following link for more information: // http://www.webmproject.org/vp9/profiles/ bool ParseVpxCodecPrivate(const uint8_t* private_data, int32_t length, Vp9CodecFeatures* features) { const int kVpxCodecPrivateMinLength = 3; if (!private_data || !features || length < kVpxCodecPrivateMinLength) return false; const uint8_t kVp9ProfileId = 1; const uint8_t kVp9LevelId = 2; const uint8_t kVp9BitDepthId = 3; const uint8_t kVp9ChromaSubsamplingId = 4; const int kVpxFeatureLength = 1; int offset = 0; // Set features to not set. features->profile = Vp9CodecFeatures::kValueNotPresent; features->level = Vp9CodecFeatures::kValueNotPresent; features->bit_depth = Vp9CodecFeatures::kValueNotPresent; features->chroma_subsampling = Vp9CodecFeatures::kValueNotPresent; do { const uint8_t id_byte = private_data[offset++]; const uint8_t length_byte = private_data[offset++]; if (length_byte != kVpxFeatureLength) return false; if (id_byte == kVp9ProfileId) { const int priv_profile = static_cast<int>(private_data[offset++]); if (priv_profile < 0 || priv_profile > 3) return false; if (features->profile != Vp9CodecFeatures::kValueNotPresent && features->profile != priv_profile) { return false; } features->profile = priv_profile; } else if (id_byte == kVp9LevelId) { const int priv_level = static_cast<int>(private_data[offset++]); const int kNumLevels = 14; const int levels[kNumLevels] = {10, 11, 20, 21, 30, 31, 40, 41, 50, 51, 52, 60, 61, 62}; for (int i = 0; i < kNumLevels; ++i) { if (priv_level == levels[i]) { if (features->level != Vp9CodecFeatures::kValueNotPresent && features->level != priv_level) { return false; } features->level = priv_level; break; } } if (features->level == Vp9CodecFeatures::kValueNotPresent) return false; } else if (id_byte == kVp9BitDepthId) { const int priv_profile = static_cast<int>(private_data[offset++]); if (priv_profile != 8 && priv_profile != 10 && priv_profile != 12) return false; if (features->bit_depth != Vp9CodecFeatures::kValueNotPresent && features->bit_depth != priv_profile) { return false; } features->bit_depth = priv_profile; } else if (id_byte == kVp9ChromaSubsamplingId) { const int priv_profile = static_cast<int>(private_data[offset++]); if (priv_profile != 0 && priv_profile != 2 && priv_profile != 3) return false; if (features->chroma_subsampling != Vp9CodecFeatures::kValueNotPresent && features->chroma_subsampling != priv_profile) { return false; } features->chroma_subsampling = priv_profile; } else { // Invalid ID. return false; } } while (offset + kVpxCodecPrivateMinLength <= length); return true; } } // namespace libwebm