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LeafOS / LeafOS-Project / android_frameworks_av / 4717314d74cfae8485b1864d61647b4f49f58ff7 / . / media / codec2 / sfplugin / utils / Codec2Mapper.cpp
blob: 9297520f1d9ddfcb8d00d53e8a80bd39b3153fc3 [file] [log] [blame]
/*
* Copyright 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
//#define LOG_NDEBUG 0
#define LOG_TAG "Codec2Mapper"
#include <utils/Log.h>
#include <map>
#include <optional>
#include <media/stagefright/MediaCodecConstants.h>
#include <media/stagefright/SurfaceUtils.h>
#include <media/stagefright/foundation/ALookup.h>
#include <media/stagefright/foundation/ColorUtils.h>
#include <media/stagefright/foundation/MediaDefs.h>
#include <stdint.h> // for INT32_MAX
#include "Codec2Mapper.h"
using namespace android;
namespace {
ALookup<C2Config::profile_t, int32_t> sAacProfiles = {
{ C2Config::PROFILE_AAC_LC, AACObjectLC },
{ C2Config::PROFILE_AAC_MAIN, AACObjectMain },
{ C2Config::PROFILE_AAC_SSR, AACObjectSSR },
{ C2Config::PROFILE_AAC_LTP, AACObjectLTP },
{ C2Config::PROFILE_AAC_HE, AACObjectHE },
{ C2Config::PROFILE_AAC_SCALABLE, AACObjectScalable },
{ C2Config::PROFILE_AAC_ER_LC, AACObjectERLC },
{ C2Config::PROFILE_AAC_ER_SCALABLE, AACObjectERScalable },
{ C2Config::PROFILE_AAC_LD, AACObjectLD },
{ C2Config::PROFILE_AAC_HE_PS, AACObjectHE_PS },
{ C2Config::PROFILE_AAC_ELD, AACObjectELD },
{ C2Config::PROFILE_AAC_XHE, AACObjectXHE },
};
ALookup<C2Config::level_t, int32_t> sAvcLevels = {
{ C2Config::LEVEL_AVC_1, AVCLevel1 },
{ C2Config::LEVEL_AVC_1B, AVCLevel1b },
{ C2Config::LEVEL_AVC_1_1, AVCLevel11 },
{ C2Config::LEVEL_AVC_1_2, AVCLevel12 },
{ C2Config::LEVEL_AVC_1_3, AVCLevel13 },
{ C2Config::LEVEL_AVC_2, AVCLevel2 },
{ C2Config::LEVEL_AVC_2_1, AVCLevel21 },
{ C2Config::LEVEL_AVC_2_2, AVCLevel22 },
{ C2Config::LEVEL_AVC_3, AVCLevel3 },
{ C2Config::LEVEL_AVC_3_1, AVCLevel31 },
{ C2Config::LEVEL_AVC_3_2, AVCLevel32 },
{ C2Config::LEVEL_AVC_4, AVCLevel4 },
{ C2Config::LEVEL_AVC_4_1, AVCLevel41 },
{ C2Config::LEVEL_AVC_4_2, AVCLevel42 },
{ C2Config::LEVEL_AVC_5, AVCLevel5 },
{ C2Config::LEVEL_AVC_5_1, AVCLevel51 },
{ C2Config::LEVEL_AVC_5_2, AVCLevel52 },
{ C2Config::LEVEL_AVC_6, AVCLevel6 },
{ C2Config::LEVEL_AVC_6_1, AVCLevel61 },
{ C2Config::LEVEL_AVC_6_2, AVCLevel62 },
};
ALookup<C2Config::profile_t, int32_t> sAvcProfiles = {
// treat restricted profiles as full profile if there is no equivalent - which works for
// decoders, but not for encoders
{ C2Config::PROFILE_AVC_BASELINE, AVCProfileBaseline },
{ C2Config::PROFILE_AVC_CONSTRAINED_BASELINE, AVCProfileConstrainedBaseline },
{ C2Config::PROFILE_AVC_MAIN, AVCProfileMain },
{ C2Config::PROFILE_AVC_EXTENDED, AVCProfileExtended },
{ C2Config::PROFILE_AVC_HIGH, AVCProfileHigh },
{ C2Config::PROFILE_AVC_PROGRESSIVE_HIGH, AVCProfileHigh },
{ C2Config::PROFILE_AVC_CONSTRAINED_HIGH, AVCProfileConstrainedHigh },
{ C2Config::PROFILE_AVC_HIGH_10, AVCProfileHigh10 },
{ C2Config::PROFILE_AVC_PROGRESSIVE_HIGH_10, AVCProfileHigh10 },
{ C2Config::PROFILE_AVC_HIGH_422, AVCProfileHigh422 },
{ C2Config::PROFILE_AVC_HIGH_444_PREDICTIVE, AVCProfileHigh444 },
{ C2Config::PROFILE_AVC_HIGH_10_INTRA, AVCProfileHigh10 },
{ C2Config::PROFILE_AVC_HIGH_422_INTRA, AVCProfileHigh422 },
{ C2Config::PROFILE_AVC_HIGH_444_INTRA, AVCProfileHigh444 },
{ C2Config::PROFILE_AVC_CAVLC_444_INTRA, AVCProfileHigh444 },
};
ALookup<C2Config::bitrate_mode_t, int32_t> sBitrateModes = {
{ C2Config::BITRATE_CONST, BITRATE_MODE_CBR },
{ C2Config::BITRATE_CONST_SKIP_ALLOWED, BITRATE_MODE_CBR_FD },
{ C2Config::BITRATE_VARIABLE, BITRATE_MODE_VBR },
{ C2Config::BITRATE_IGNORE, BITRATE_MODE_CQ },
};
ALookup<C2Color::matrix_t, ColorAspects::MatrixCoeffs> sColorMatricesSf = {
{ C2Color::MATRIX_UNSPECIFIED, ColorAspects::MatrixUnspecified },
{ C2Color::MATRIX_BT709, ColorAspects::MatrixBT709_5 },
{ C2Color::MATRIX_FCC47_73_682, ColorAspects::MatrixBT470_6M },
{ C2Color::MATRIX_BT601, ColorAspects::MatrixBT601_6 },
{ C2Color::MATRIX_240M, ColorAspects::MatrixSMPTE240M },
{ C2Color::MATRIX_BT2020, ColorAspects::MatrixBT2020 },
{ C2Color::MATRIX_BT2020_CONSTANT, ColorAspects::MatrixBT2020Constant },
{ C2Color::MATRIX_OTHER, ColorAspects::MatrixOther },
};
ALookup<C2Color::primaries_t, ColorAspects::Primaries> sColorPrimariesSf = {
{ C2Color::PRIMARIES_UNSPECIFIED, ColorAspects::PrimariesUnspecified },
{ C2Color::PRIMARIES_BT709, ColorAspects::PrimariesBT709_5 },
{ C2Color::PRIMARIES_BT470_M, ColorAspects::PrimariesBT470_6M },
{ C2Color::PRIMARIES_BT601_625, ColorAspects::PrimariesBT601_6_625 },
{ C2Color::PRIMARIES_BT601_525, ColorAspects::PrimariesBT601_6_525 },
{ C2Color::PRIMARIES_GENERIC_FILM, ColorAspects::PrimariesGenericFilm },
{ C2Color::PRIMARIES_BT2020, ColorAspects::PrimariesBT2020 },
{ C2Color::PRIMARIES_RP431, ColorAspects::PrimariesRP431 },
{ C2Color::PRIMARIES_EG432, ColorAspects::PrimariesEG432 },
// { C2Color::PRIMARIES_EBU3213, ColorAspects::Primaries... },
{ C2Color::PRIMARIES_OTHER, ColorAspects::PrimariesOther },
};
ALookup<C2Color::range_t, int32_t> sColorRanges = {
{ C2Color::RANGE_FULL, COLOR_RANGE_FULL },
{ C2Color::RANGE_LIMITED, COLOR_RANGE_LIMITED },
};
ALookup<C2Color::range_t, ColorAspects::Range> sColorRangesSf = {
{ C2Color::RANGE_UNSPECIFIED, ColorAspects::RangeUnspecified },
{ C2Color::RANGE_FULL, ColorAspects::RangeFull },
{ C2Color::RANGE_LIMITED, ColorAspects::RangeLimited },
{ C2Color::RANGE_OTHER, ColorAspects::RangeOther },
};
ALookup<C2Color::transfer_t, int32_t> sColorTransfers = {
{ C2Color::TRANSFER_LINEAR, COLOR_TRANSFER_LINEAR },
{ C2Color::TRANSFER_170M, COLOR_TRANSFER_SDR_VIDEO },
{ C2Color::TRANSFER_ST2084, COLOR_TRANSFER_ST2084 },
{ C2Color::TRANSFER_HLG, COLOR_TRANSFER_HLG },
};
ALookup<C2Color::transfer_t, ColorAspects::Transfer> sColorTransfersSf = {
{ C2Color::TRANSFER_UNSPECIFIED, ColorAspects::TransferUnspecified },
{ C2Color::TRANSFER_LINEAR, ColorAspects::TransferLinear },
{ C2Color::TRANSFER_SRGB, ColorAspects::TransferSRGB },
{ C2Color::TRANSFER_170M, ColorAspects::TransferSMPTE170M },
{ C2Color::TRANSFER_GAMMA22, ColorAspects::TransferGamma22 },
{ C2Color::TRANSFER_GAMMA28, ColorAspects::TransferGamma28 },
{ C2Color::TRANSFER_ST2084, ColorAspects::TransferST2084 },
{ C2Color::TRANSFER_HLG, ColorAspects::TransferHLG },
{ C2Color::TRANSFER_240M, ColorAspects::TransferSMPTE240M },
{ C2Color::TRANSFER_XVYCC, ColorAspects::TransferXvYCC },
{ C2Color::TRANSFER_BT1361, ColorAspects::TransferBT1361 },
{ C2Color::TRANSFER_ST428, ColorAspects::TransferST428 },
{ C2Color::TRANSFER_OTHER, ColorAspects::TransferOther },
};
ALookup<C2Config::level_t, int32_t> sDolbyVisionLevels = {
{ C2Config::LEVEL_DV_MAIN_HD_24, DolbyVisionLevelHd24 },
{ C2Config::LEVEL_DV_MAIN_HD_30, DolbyVisionLevelHd30 },
{ C2Config::LEVEL_DV_MAIN_FHD_24, DolbyVisionLevelFhd24 },
{ C2Config::LEVEL_DV_MAIN_FHD_30, DolbyVisionLevelFhd30 },
{ C2Config::LEVEL_DV_MAIN_FHD_60, DolbyVisionLevelFhd60 },
{ C2Config::LEVEL_DV_MAIN_UHD_24, DolbyVisionLevelUhd24 },
{ C2Config::LEVEL_DV_MAIN_UHD_30, DolbyVisionLevelUhd30 },
{ C2Config::LEVEL_DV_MAIN_UHD_48, DolbyVisionLevelUhd48 },
{ C2Config::LEVEL_DV_MAIN_UHD_60, DolbyVisionLevelUhd60 },
{ C2Config::LEVEL_DV_MAIN_UHD_120, DolbyVisionLevelUhd120 },
{ C2Config::LEVEL_DV_MAIN_8K_30, DolbyVisionLevel8k30 },
{ C2Config::LEVEL_DV_MAIN_8K_60, DolbyVisionLevel8k60 },
// high tiers are not yet supported on android, for now map them to main tier
{ C2Config::LEVEL_DV_HIGH_HD_24, DolbyVisionLevelHd24 },
{ C2Config::LEVEL_DV_HIGH_HD_30, DolbyVisionLevelHd30 },
{ C2Config::LEVEL_DV_HIGH_FHD_24, DolbyVisionLevelFhd24 },
{ C2Config::LEVEL_DV_HIGH_FHD_30, DolbyVisionLevelFhd30 },
{ C2Config::LEVEL_DV_HIGH_FHD_60, DolbyVisionLevelFhd60 },
{ C2Config::LEVEL_DV_HIGH_UHD_24, DolbyVisionLevelUhd24 },
{ C2Config::LEVEL_DV_HIGH_UHD_30, DolbyVisionLevelUhd30 },
{ C2Config::LEVEL_DV_HIGH_UHD_48, DolbyVisionLevelUhd48 },
{ C2Config::LEVEL_DV_HIGH_UHD_60, DolbyVisionLevelUhd60 },
{ C2Config::LEVEL_DV_HIGH_UHD_120, DolbyVisionLevelUhd120 },
{ C2Config::LEVEL_DV_HIGH_8K_30, DolbyVisionLevel8k30 },
{ C2Config::LEVEL_DV_HIGH_8K_60, DolbyVisionLevel8k60 },
};
ALookup<C2Config::profile_t, int32_t> sDolbyVisionProfiles = {
{ C2Config::PROFILE_DV_AV_PER, DolbyVisionProfileDvavPer },
{ C2Config::PROFILE_DV_AV_PEN, DolbyVisionProfileDvavPen },
{ C2Config::PROFILE_DV_HE_DER, DolbyVisionProfileDvheDer },
{ C2Config::PROFILE_DV_HE_DEN, DolbyVisionProfileDvheDen },
{ C2Config::PROFILE_DV_HE_04, DolbyVisionProfileDvheDtr },
{ C2Config::PROFILE_DV_HE_05, DolbyVisionProfileDvheStn },
{ C2Config::PROFILE_DV_HE_DTH, DolbyVisionProfileDvheDth },
{ C2Config::PROFILE_DV_HE_07, DolbyVisionProfileDvheDtb },
{ C2Config::PROFILE_DV_HE_08, DolbyVisionProfileDvheSt },
{ C2Config::PROFILE_DV_AV_09, DolbyVisionProfileDvavSe },
{ C2Config::PROFILE_DV_AV1_10, DolbyVisionProfileDvav110 },
};
ALookup<C2Config::level_t, int32_t> sH263Levels = {
{ C2Config::LEVEL_H263_10, H263Level10 },
{ C2Config::LEVEL_H263_20, H263Level20 },
{ C2Config::LEVEL_H263_30, H263Level30 },
{ C2Config::LEVEL_H263_40, H263Level40 },
{ C2Config::LEVEL_H263_45, H263Level45 },
{ C2Config::LEVEL_H263_50, H263Level50 },
{ C2Config::LEVEL_H263_60, H263Level60 },
{ C2Config::LEVEL_H263_70, H263Level70 },
};
ALookup<C2Config::profile_t, int32_t> sH263Profiles = {
{ C2Config::PROFILE_H263_BASELINE, H263ProfileBaseline },
{ C2Config::PROFILE_H263_H320, H263ProfileH320Coding },
{ C2Config::PROFILE_H263_V1BC, H263ProfileBackwardCompatible },
{ C2Config::PROFILE_H263_ISWV2, H263ProfileISWV2 },
{ C2Config::PROFILE_H263_ISWV3, H263ProfileISWV3 },
{ C2Config::PROFILE_H263_HIGH_COMPRESSION, H263ProfileHighCompression },
{ C2Config::PROFILE_H263_INTERNET, H263ProfileInternet },
{ C2Config::PROFILE_H263_INTERLACE, H263ProfileInterlace },
{ C2Config::PROFILE_H263_HIGH_LATENCY, H263ProfileHighLatency },
};
ALookup<C2Config::level_t, int32_t> sHevcLevels = {
{ C2Config::LEVEL_HEVC_MAIN_1, HEVCMainTierLevel1 },
{ C2Config::LEVEL_HEVC_MAIN_2, HEVCMainTierLevel2 },
{ C2Config::LEVEL_HEVC_MAIN_2_1, HEVCMainTierLevel21 },
{ C2Config::LEVEL_HEVC_MAIN_3, HEVCMainTierLevel3 },
{ C2Config::LEVEL_HEVC_MAIN_3_1, HEVCMainTierLevel31 },
{ C2Config::LEVEL_HEVC_MAIN_4, HEVCMainTierLevel4 },
{ C2Config::LEVEL_HEVC_MAIN_4_1, HEVCMainTierLevel41 },
{ C2Config::LEVEL_HEVC_MAIN_5, HEVCMainTierLevel5 },
{ C2Config::LEVEL_HEVC_MAIN_5_1, HEVCMainTierLevel51 },
{ C2Config::LEVEL_HEVC_MAIN_5_2, HEVCMainTierLevel52 },
{ C2Config::LEVEL_HEVC_MAIN_6, HEVCMainTierLevel6 },
{ C2Config::LEVEL_HEVC_MAIN_6_1, HEVCMainTierLevel61 },
{ C2Config::LEVEL_HEVC_MAIN_6_2, HEVCMainTierLevel62 },
{ C2Config::LEVEL_HEVC_HIGH_4, HEVCHighTierLevel4 },
{ C2Config::LEVEL_HEVC_HIGH_4_1, HEVCHighTierLevel41 },
{ C2Config::LEVEL_HEVC_HIGH_5, HEVCHighTierLevel5 },
{ C2Config::LEVEL_HEVC_HIGH_5_1, HEVCHighTierLevel51 },
{ C2Config::LEVEL_HEVC_HIGH_5_2, HEVCHighTierLevel52 },
{ C2Config::LEVEL_HEVC_HIGH_6, HEVCHighTierLevel6 },
{ C2Config::LEVEL_HEVC_HIGH_6_1, HEVCHighTierLevel61 },
{ C2Config::LEVEL_HEVC_HIGH_6_2, HEVCHighTierLevel62 },
// map high tier levels below 4 to main tier
{ C2Config::LEVEL_HEVC_MAIN_1, HEVCHighTierLevel1 },
{ C2Config::LEVEL_HEVC_MAIN_2, HEVCHighTierLevel2 },
{ C2Config::LEVEL_HEVC_MAIN_2_1, HEVCHighTierLevel21 },
{ C2Config::LEVEL_HEVC_MAIN_3, HEVCHighTierLevel3 },
{ C2Config::LEVEL_HEVC_MAIN_3_1, HEVCHighTierLevel31 },
};
ALookup<C2Config::profile_t, int32_t> sHevcProfiles = {
{ C2Config::PROFILE_HEVC_MAIN, HEVCProfileMain },
{ C2Config::PROFILE_HEVC_MAIN_10, HEVCProfileMain10 },
{ C2Config::PROFILE_HEVC_MAIN_STILL, HEVCProfileMainStill },
{ C2Config::PROFILE_HEVC_MAIN_INTRA, HEVCProfileMain },
{ C2Config::PROFILE_HEVC_MAIN_10_INTRA, HEVCProfileMain10 },
{ C2Config::PROFILE_HEVC_MAIN_10, HEVCProfileMain10HDR10 },
{ C2Config::PROFILE_HEVC_MAIN_10, HEVCProfileMain10HDR10Plus },
};
ALookup<C2Config::profile_t, int32_t> sHevcHdrProfiles = {
{ C2Config::PROFILE_HEVC_MAIN_10, HEVCProfileMain10HDR10 },
};
ALookup<C2Config::profile_t, int32_t> sHevcHdr10PlusProfiles = {
{ C2Config::PROFILE_HEVC_MAIN_10, HEVCProfileMain10HDR10Plus },
};
ALookup<C2Config::hdr_format_t, int32_t> sHevcHdrFormats = {
{ C2Config::hdr_format_t::SDR, HEVCProfileMain },
{ C2Config::hdr_format_t::HLG, HEVCProfileMain10 },
{ C2Config::hdr_format_t::HDR10, HEVCProfileMain10HDR10 },
{ C2Config::hdr_format_t::HDR10_PLUS, HEVCProfileMain10HDR10Plus },
};
ALookup<C2Config::level_t, int32_t> sMpeg2Levels = {
{ C2Config::LEVEL_MP2V_LOW, MPEG2LevelLL },
{ C2Config::LEVEL_MP2V_MAIN, MPEG2LevelML },
{ C2Config::LEVEL_MP2V_HIGH_1440, MPEG2LevelH14 },
{ C2Config::LEVEL_MP2V_HIGH, MPEG2LevelHL },
{ C2Config::LEVEL_MP2V_HIGHP, MPEG2LevelHP },
};
ALookup<C2Config::profile_t, int32_t> sMpeg2Profiles = {
{ C2Config::PROFILE_MP2V_SIMPLE, MPEG2ProfileSimple },
{ C2Config::PROFILE_MP2V_MAIN, MPEG2ProfileMain },
{ C2Config::PROFILE_MP2V_SNR_SCALABLE, MPEG2ProfileSNR },
{ C2Config::PROFILE_MP2V_SPATIALLY_SCALABLE, MPEG2ProfileSpatial },
{ C2Config::PROFILE_MP2V_HIGH, MPEG2ProfileHigh },
{ C2Config::PROFILE_MP2V_422, MPEG2Profile422 },
};
ALookup<C2Config::level_t, int32_t> sMpeg4Levels = {
{ C2Config::LEVEL_MP4V_0, MPEG4Level0 },
{ C2Config::LEVEL_MP4V_0B, MPEG4Level0b },
{ C2Config::LEVEL_MP4V_1, MPEG4Level1 },
{ C2Config::LEVEL_MP4V_2, MPEG4Level2 },
{ C2Config::LEVEL_MP4V_3, MPEG4Level3 },
{ C2Config::LEVEL_MP4V_3B, MPEG4Level3b },
{ C2Config::LEVEL_MP4V_4, MPEG4Level4 },
{ C2Config::LEVEL_MP4V_4A, MPEG4Level4a },
{ C2Config::LEVEL_MP4V_5, MPEG4Level5 },
{ C2Config::LEVEL_MP4V_6, MPEG4Level6 },
};
ALookup<C2Config::profile_t, int32_t> sMpeg4Profiles = {
{ C2Config::PROFILE_MP4V_SIMPLE, MPEG4ProfileSimple },
{ C2Config::PROFILE_MP4V_SIMPLE_SCALABLE, MPEG4ProfileSimpleScalable },
{ C2Config::PROFILE_MP4V_CORE, MPEG4ProfileCore },
{ C2Config::PROFILE_MP4V_MAIN, MPEG4ProfileMain },
{ C2Config::PROFILE_MP4V_NBIT, MPEG4ProfileNbit },
{ C2Config::PROFILE_MP4V_ARTS, MPEG4ProfileAdvancedRealTime },
{ C2Config::PROFILE_MP4V_CORE_SCALABLE, MPEG4ProfileCoreScalable },
{ C2Config::PROFILE_MP4V_ACE, MPEG4ProfileAdvancedCoding },
{ C2Config::PROFILE_MP4V_ADVANCED_CORE, MPEG4ProfileAdvancedCore },
{ C2Config::PROFILE_MP4V_ADVANCED_SIMPLE, MPEG4ProfileAdvancedSimple },
};
ALookup<C2Config::pcm_encoding_t, int32_t> sPcmEncodings = {
{ C2Config::PCM_8, kAudioEncodingPcm8bit },
{ C2Config::PCM_16, kAudioEncodingPcm16bit },
{ C2Config::PCM_FLOAT, kAudioEncodingPcmFloat },
{ C2Config::PCM_24, kAudioEncodingPcm24bitPacked },
{ C2Config::PCM_32, kAudioEncodingPcm32bit },
};
ALookup<C2Config::level_t, int32_t> sVp9Levels = {
{ C2Config::LEVEL_VP9_1, VP9Level1 },
{ C2Config::LEVEL_VP9_1_1, VP9Level11 },
{ C2Config::LEVEL_VP9_2, VP9Level2 },
{ C2Config::LEVEL_VP9_2_1, VP9Level21 },
{ C2Config::LEVEL_VP9_3, VP9Level3 },
{ C2Config::LEVEL_VP9_3_1, VP9Level31 },
{ C2Config::LEVEL_VP9_4, VP9Level4 },
{ C2Config::LEVEL_VP9_4_1, VP9Level41 },
{ C2Config::LEVEL_VP9_5, VP9Level5 },
{ C2Config::LEVEL_VP9_5_1, VP9Level51 },
{ C2Config::LEVEL_VP9_5_2, VP9Level52 },
{ C2Config::LEVEL_VP9_6, VP9Level6 },
{ C2Config::LEVEL_VP9_6_1, VP9Level61 },
{ C2Config::LEVEL_VP9_6_2, VP9Level62 },
};
ALookup<C2Config::profile_t, int32_t> sVp9Profiles = {
{ C2Config::PROFILE_VP9_0, VP9Profile0 },
{ C2Config::PROFILE_VP9_1, VP9Profile1 },
{ C2Config::PROFILE_VP9_2, VP9Profile2 },
{ C2Config::PROFILE_VP9_3, VP9Profile3 },
{ C2Config::PROFILE_VP9_2, VP9Profile2HDR },
{ C2Config::PROFILE_VP9_3, VP9Profile3HDR },
{ C2Config::PROFILE_VP9_2, VP9Profile2HDR10Plus },
{ C2Config::PROFILE_VP9_3, VP9Profile3HDR10Plus },
};
ALookup<C2Config::profile_t, int32_t> sVp9HdrProfiles = {
{ C2Config::PROFILE_VP9_2, VP9Profile2HDR },
{ C2Config::PROFILE_VP9_3, VP9Profile3HDR },
};
ALookup<C2Config::profile_t, int32_t> sVp9Hdr10PlusProfiles = {
{ C2Config::PROFILE_VP9_2, VP9Profile2HDR10Plus },
{ C2Config::PROFILE_VP9_3, VP9Profile3HDR10Plus },
};
ALookup<C2Config::hdr_format_t, int32_t> sVp9HdrFormats = {
{ C2Config::hdr_format_t::SDR, VP9Profile0 },
{ C2Config::hdr_format_t::SDR, VP9Profile1 },
{ C2Config::hdr_format_t::HLG, VP9Profile2 },
{ C2Config::hdr_format_t::HLG, VP9Profile3 },
{ C2Config::hdr_format_t::HDR10, VP9Profile2HDR },
{ C2Config::hdr_format_t::HDR10, VP9Profile3HDR },
{ C2Config::hdr_format_t::HDR10_PLUS, VP9Profile2HDR10Plus },
{ C2Config::hdr_format_t::HDR10_PLUS, VP9Profile3HDR10Plus },
};
ALookup<C2Config::level_t, int32_t> sAv1Levels = {
{ C2Config::LEVEL_AV1_2, AV1Level2 },
{ C2Config::LEVEL_AV1_2_1, AV1Level21 },
{ C2Config::LEVEL_AV1_2_2, AV1Level22 },
{ C2Config::LEVEL_AV1_2_3, AV1Level23 },
{ C2Config::LEVEL_AV1_3, AV1Level3 },
{ C2Config::LEVEL_AV1_3_1, AV1Level31 },
{ C2Config::LEVEL_AV1_3_2, AV1Level32 },
{ C2Config::LEVEL_AV1_3_3, AV1Level33 },
{ C2Config::LEVEL_AV1_4, AV1Level4 },
{ C2Config::LEVEL_AV1_4_1, AV1Level41 },
{ C2Config::LEVEL_AV1_4_2, AV1Level42 },
{ C2Config::LEVEL_AV1_4_3, AV1Level43 },
{ C2Config::LEVEL_AV1_5, AV1Level5 },
{ C2Config::LEVEL_AV1_5_1, AV1Level51 },
{ C2Config::LEVEL_AV1_5_2, AV1Level52 },
{ C2Config::LEVEL_AV1_5_3, AV1Level53 },
{ C2Config::LEVEL_AV1_6, AV1Level6 },
{ C2Config::LEVEL_AV1_6_1, AV1Level61 },
{ C2Config::LEVEL_AV1_6_2, AV1Level62 },
{ C2Config::LEVEL_AV1_6_3, AV1Level63 },
{ C2Config::LEVEL_AV1_7, AV1Level7 },
{ C2Config::LEVEL_AV1_7_1, AV1Level71 },
{ C2Config::LEVEL_AV1_7_2, AV1Level72 },
{ C2Config::LEVEL_AV1_7_3, AV1Level73 },
};
ALookup<C2Config::profile_t, int32_t> sAv1Profiles = {
{ C2Config::PROFILE_AV1_0, AV1ProfileMain8 },
{ C2Config::PROFILE_AV1_0, AV1ProfileMain10 },
{ C2Config::PROFILE_AV1_0, AV1ProfileMain10HDR10 },
{ C2Config::PROFILE_AV1_0, AV1ProfileMain10HDR10Plus },
};
ALookup<C2Config::profile_t, int32_t> sAv1TenbitProfiles = {
{ C2Config::PROFILE_AV1_0, AV1ProfileMain10 },
};
ALookup<C2Config::profile_t, int32_t> sAv1HdrProfiles = {
{ C2Config::PROFILE_AV1_0, AV1ProfileMain10HDR10 },
};
ALookup<C2Config::profile_t, int32_t> sAv1Hdr10PlusProfiles = {
{ C2Config::PROFILE_AV1_0, AV1ProfileMain10HDR10Plus },
};
ALookup<C2Config::hdr_format_t, int32_t> sAv1HdrFormats = {
{ C2Config::hdr_format_t::SDR, AV1ProfileMain8 },
{ C2Config::hdr_format_t::HLG, AV1ProfileMain10 },
{ C2Config::hdr_format_t::HDR10, AV1ProfileMain10HDR10 },
{ C2Config::hdr_format_t::HDR10_PLUS, AV1ProfileMain10HDR10Plus },
};
// HAL_PIXEL_FORMAT_* -> COLOR_Format*
ALookup<uint32_t, int32_t> sPixelFormats = {
{ HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED, COLOR_FormatSurface },
// YCBCR_420_888 maps to YUV420Flexible and vice versa
{ HAL_PIXEL_FORMAT_YCBCR_420_888, COLOR_FormatYUV420Flexible },
// Fallback matches for YCBCR_420_888
{ HAL_PIXEL_FORMAT_YCBCR_420_888, COLOR_FormatYUV420Planar },
{ HAL_PIXEL_FORMAT_YCBCR_420_888, COLOR_FormatYUV420SemiPlanar },
{ HAL_PIXEL_FORMAT_YCBCR_420_888, COLOR_FormatYUV420PackedPlanar },
{ HAL_PIXEL_FORMAT_YCBCR_420_888, COLOR_FormatYUV420PackedSemiPlanar },
// Fallback matches for YUV420Flexible
{ HAL_PIXEL_FORMAT_YCRCB_420_SP, COLOR_FormatYUV420Flexible },
{ HAL_PIXEL_FORMAT_YV12, COLOR_FormatYUV420Flexible },
{ HAL_PIXEL_FORMAT_YCBCR_422_SP, COLOR_FormatYUV422PackedSemiPlanar },
{ HAL_PIXEL_FORMAT_YCBCR_422_I, COLOR_FormatYUV422PackedPlanar },
{ HAL_PIXEL_FORMAT_YCBCR_P010, COLOR_FormatYUVP010 },
{ HAL_PIXEL_FORMAT_RGBA_1010102, COLOR_Format32bitABGR2101010 },
{ HAL_PIXEL_FORMAT_RGBA_FP16, COLOR_Format64bitABGRFloat },
};
ALookup<C2Config::picture_type_t, int32_t> sPictureType = {
{ C2Config::picture_type_t::SYNC_FRAME, PICTURE_TYPE_I },
{ C2Config::picture_type_t::I_FRAME, PICTURE_TYPE_I },
{ C2Config::picture_type_t::P_FRAME, PICTURE_TYPE_P },
{ C2Config::picture_type_t::B_FRAME, PICTURE_TYPE_B },
};
/**
* A helper that passes through vendor extension profile and level values.
*/
struct ProfileLevelMapperHelper : C2Mapper::ProfileLevelMapper {
virtual bool simpleMap(C2Config::level_t from, int32_t *to) = 0;
virtual bool simpleMap(int32_t from, C2Config::level_t *to) = 0;
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) = 0;
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) = 0;
template<typename T, typename U>
bool passThroughMap(T from, U *to) {
// allow (and pass through) vendor extensions
if (from >= (T)C2_PROFILE_LEVEL_VENDOR_START && from < (T)INT32_MAX) {
*to = (U)from;
return true;
}
return simpleMap(from, to);
}
virtual bool mapLevel(C2Config::level_t from, int32_t *to) {
return passThroughMap(from, to);
}
virtual bool mapLevel(int32_t from, C2Config::level_t *to) {
return passThroughMap(from, to);
}
virtual bool mapProfile(C2Config::profile_t from, int32_t *to) {
return passThroughMap(from, to);
}
virtual bool mapProfile(int32_t from, C2Config::profile_t *to) {
return passThroughMap(from, to);
}
};
// AAC only uses profiles, map all levels to unused or 0
struct AacProfileLevelMapper : ProfileLevelMapperHelper {
virtual bool simpleMap(C2Config::level_t, int32_t *to) {
*to = 0;
return true;
}
virtual bool simpleMap(int32_t, C2Config::level_t *to) {
*to = C2Config::LEVEL_UNUSED;
return true;
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return sAacProfiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return sAacProfiles.map(from, to);
}
// AAC does not have HDR format
virtual bool mapHdrFormat(int32_t, C2Config::hdr_format_t*) override {
return false;
}
};
struct AvcProfileLevelMapper : ProfileLevelMapperHelper {
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sAvcLevels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sAvcLevels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return sAvcProfiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return sAvcProfiles.map(from, to);
}
};
struct DolbyVisionProfileLevelMapper : ProfileLevelMapperHelper {
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sDolbyVisionLevels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sDolbyVisionLevels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return sDolbyVisionProfiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return sDolbyVisionProfiles.map(from, to);
}
// Dolby Vision is always HDR and the profile is fully expressive so use unknown
// HDR format
virtual bool mapHdrFormat(int32_t, C2Config::hdr_format_t *to) override {
*to = C2Config::hdr_format_t::UNKNOWN;
return true;
}
};
struct H263ProfileLevelMapper : ProfileLevelMapperHelper {
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sH263Levels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sH263Levels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return sH263Profiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return sH263Profiles.map(from, to);
}
};
struct HevcProfileLevelMapper : ProfileLevelMapperHelper {
HevcProfileLevelMapper(bool isHdr = false, bool isHdr10Plus = false) :
ProfileLevelMapperHelper(),
mIsHdr(isHdr), mIsHdr10Plus(isHdr10Plus) {}
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sHevcLevels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sHevcLevels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return mIsHdr10Plus ? sHevcHdr10PlusProfiles.map(from, to) :
mIsHdr ? sHevcHdrProfiles.map(from, to) :
sHevcProfiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return mIsHdr10Plus ? sHevcHdr10PlusProfiles.map(from, to) :
mIsHdr ? sHevcHdrProfiles.map(from, to) :
sHevcProfiles.map(from, to);
}
virtual bool mapHdrFormat(int32_t from, C2Config::hdr_format_t *to) override {
return sHevcHdrFormats.map(from, to);
}
private:
bool mIsHdr;
bool mIsHdr10Plus;
};
struct Mpeg2ProfileLevelMapper : ProfileLevelMapperHelper {
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sMpeg2Levels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sMpeg2Levels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return sMpeg2Profiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return sMpeg2Profiles.map(from, to);
}
};
struct Mpeg4ProfileLevelMapper : ProfileLevelMapperHelper {
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sMpeg4Levels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sMpeg4Levels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return sMpeg4Profiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return sMpeg4Profiles.map(from, to);
}
};
// VP8 has no profiles and levels in Codec 2.0, but we use main profile and level 0 in MediaCodec
// map all profiles and levels to that.
struct Vp8ProfileLevelMapper : ProfileLevelMapperHelper {
virtual bool simpleMap(C2Config::level_t, int32_t *to) {
*to = VP8Level_Version0;
return true;
}
virtual bool simpleMap(int32_t, C2Config::level_t *to) {
*to = C2Config::LEVEL_UNUSED;
return true;
}
virtual bool simpleMap(C2Config::profile_t, int32_t *to) {
*to = VP8ProfileMain;
return true;
}
virtual bool simpleMap(int32_t, C2Config::profile_t *to) {
*to = C2Config::PROFILE_UNUSED;
return true;
}
};
struct Vp9ProfileLevelMapper : ProfileLevelMapperHelper {
Vp9ProfileLevelMapper(bool isHdr = false, bool isHdr10Plus = false) :
ProfileLevelMapperHelper(),
mIsHdr(isHdr), mIsHdr10Plus(isHdr10Plus) {}
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sVp9Levels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sVp9Levels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return mIsHdr10Plus ? sVp9Hdr10PlusProfiles.map(from, to) :
mIsHdr ? sVp9HdrProfiles.map(from, to) :
sVp9Profiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return mIsHdr10Plus ? sVp9Hdr10PlusProfiles.map(from, to) :
mIsHdr ? sVp9HdrProfiles.map(from, to) :
sVp9Profiles.map(from, to);
}
virtual bool mapHdrFormat(int32_t from, C2Config::hdr_format_t *to) override {
return sVp9HdrFormats.map(from, to);
}
private:
bool mIsHdr;
bool mIsHdr10Plus;
};
struct Av1ProfileLevelMapper : ProfileLevelMapperHelper {
Av1ProfileLevelMapper(bool isHdr = false, bool isHdr10Plus = false, int32_t bitDepth = 8) :
ProfileLevelMapperHelper(),
mIsHdr(isHdr), mIsHdr10Plus(isHdr10Plus), mBitDepth(bitDepth) {}
virtual bool simpleMap(C2Config::level_t from, int32_t *to) {
return sAv1Levels.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::level_t *to) {
return sAv1Levels.map(from, to);
}
virtual bool simpleMap(C2Config::profile_t from, int32_t *to) {
return (mBitDepth == 10) ? sAv1TenbitProfiles.map(from, to) :
mIsHdr10Plus ? sAv1Hdr10PlusProfiles.map(from, to) :
mIsHdr ? sAv1HdrProfiles.map(from, to) :
sAv1Profiles.map(from, to);
}
virtual bool simpleMap(int32_t from, C2Config::profile_t *to) {
return (mBitDepth == 10) ? sAv1TenbitProfiles.map(from, to) :
mIsHdr10Plus ? sAv1Hdr10PlusProfiles.map(from, to) :
mIsHdr ? sAv1HdrProfiles.map(from, to) :
sAv1Profiles.map(from, to);
}
virtual bool mapHdrFormat(int32_t from, C2Config::hdr_format_t *to) override {
return sAv1HdrFormats.map(from, to);
}
private:
bool mIsHdr;
bool mIsHdr10Plus;
int32_t mBitDepth;
};
} // namespace
// the default mapper is used for media types that do not support HDR
bool C2Mapper::ProfileLevelMapper::mapHdrFormat(int32_t, C2Config::hdr_format_t *to) {
// by default map all (including vendor) profiles to SDR
*to = C2Config::hdr_format_t::SDR;
return true;
}
// static
std::shared_ptr<C2Mapper::ProfileLevelMapper>
C2Mapper::GetProfileLevelMapper(std::string mediaType) {
std::transform(mediaType.begin(), mediaType.end(), mediaType.begin(), ::tolower);
if (mediaType == MIMETYPE_AUDIO_AAC) {
return std::make_shared<AacProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_AVC) {
return std::make_shared<AvcProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_DOLBY_VISION) {
return std::make_shared<DolbyVisionProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_H263) {
return std::make_shared<H263ProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_HEVC) {
return std::make_shared<HevcProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_MPEG2) {
return std::make_shared<Mpeg2ProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_MPEG4) {
return std::make_shared<Mpeg4ProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_VP8) {
return std::make_shared<Vp8ProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_VP9) {
return std::make_shared<Vp9ProfileLevelMapper>();
} else if (mediaType == MIMETYPE_VIDEO_AV1) {
return std::make_shared<Av1ProfileLevelMapper>();
}
return nullptr;
}
// static
std::shared_ptr<C2Mapper::ProfileLevelMapper>
C2Mapper::GetHdrProfileLevelMapper(std::string mediaType, bool isHdr10Plus) {
std::transform(mediaType.begin(), mediaType.end(), mediaType.begin(), ::tolower);
if (mediaType == MIMETYPE_VIDEO_HEVC) {
return std::make_shared<HevcProfileLevelMapper>(true, isHdr10Plus);
} else if (mediaType == MIMETYPE_VIDEO_VP9) {
return std::make_shared<Vp9ProfileLevelMapper>(true, isHdr10Plus);
} else if (mediaType == MIMETYPE_VIDEO_AV1) {
return std::make_shared<Av1ProfileLevelMapper>(true, isHdr10Plus);
}
return nullptr;
}
// static
std::shared_ptr<C2Mapper::ProfileLevelMapper>
C2Mapper::GetBitDepthProfileLevelMapper(std::string mediaType, int32_t bitDepth) {
std::transform(mediaType.begin(), mediaType.end(), mediaType.begin(), ::tolower);
if (bitDepth == 8) {
return GetProfileLevelMapper(mediaType);
} else if (mediaType == MIMETYPE_VIDEO_AV1 && bitDepth == 10) {
return std::make_shared<Av1ProfileLevelMapper>(false, false, bitDepth);
}
return nullptr;
}
// static
bool C2Mapper::map(C2Config::bitrate_mode_t from, int32_t *to) {
return sBitrateModes.map(from, to);
}
// static
bool C2Mapper::map(int32_t from, C2Config::bitrate_mode_t *to) {
return sBitrateModes.map(from, to);
}
// static
bool C2Mapper::map(C2Config::pcm_encoding_t from, int32_t *to) {
return sPcmEncodings.map(from, to);
}
// static
bool C2Mapper::map(int32_t from, C2Config::pcm_encoding_t *to) {
return sPcmEncodings.map(from, to);
}
// static
bool C2Mapper::map(C2Color::range_t from, int32_t *to) {
bool res = true;
// map SDK defined values directly. For other values, use wrapping from ColorUtils.
if (!sColorRanges.map(from, to)) {
ColorAspects::Range sfRange;
// map known constants and keep vendor extensions. all other values are mapped to 'Other'
if (!sColorRangesSf.map(from, &sfRange)) {
// use static cast and ensure it is in the extension range
if (from < C2Color::RANGE_VENDOR_START || from > C2Color::RANGE_OTHER) {
sfRange = ColorAspects::RangeOther;
res = false;
}
}
*to = ColorUtils::wrapColorAspectsIntoColorRange(sfRange);
}
return res;
}
// static
bool C2Mapper::map(int32_t from, C2Color::range_t *to) {
// map SDK defined values directly. For other values, use wrapping from ColorUtils.
if (!sColorRanges.map(from, to)) {
ColorAspects::Range sfRange;
(void)ColorUtils::unwrapColorAspectsFromColorRange(from, &sfRange);
// map known constants and keep vendor extensions. all other values are mapped to 'Other'
if (!sColorRangesSf.map(sfRange, to)) {
// use static cast and ensure it is in the extension range
*to = (C2Color::range_t)sfRange;
if (*to < C2Color::RANGE_VENDOR_START || *to > C2Color::RANGE_OTHER) {
*to = C2Color::RANGE_OTHER;
return false;
}
}
}
return true;
}
// static
bool C2Mapper::map(C2Color::range_t from, ColorAspects::Range *to) {
return sColorRangesSf.map(from, to);
}
// static
bool C2Mapper::map(ColorAspects::Range from, C2Color::range_t *to) {
return sColorRangesSf.map(from, to);
}
// static
bool C2Mapper::map(C2Color::primaries_t primaries, C2Color::matrix_t matrix, int32_t *standard) {
ColorAspects::Primaries sfPrimaries;
ColorAspects::MatrixCoeffs sfMatrix;
bool res = true;
// map known constants and keep vendor extensions. all other values are mapped to 'Other'
if (!sColorPrimariesSf.map(primaries, &sfPrimaries)) {
// ensure it is in the extension range and use static cast
if (primaries < C2Color::PRIMARIES_VENDOR_START || primaries > C2Color::PRIMARIES_OTHER) {
// undefined non-extension values map to 'Other'
sfPrimaries = ColorAspects::PrimariesOther;
res = false;
} else {
sfPrimaries = (ColorAspects::Primaries)primaries;
}
}
if (!sColorMatricesSf.map(matrix, &sfMatrix)) {
// use static cast and ensure it is in the extension range
if (matrix < C2Color::MATRIX_VENDOR_START || matrix > C2Color::MATRIX_OTHER) {
// undefined non-extension values map to 'Other'
sfMatrix = ColorAspects::MatrixOther;
res = false;
} else {
sfMatrix = (ColorAspects::MatrixCoeffs)matrix;
}
}
*standard = ColorUtils::wrapColorAspectsIntoColorStandard(sfPrimaries, sfMatrix);
return res;
}
// static
bool C2Mapper::map(int32_t standard, C2Color::primaries_t *primaries, C2Color::matrix_t *matrix) {
// first map to stagefright foundation aspects => these actually map nearly 1:1 to
// Codec 2.0 aspects
ColorAspects::Primaries sfPrimaries;
ColorAspects::MatrixCoeffs sfMatrix;
bool res = true;
(void)ColorUtils::unwrapColorAspectsFromColorStandard(standard, &sfPrimaries, &sfMatrix);
// map known constants and keep vendor extensions. all other values are mapped to 'Other'
if (!sColorPrimariesSf.map(sfPrimaries, primaries)) {
// use static cast and ensure it is in the extension range
*primaries = (C2Color::primaries_t)sfPrimaries;
if (*primaries < C2Color::PRIMARIES_VENDOR_START || *primaries > C2Color::PRIMARIES_OTHER) {
*primaries = C2Color::PRIMARIES_OTHER;
res = false;
}
}
if (!sColorMatricesSf.map(sfMatrix, matrix)) {
// use static cast and ensure it is in the extension range
*matrix = (C2Color::matrix_t)sfMatrix;
if (*matrix < C2Color::MATRIX_VENDOR_START || *matrix > C2Color::MATRIX_OTHER) {
*matrix = C2Color::MATRIX_OTHER;
res = false;
}
}
return res;
}
// static
bool C2Mapper::map(C2Color::primaries_t from, ColorAspects::Primaries *to) {
return sColorPrimariesSf.map(from, to);
}
// static
bool C2Mapper::map(ColorAspects::Primaries from, C2Color::primaries_t *to) {
return sColorPrimariesSf.map(from, to);
}
// static
bool C2Mapper::map(C2Color::matrix_t from, ColorAspects::MatrixCoeffs *to) {
return sColorMatricesSf.map(from, to);
}
// static
bool C2Mapper::map(ColorAspects::MatrixCoeffs from, C2Color::matrix_t *to) {
return sColorMatricesSf.map(from, to);
}
// static
bool C2Mapper::map(C2Color::transfer_t from, int32_t *to) {
bool res = true;
// map SDK defined values directly. For other values, use wrapping from ColorUtils.
if (!sColorTransfers.map(from, to)) {
ColorAspects::Transfer sfTransfer;
// map known constants and keep vendor extensions. all other values are mapped to 'Other'
if (!sColorTransfersSf.map(from, &sfTransfer)) {
// use static cast and ensure it is in the extension range
if (from < C2Color::TRANSFER_VENDOR_START || from > C2Color::TRANSFER_OTHER) {
sfTransfer = ColorAspects::TransferOther;
res = false;
}
}
*to = ColorUtils::wrapColorAspectsIntoColorTransfer(sfTransfer);
}
return res;
}
// static
bool C2Mapper::map(int32_t from, C2Color::transfer_t *to) {
// map SDK defined values directly. For other values, use wrapping from ColorUtils.
if (!sColorTransfers.map(from, to)) {
ColorAspects::Transfer sfTransfer;
(void)ColorUtils::unwrapColorAspectsFromColorTransfer(from, &sfTransfer);
// map known constants and keep vendor extensions. all other values are mapped to 'Other'
if (!sColorTransfersSf.map(sfTransfer, to)) {
// use static cast and ensure it is in the extension range
*to = (C2Color::transfer_t)sfTransfer;
if (*to < C2Color::TRANSFER_VENDOR_START || *to > C2Color::TRANSFER_OTHER) {
*to = C2Color::TRANSFER_OTHER;
return false;
}
}
}
return true;
}
// static
bool C2Mapper::map(
C2Color::range_t range, C2Color::primaries_t primaries,
C2Color::matrix_t matrix, C2Color::transfer_t transfer, uint32_t *dataSpace) {
#if 0
// pure reimplementation
*dataSpace = HAL_DATASPACE_UNKNOWN; // this is 0
switch (range) {
case C2Color::RANGE_FULL: *dataSpace |= HAL_DATASPACE_RANGE_FULL; break;
case C2Color::RANGE_LIMITED: *dataSpace |= HAL_DATASPACE_RANGE_LIMITED; break;
default: break;
}
switch (transfer) {
case C2Color::TRANSFER_LINEAR: *dataSpace |= HAL_DATASPACE_TRANSFER_LINEAR; break;
case C2Color::TRANSFER_SRGB: *dataSpace |= HAL_DATASPACE_TRANSFER_SRGB; break;
case C2Color::TRANSFER_170M: *dataSpace |= HAL_DATASPACE_TRANSFER_SMPTE_170M; break;
case C2Color::TRANSFER_GAMMA22: *dataSpace |= HAL_DATASPACE_TRANSFER_GAMMA2_2; break;
case C2Color::TRANSFER_GAMMA28: *dataSpace |= HAL_DATASPACE_TRANSFER_GAMMA2_8; break;
case C2Color::TRANSFER_ST2084: *dataSpace |= HAL_DATASPACE_TRANSFER_ST2084; break;
case C2Color::TRANSFER_HLG: *dataSpace |= HAL_DATASPACE_TRANSFER_HLG; break;
default: break;
}
switch (primaries) {
case C2Color::PRIMARIES_BT601_525:
*dataSpace |= (matrix == C2Color::MATRIX_240M
|| matrix == C2Color::MATRIX_BT709)
? HAL_DATASPACE_STANDARD_BT601_525_UNADJUSTED
: HAL_DATASPACE_STANDARD_BT601_525;
break;
case C2Color::PRIMARIES_BT601_625:
*dataSpace |= (matrix == C2Color::MATRIX_240M
|| matrix == C2Color::MATRIX_BT709)
? HAL_DATASPACE_STANDARD_BT601_625_UNADJUSTED
: HAL_DATASPACE_STANDARD_BT601_625;
break;
case C2Color::PRIMARIES_BT2020:
*dataSpace |= (matrix == C2Color::MATRIX_BT2020_CONSTANT
? HAL_DATASPACE_STANDARD_BT2020_CONSTANT_LUMINANCE
: HAL_DATASPACE_STANDARD_BT2020);
break;
case C2Color::PRIMARIES_BT470_M:
*dataSpace |= HAL_DATASPACE_STANDARD_BT470M;
break;
case C2Color::PRIMARIES_BT709:
*dataSpace |= HAL_DATASPACE_STANDARD_BT709;
break;
default: break;
}
#else
// for now use legacy implementation
ColorAspects aspects;
if (!sColorRangesSf.map(range, &aspects.mRange)) {
aspects.mRange = ColorAspects::RangeUnspecified;
}
if (!sColorPrimariesSf.map(primaries, &aspects.mPrimaries)) {
aspects.mPrimaries = ColorAspects::PrimariesUnspecified;
}
if (!sColorMatricesSf.map(matrix, &aspects.mMatrixCoeffs)) {
aspects.mMatrixCoeffs = ColorAspects::MatrixUnspecified;
}
if (!sColorTransfersSf.map(transfer, &aspects.mTransfer)) {
aspects.mTransfer = ColorAspects::TransferUnspecified;
}
*dataSpace = ColorUtils::getDataSpaceForColorAspects(aspects, true /* mayExpand */);
#endif
return true;
}
// static
bool C2Mapper::map(C2Color::transfer_t from, ColorAspects::Transfer *to) {
return sColorTransfersSf.map(from, to);
}
// static
bool C2Mapper::map(ColorAspects::Transfer from, C2Color::transfer_t *to) {
return sColorTransfersSf.map(from, to);
}
// static
bool C2Mapper::mapPixelFormatFrameworkToCodec(
int32_t frameworkValue, uint32_t *c2Value) {
if (!sPixelFormats.map(frameworkValue, c2Value)) {
// passthrough if not mapped
*c2Value = uint32_t(frameworkValue);
}
return true;
}
// static
bool C2Mapper::mapPixelFormatCodecToFramework(
uint32_t c2Value, int32_t *frameworkValue) {
if (!sPixelFormats.map(c2Value, frameworkValue)) {
// passthrough if not mapped
*frameworkValue = int32_t(c2Value);
}
return true;
}
// static
bool C2Mapper::map(C2Config::picture_type_t from, int32_t *to) {
return sPictureType.map(from, to);
}
// static
bool C2Mapper::map(int32_t from, C2Config::picture_type_t *to) {
return sPictureType.map(from, to);
}